DFD 2010 - Caltech

Transcription

DFD 2010 - Caltech

■ APS/DFD Exhibits and
■ Meeting
APS/DFDRooms
Exhibits and
■ APS/DFD
Exhibits and
Meeting Rooms
®
® ®
Meeting Rooms
American
Physical
Society
American
American
Physical
Physical
Society
Society
CYAN MAGENTA YELLOW BLACK
63rd
Annual
Meeting
63rd
63rd
Annual
Annual
Meeting
Meeting
Division
Fluid
Dynamics
Division
Division
ofof
of
Fluid
Fluid
Dynamics
Dynamics
2121
21
- 23
23
November
November
2010
2010
--23
November
2010
Long
Long
Beach,
Beach,
California
California
Long
Beach,
California
46423 APS-DFD Cover_mp.indd 1
11/2/2010 2:05:45 PM
Coil Area
63rd Annual Meeting of the
Division of Fluid Dynamics
21 – 23 November 2010
Table
of
Long Beach, California
Contents
Welcome................................................................................................................................................2
63rd Annual Meeting Committee.........................................................................................................3
APS/DFD 2010 Officers and Committees...........................................................................................4
DFD Events...........................................................................................................................................6
Registration Desk Hours..........................................................................................................6
Speaker Ready Room Hours...................................................................................................6
DFD Executive Committee Meeting........................................................................................6
Awards Ceremony....................................................................................................................6
Invited Lectures........................................................................................................................6
Welcome Breakfast...................................................................................................................6
Exhibits......................................................................................................................................6
Refreshments............................................................................................................................6
Gallery of Fluid Motion.............................................................................................................6
Wireless Internet.......................................................................................................................6
Conference Reception..............................................................................................................7
Student Luncheon....................................................................................................................7
Other Special Events
The Physics of Flow: High School Teacher’s Workshop......................................................8
NSF CAREER and ONR & AFOSR Young Investigator Workshop.......................................8
Fluids Education Lunch Workshop........................................................................................8
Meet the APS Journal Editors.................................................................................................9
Geophysical Fluid Dynamics Reception................................................................................9
Instructions to Speakers, Session Chairs and Poster Presenters................................................10
Prizes and Awards..............................................................................................................................12
2010 Division of Fluid Dynamics Fellows........................................................................................13
Invited Lectures..................................................................................................................................14
Minisymposia......................................................................................................................................15
Gallery of Fluid Motion
Gallery of Fluid Motion – Posters..........................................................................................16
Gallery of Fluid Motion – Videos...........................................................................................21
Exhibits...............................................................................................................................................27
Session Key........................................................................................................................................31
Program Summary.............................................................................................................................32
Schedule of Papers............................................................................................................................39
Sunday, 21 November............................................................................................................41
Monday, 22 November............................................................................................................63
Tuesday, 23 November...........................................................................................................87
Index of Authors...............................................................................................................................105
Cover photo: Courtesy of Destinations Magazine.
1
Welcome
Welcome to the 63rd Annual Meeting of the Division of Fluid Dynamics in Long Beach, California. The Meeting is hosted by the University of Southern California; California State University, Long Beach; California
Institute of Technology; and University of California, Los Angeles. The Meeting will be held at the Long
Beach Convention Center and the adjacent Hyatt Regency Long Beach. Located downtown, the Convention Center is one of the few waterfront facilities nationwide. The glass concourse and lobby offer expansive
views of the harbor and downtown skyline. The Center is within walking distance to all meeting hotels,
shopping, dining, tourist attractions, and sightseeing along picturesque bays and miles of sandy beach.
This year, we have approximately 2,060 contributed abstracts organized into 24 parallel sessions, and eight
invited lectures ranging from flow simulation in the movies to the role of fluid dynamics of particle laden
flows in understanding the Gulf of Mexico oil spill to fluid dynamics of nuclear fusion. We also have four
minisymposia on numerical simulations of environmental flows, fluid dynamics of biological locomotion,
optical effects of turbulence, and microhydrodynamics of lipid bi-layer membranes. Several special events
associated with the meeting include two Fluids Education Workshops, Young Investigator Workshop,
Student Luncheon, and Accompanying Persons Program.
This year’s Fluid Dynamic Prize winner, John Hinch will deliver the Otto Laporte Lecture. The Andreas Acrivos
Dissertation Award Lecture will be given by Matthew Paoletti, Edwin F. Greco and Roman O. Grigoriev will
give the Francois Frenkiel Award Lecture.
A large Promenade Ballroom will host exhibits from industry and government sponsors, and the Gallery of
Fluid Motion. The ballroom will also host a welcome breakfast on the first day of the meeting and refreshment breaks throughout the meeting. Complimentary wireless internet service in the ballroom and the
adjacent foyer will be provided courtesy of the Viterbi School of Engineering at USC.
We thank Peggy Holland and Monica Malouf for their expert help in organizing the meeting and Vinaya
Sathyasheelappa of the American Physical Society for his invaluable help with handling the numerous
abstracts submitted to the meeting. We also thank the numerous members of the Division who volunteered
their time as session chairs, judges, and faculty hosts for the Student Luncheon. We are also grateful to
Deans of four host schools for offering financial and administrative assistance with the meeting.
Welcome to Long Beach, California. We hope you have a great time!
J. Andrzej Domaradzki
On behalf of the Local Organizing Committee
2
63rd Annual Meeting Committee
Meeting Hosts
University of Southern California
California State University, Long Beach
California Institute of Technology
University of California, Los Angeles
Organizing Committee
J. Andrzej Domaradzki, USC, Committee Chair
John Kim, UCLA
Ron Blackwelder, USC
Tony Leonard, Caltech
John Brady, Caltech
Tony Maxworthy, USC
Fred Browand, USC
Beverley McKeon, Caltech
Charlie Campbell, USC
Phil Muntz, USC
Tim Colonius, Caltech
Paul Newton, USC
John Dabiri, Caltech
Denis Phares, USC
Veronica Eliasson, USC
Tait Pottebaum, USC
Jeff Eldredge, UCLA
Hamid Rahai, CSULB
Melany Hunt, Caltech
Larry Redekopp, USC
Eva Kanso, USC
Paul Ronney, USC
Ann Karagozian, UCLA
Satwindar Sadhal, USC
Pirouz Kavehpour, UCLA
Geoffrey Spedding, USC
Conference Administrative Coordinators
Monica Malouf and Peggy Holland
Meetings And More
[email protected]
Nick Taylor
Registration Account Manager
The Housing Connection
[email protected]
3
APS/DFD 2010 Officers and Committees
Executive Committee
Publications
Committee
Chair:
Juan Lasheras (10/10)
and
Media
Kathy Prestridge (12/12) Chair
Eric Lauga (12/10) Vice-Chair
Bud Homsy (12/10)
Giles Brereton (12/11)
David Kassoy (12/11)
Hao Lin (12/11)
Neelesh Patankar (12/11)
Zvi Rusak (12/11)
Andrew Pollard (12/12)
Chair-Elect:
Ann Karagozian (10/10)
Vice Chair:
Kenny Breuer (10/10)
Past Chair:
Philip Marcus (10/10)
Program Committee
Secretary/Treasurer:
Eckart Meiburg (10/12)
Ken Breuer (12/10) Chair
Bob Behringer (12/10)
Beverley McKeon (12/10)
Colm Caulfield (12/11)
Javier Jimenez (12/11)
Scott Stewart (12/11)
Krishnan Mahesh (12/12)
Sutanu Sarkar (12/12)
Ex-officio: Julian Domaradzki (12/10)
Councillor:
James Brasseur (12/10)
Member-at-Large:
Anette Hosoi (10/10)
Laurette Tuckerman (10/10)
Lance Collins (10/11)
Stefan Llewellyn Smith (10/11)
Tim Colonius (10/12)
Elisabeth Guazzelli (10/12)
Fellowship Committee
Ann Karagozian (12/10) Chair
Jean-Marc Chomaz (12/10)
Said Elghobashi (12/10)
Ari Glezer (12/10)
Elisabeth Guazzelli (12/10)
Robert Moser (12/11)
James Riley (12/11)
Nominating Committee
Fazle Hussain (12/10) Chair
Ron Adrian (12/11) Vice-Chair
Peter Schmid (12/10)
Leslie Smith (12/10)
Geoff Spedding (12/10)
Mory Gharib (12/11)
Ellen Longmire (12/11)
Parvis Moin (12/11)
Paul Steen (12/11)
External Affairs Committee
Jonathan Freund (12/10) Chair
Christophe Clanet (12/12) Vice-Chair
Aline Cotel (12/11)
Sivaram Gogineni (12/11)
Gary Settles (12/11)
Alberto Aliseda (12/12)
Tom Bewley (12/12)
James Duncan (12/12)
4
APS/DFD 2010 Officers and Committees
Selection Fluid Dynamics Prize
Committee
Ad Hoc Committee on
Media & Public Relations
Steve Davis (12/11) Chair
Emil Hopfinger (12/11) Vice-Chair
Robert Ecke (12/10)
Detlef Lohse (12/10)
Keiko Nomura (12/10)
Julio Ottino (12/10)
Wendy Zhang (12/10)
Clarence Rowley (12/11)
K.R. Sreenivasan (12/11)
James Brasseur, Chair
James Duncan
Philip Marcus
Michael Plesniak
William Schultz
Alexander Smits
Division Website Development
Officer
Acrivos Award Committee
Ken Kiger
Andrea Prosperetti (12/11) Chair
Alison Marsden (12/11) Vice-Chair
S. Balachandar (12/10)
Patrice Le Gal (12/10)
Minami Yoda (12/10)
John O. Dabiri (12/11)
Carlos Pantano (12/11)
Membership Coordinator
Timothy Wei
Frenkiel Award Committee
Michael Brenner (12/11) Chair
Ken Kiger (12/11) Vice-Chair
Lance Collins (12/10)
Stuart Dalziel (12/10)
Nicolas Hadjiconstantinou (12/10)
David Saintillan (12/10)
Juan Carlos del Alamo (12/11)
Ad Hoc Committee on
Cyber Fluid Dynamics
P.K. Yeung, Chair
James Brasseur
Sangtae Kim
Beverley McKeon
Eckart Meiberg
Michael Plesniak
5
DFD Events
All events will be held at the Long Beach Convention Center or the Hyatt Regency Long Beach
and are noted under the event description. The Sunday Evening Reception will be held at the Aquarium of the Pacific.
Registration Desk Hours
Exhibits
Long Beach Convention Center Foyer
Sunday, 21 November, 07:00 – 17:00
Monday, 22 November, 07:30 – 17:00
Tuesday, 23 November, 07:30 – 11:00
Long Beach Convention Center – Promenade
Ballroom
Saturday, 20 November 15:00 – 20:00
Sunday, 21 November 07:00 – 17:00
Monday, 22 November 07:30 – 17:00
Tuesday, 23 November 07:30 – 13:00
Speaker Ready Room Hours
The Exhibit Hall showcases products from industry
and government sponsors. Please refer to the list
of exhibitors starting on page 27.
Saturday, 20 November 15:00 – 20:00
Sunday, 21 November 07:00 – 18:30
Monday, 22 November$07:30 – 18:45
Tuesday, 23 November 07:30 – 15:00
Refreshments
Hyatt Regency Long Beach – Shoreline A
Complimentary beverages and snacks will be served
in the exhibit area during the morning and afternoon
breaks, as well as a welcome breakfast on Sunday
morning from 07:00 – 08:00.
DFD Executive Committee
Meeting
Gallery
Saturday, 20 November, 18:00
Hyatt Regency Long Beach – Beacon B
(Located on the third floor)
Awards Ceremony
Sunday, 21 November, 10:15
Long Beach Convention Center –
Grand Ballroom
Invited Lectures
The award-winning entries will be announced
at 15:15 on Monday, 22 November 2010, immediately after the invited talk sessions.
Invited lectures are scheduled Sunday, Monday and
Tuesday. For times and titles, please see page 14.
Welcome Breakfast
Fluid Motion
The 28th Annual Gallery of Fluid Motion consists of
computational and experimental still images and
videos submitted by attendees. A panel selects outstanding entries based on artistic value, scientific
content, and originality. The winning entries will be
displayed at the Annual APS Meeting in March
2011 and will appear in Physics of Fluids, September 2011.
The Division awards, prizes and fellowships will be
presented immediately after the first session on
Sunday, starting at 10:15. The Otto Laporte Lecture
will be given by the recipient of the Fluid Dynamics
Prize following these presentations.
Thi
of
Sunday – Tuesday, 21 – 23 November
Sunday, 07:00 – 17:00; Monday, 07:30 – 17:00;
Tuesday, 07:30 – 11:00
Promenade Ballroom (APS/DFD Exhibit Hall)
New
Yea
s
r
Wireless Internet
Long Beach Convention Center – Promenade
Ballroom (APS/DFD Exhibit Hall)
A complimentary wireless “hotspot” is provided
by the Viterbi School of Engineering at USC in
the APS/DFD Exhibit Hall and its adjacent Foyer.
The Convention Center also provides wireless
internet connection in other areas of the building
for a fee.
Please come to the APS/DFD Exhibit Hall for
Breakfast on Sunday morning prior to the first
session. Visit with colleagues and meet with
the 2010 exhibitors. A light continental breakfast will be served.
6
DFD Events
Conference Reception
Location: Aquarium of the Pacific, 100 Aquarium Way, Long Beach, CA
All paying attendees receive a ticket to this event.
Always a highlight of the meeting, the Conference Reception will be held at the Aquarium of the Pacific
on Sunday evening starting at 19:00. The Aquarium is located within a walking distance of the meeting
hotels and has a mixture of indoor and outdoor areas with exhibits covering all areas of the Pacific, including sunny Southern California and Baja waters, the frigid waters of the North Pacific, and the colorful
reefs of the Tropical Pacific (http://www.aquariumofpacific.org).
Long Beach is known in Southern California for its active jazz scene. A sample of this genre will be provided by The Scott Martin Latin Soul Jazz Band (http://www.scottmartinjazz.com), a performance made
possible by the support from the Viterbi School of Engineering at USC.
The reception is included in the registration fee for those who register as APS Members, Nonmembers,
Graduate Students, and Retired Members. Additional tickets may be purchased for $75 each.
Student Luncheon – FREE Ticketed Event
Supported by UCLA
Monday, 22 November, 12:50 – 13:50, Hyatt Regency Long Beach – Seaview AB
Students attending the meeting will have the opportunity to participate in a discussion with an expert on
a topic of interest. Each expert will host an informal discussion over a complimentary lunch. The luncheon
will begin promptly at 12:50. Interested students should sign up for the luncheon by emailing Professor
Veronica Eliasson ([email protected]). Make sure to include “APS 2010 Student Luncheon” in the subject line. The event is free, but each table/topic is limited to 8 students on a first-come, first-served basis.
The experts and their topics of discussion are as follows:
bio-fluid dynamics
9. Gustav Amberg, The Royal Institute of
Technology, Stockholm
Micro fluid flows, capillarity and wetting,
simulations and modeling, academic careers
in Europe and USA
10.Henrik Alfredsson, The Royal Institute of
Technology, Stockholm
Experiments in turbulent boundary layers
11. Jerry Gollub, Haverford College
Research and teaching at undergraduate
institutions; Using particle tracking to study
micron scale biologically relevant flows
12.Joanna Austen, University of Illinois at
Urbana–Champaign
Hypervelocity flows, dynamic bubble collapse,
compressible geological flows
13.Oleg Schilling, Lawrence Livermore National
Laboratory
Rayleigh-Taylor and Richtmyer-Meshkov
instabilities and mixing
14.Peter Vorobieff, University of New Mexico
Fundamental fluids studies
1. Antonio Ferrante, University of Washington
Turbulence simulation and high-performance
computing, How to find and apply for post
doctoral and tenure track positions
2. Bob Moser, The University of Texas at Austin
Computational science as a tool for fluid
dynamics research
3. Dale Pullin, California Institute of Technology
Numerical simulation of highly compressible
and shock-driven flows
4. Devaraj van der Meer, University of Twente
The role of fluid dynamics in supplying the
world’s future energy needs
5. Ellen Longmire, University of Minnesota
Experimental fluid dynamics, turbulent
interfacial, and multiphase flows
6. Eric Lauga, University of California, San Diego
Bio-fluids
7. Eva Kanso, University of Southern California
Bio-dynamical systems
8. Gary Settles, Penn State University
Compressible flows, supersonic and
hypersonic flows, experimental techniques,
7
Events will be held at either the Long Beach Convention Center or the Hyatt Regency Long Beach.
Please pay specific attention to the room location!
The Physics
of
Flow: High School Teacher’s Workshop
Supported by California State University, Long Beach
Saturday, 20 November
09:00 – 12:00
Hyatt Regency Long Beach – Seaview A
Workshop Instructors:
Professor Karen Flack
Department of Mechanical
Engineering
United States Naval Academy
Professor Bud Homsy
Department of Mathematics
University of British Columbia
Dr. Kathy Prestridge
Fluids Team Leader, Physics
Division
Los Alamos National Labs
This workshop will provide physics instructors with a broader depth of information on fluid mechanics and
how to incorporate this into high school physics lessons. The focus will be on promoting hands on, small
group laboratory activities that illuminate the physics of flow. Attendees will perform a laboratory exercise
related to Bernoulli and leave the workshop with instructions so this lab can be used in a high school physics
classroom. The use of flow visualization media as a supplement to physics instruction will be described and
the participants will learn how to access the archives of flow visualization videos.
This workshop satisfies three hours of Continuing Education Credit and attendees will have free admission
to the Conference.
NSF CAREER
and
ONR & AFOSR Young Investigator Workshop
FREE TICKETED EVENT
Supported by Caltech
Sunday, 21 November
11:45 – 12:45
Hyatt Regency Long Beach – Seaview AB
Horst Henning Winter of NSF, John Schmisseur of AFOSR, and Ki-Han Kim of ONR will lead a luncheon
discussion on their agencies’ programs for early career researchers. To attend this free workshop/lunch,
attendees must be registered for the conference and be eligible for at least one of the awards. Space is
limited and advanced signup is required. To signup, send an email to Professor Tait Pottebaum (pottebau@
usc.edu). Eligibility requirements and additional information on the CAREER Program and the Young Investigator Programs can be found at http://tinyurl.com/NSF-CAREER, http://tinyurl.com/AFOSR-YIP, and http://
tinyurl.com/ONR-YIP.
Fluids Education Lunch Workshop
Sponsored by California State University, Long Beach
Monday, 22 November
12:50 – 13:50
Hyatt Regency Long Beach – Seaview C
This workshop will provide an opportunity for fluids educators to discuss topics of mutual interest, such as
curricula comparisons, best practices, simple experiments and demos, use of concept questions, and more.
Thematic “Table Questions” will be provided to guide conversation, and we will harvest “Best of the Table”
highlights at the end of the lunch.
8
Meet
the
APS Journal Editors
Monday, 22 November
16:30 – 18:30
Long Beach Convention Center – Room 204 Foyer
The Editors of the APS journals cordially invite you to join them for conversation and refreshments. Your
questions, suggestions, compliments, and complaints about the journals are welcome. We hope you will be
able to join us.
Geophysical Fluid Dynamics Reception
Monday, 22 November
19:00 – 20:30
Hyatt Regency Long Beach – Seaview Rotunda
Come to an open reception for alumni and friends of the Geophysical Fluid Dynamics (GFD) Program. The
GFD program is an interdisciplinary summer program for graduate students that has been held since 1959
at the Woods Hole Oceanographic Institution. It has promoted the exchange of ideas relating to fluid
mechanics among many fields, such as oceanography, meteorology, astrophysics, geology, planetary atmo
spheres, and applied mathematics. Over its 50 year history the GFD program has produced numerous
alumni and touched many junior and senior scientists, and the purpose of the reception is to bring them
together along with any other interested parties. Information on how to participate in the program will be
provided.
9
Instructions to Speakers, Session
Chairs and Poster Presenters
1. Speakers should arrive prior to the start of the session and introduce themselves to the Session Chair.
2. A cable TV monitor in each room will be used to time the sessions. This timing will be strictly enforced
by the Session Chair.
3. Contributed papers are limited to 10 minutes with 2 additional minutes for discussion. This is followed
by 1 minute for transition to the next paper and introduction of the next speaker. During the talk, the
monitor will indicate at 8 minutes that the speaker has to finish in 2 minutes. At 10 minutes, it will indicate that the speaker’s presentation time is over. At 12 minutes, it will indicate that transition to the next
speaker must occur.
4. A minisymposium paper is 26 minutes long, including questions and transition. This makes a minisymposium paper twice as long as a regular contributed paper, allowing attendees to move between regular
talks and minisymposia. Minisymposium talks will be 20–22 minutes long with 5–3 minutes for discussion and 1 minute for transition. However, note that the time monitor in the room will correspond to a
regular 13 minute talk.
5. The Otto Laporte Lecture is 40 minutes with 5 additional minutes for discussion (total 45 minutes). Invited lectures are 30 minutes long with an additional 5 minutes for discussion (total 35 minutes). The
Andreas Acrivos Dissertation Award Lecture and Francois Frenkiel Award Lectures are 17 minutes with
3 additional minutes for discussion (total 20 minutes).
6. Each presentation room is equipped with an LCD projector, screen, lavalier microphone and pointer.
Speakers must provide their own laptop computer. Macintosh users should provide their own adaptor to
connect their laptop to the projector. Speakers are responsible for procurement and cost of renting any
additional AV equipment. Also note that the APS is not responsible for the security of any personal computers.
7. There is very little time to recover from an AV malfunction, should one occur. Please check for
the following common reasons for malfunctions (before your presentation):
•
Meeting room projectors will have 1024 by 768 resolution. Please set your laptop resolutions
to 1024 by 768 or lower. Your images will not display properly if your laptop resolution is
higher than the projector.
•
Set the power profile, monitor profile and screensaver on your laptop to turn off the sleep/
hibernate mode. Your laptop will usually revert to its default resolution if it goes into sleep/
hibernate mode.
•
Animations and equations in PowerPoint are not necessarily compatible across different
versions. If you load your presentation on to a different computer, please check that it displays correctly.
•
Show up ten minutes before the session starts, and ask the student volunteer in the room to
connect your laptop to the four-way switch; do not do so by yourself.
•
Macintosh users should bring their own adaptor to connect their laptop to the projector.
•
A Speaker Ready Room staffed by technicians is provided for your use in location. Please
test your presentations and confirm your laptop settings in the Speaker Ready Room prior
to your talk.
Please Note: Speaker Ready Room is located at the Hyatt Regency Long Beach – Shoreline A.
10
Instructions to Speakers, Session
Chairs and Poster Presenters
Additional Notes
to
Session Chairs:
1. Please be on time. Arrive in the presentation room at least 10 minutes prior to the session start time.
Just before the session begins, briefly introduce yourself and explain the timing system to the audience.
2. Start the session on time. Announce the first abstract and author when the monitor timing system
signals the beginning of the talk.
3. Strictly adhere to the timing signals. The purpose of these timing signals is to allow attendees to move
from one session to another and to be able to rely on the exact time of each presentation as listed in the
program. Speakers must be asked to stop when their allotted time is up.
4. Please check the Corrigenda and program agenda for your session. If a presentation has been withdrawn or should a speaker fail to appear, allow the preceding discussion to continue, or suspend the
session until it is time for the next scheduled abstract. You may allow a speaker who misses his scheduled time, to speak at the end of the session if time allows.
5. All meeting rooms will have a student volunteer to assist you with running the session.
Gallery
on page
of
16.
Fluid Motion Poster Setup Instructions
Poster Session L-1 Set
Session:
up
can be found
Instructions
L1
Day/Date/Time: Monday, 22 November, 15:15 – 17:00
Location:
Promenade Ballroom Foyer
Set-up:
Please place your poster in the section marked “Session L1 Poster Session.” Do not
place in the section marked “Gallery of Fluid Motion” in the Promenade Ballroom.
Poster boards (a little less than one-half of an 8-foot long x 4-foot high poster board for
each entry i.e., 45″ x 45″) will be available for mounting.
Boards will be in place and numbered by 12:00 on Monday in the Promenade Ballroom
FOYER, i.e., the day of the poster session. Note that this is different from previous years
when the boards were available starting on Saturday.
Entries are to be mounted in the numbered space that has been reserved for it. Refer to
the poster session listing on page 83 for assigned number.
Velcro and pushpins will be provided. Presenters must bring any other supplies needed
to mount their posters.
Presentation:
Poster authors must be by their board for the session on Monday.
Dismantling:
Posters must be removed by 17:45 on Monday. Those not removed, will be discarded.
11
Prizes and Awards
Sunday, 21 November
intended by those who originally funded the
lectureship in his name. Also, this decision
honors the many distinguished colleagues
who were the Otto Laporte Lecturers in earlier
years of the division, and the Otto Laporte
Awardees after the lecture was made an APS
Award in 1985.
Session B1.01: Welcome, Presentation of
Awards and DFD Fellowships
10:15, Long Beach Convention Center –
Grand Ballroom
Chair: Juan Lasheras, University of California,
San Diego
Tuesday, 23 November
Session B1.02: Otto Laporte Lecture
Grand Ballroom
Chair: Stephen Davis, Northwestern University
Session PS: Andreas Acrivos Dissertation
Award Lecture
Grand Ballroom A
Chair: Andrea Prosperetti, Johns Hopkins
University
John Hinch, Cambridge University
Fluid Dynamics Prize Talk: Explaining the
flow of elastic liquids
2010 Fluid Dynamics Prize
John Hinch, of Cambridge University, is the
recipient of the 2010 Fluid Dynamics Prize
that recognizes major contributions to fundamental fluid dynamics made during a career of
outstanding work. The citation reads: “For in
sightful contributions, including exact results,
averaging methods, scaling arguments, and
approximate approaches to suspension
mechanics, free-surface flows, flow in porous
media, evolution of polymers in flows, and
other research topics in the flow of complex
fluids.”
2010 Andreas Acrivos Dissertation Award
Matthew Paoletti, University of Maryland
The thesis title is: “Quantum Mechanics meets
Fluid Dynamics: Visualization of Vortex Reconnection in Superfluid Helium.”
The citation reads: “For the visualization and
characterization of quantized vortex reconnection and counterflows in superfluid helium-4.”
Advisor: Daniel Lathrop, University of Maryland
Session PT: Francois Frenkiel Award Lecture
Grand Ballroom B
Chair: Kenneth Kiger, University of Maryland
The Fluid Dynamics Prize was established in
1979 with support from the Office of Naval
Research. In 2004, the Otto Laporte Award
was combined with the Fluid Dynamics Prize
so that the Division of Fluid Dynamics would
have a single major prize – the Fluid Dynamics Prize. The prize is now supported by the
Division of Fluid Dynamics, Friends of Otto
Laporte, and the American Institute of Physics journal, Physics of Fluids.
2010 Francois Frenkiel Award
Edwin F. Greco and Roman O. Grigoriev,
Georgia Institute of Technology
The citation reads: “For thermocapillary migration of interfacial droplets.”
In 2004, the DFD Executive Committee decided unanimously to call the lecture given by
the Fluid Dynamics Prize recipient, the Otto
Laporte Lecture. The rationale for this decision was to continue to honor the memory of
one of the DFD’s founding members, as was
12
2010 Division of Fluid Dynamics Fellows
Triantaphyllos Akylas, Massachusetts Institute
of Technology, “For elegant and insightful theoretical investigations of nonlinear surface and internal
gravity wave phenomena.”
methods based on wavelets and fundamental contributions to the theory of low-dimensional manifolds as applied to complex kinetics for chemically
reacting flows.”
Kenny Breuer, Brown University, “For innovative
studies of active flow control, the mechanics of
flight, and micro- and nano-scale fluid mechanics,
and for educational leadership via Multimedia Fluid
Mechanics.”
Juan Santiago, Stanford University, “Insightful
and manifold contributions to microfluidics, including novel measurement methods, characterization
and explanation of electrically driven flow instabilities, and studies and engineering applications of
electrically driven flows for pumps, separations,
and sample preparation.”
Haecheon Choi, Seoul National University,
Korea, “For his contributions to the fundamental
physics and control of turbulent boundary layers
and bluff-body flows through numerical simulations
and laboratory experiments.”
Peter Simpkins, Syracuse University, “For incisive analytical and experimental studies of twophase flows, natural convection, and various aspects of electro-optical materials processing.”
Tim Colonius, California Institute of Technology,
“For the development of accurate and robust numerical methods for fluid dynamics and creative
numerical experiments that expose the fundamental mechanics and control of instabilities, flow generated sound, and cavitation bubbles.”
Geoffrey Spedding, University of Southern Cali
fornia, “For contributions to our understanding of
unsteady animal flight and stratified turbulence,
obtained using innovative diagnostic techniques.”
Kathleen Stebe, University of Pennsylvania,
“For lasting contributions to the physics of fluidfluid interfaces, and in particular the discovery of
surface re-mobilization and other surfactant phenomena, to the dynamics of drops and bubbles and
to nano-particle self-assembly.”
Genevieve Comte-Bellot, Ecole Centrale de
Leon, France, “For seminal contributions to the
understanding and measurement of turbulent and
aeroacoustic phenomena.”
Leonhard Kleiser, ETH Zurich, Switzerland, “For
pioneering contributions to the development of ac
curate numerical methods for computational fluid
dynamics, and for their application to elucidate
phenomena of transition and turbulence in wallbounded flows, compressible turbulence, and
gravity-driven and particle-laden flows.”
John Christos Vassilicos, Imperial College, UK,
“For his contributions to advance the understanding turbulence decay, mixing and particle motions,
especially by recognizing and exploiting the use of
fractals in theory and experiment.”
Emmanuel Villermaux, Université de Provence,
France, “For outstanding and influential advances
in the understanding and modeling of dispersion,
mixing and acceleration in turbulent flows.”
Li-Shi Luo, Old Dominion University, “For his
seminal contributions to the theoretical understanding and applications of the lattice Boltzmann equation and other kinetic methods.”
Keqing Xia, The Chinese University of Hong
Kong, “For his tremendous contributions to our
present experimental knowledge and understanding of turbulent Rayleigh-Benard convection.”
Ivan Marusic, University of Melbourne, Australia, “For fundamental and original experiments and
modeling concepts leading to improved understanding of turbulent boundary layers and high
Reynolds number turbulence.”
Khairul B. M. Zaman, NASA Glenn Research
Center, “For advancing the understanding of vortex
generating tab technology for mixing enhancement
and noise reduction in jets, and for discovering and
explaining ‘transonic tones’ in overexpanded jets.”
Samuel Paolucci, University of Notre Dame,
“For major theoretical contributions to the theory of
hydrodynamic stability of natural convection flows,
development of novel adaptive computational
13
Invited Lectures
The 2010 Annual Meeting will feature the following eight invited lectures, presented during plenary sessions.
Each invited lecture will be thirty minutes long, followed by five minutes for questions.
Sunday, 21 November
Invited Session KS
Grand Ballroom A
Chair: Colm-cille Caulfield, Cambridge
University, UK
Invited Session DS
Grand Ballroom A
Chair: Anette (Peko) Hosoi, Massachusetts
Institute of Technology
Ross Griffiths, The Australian National University
Ocean Circulation and Surface Buoyancy Fluxes:
Dynamics and Energetics
Andrea Bertozzi, Mathematics Department,
UCLA
Particle Laden Viscous Fluids and the Gulf of
Mexico Oil Spill
Invited Session KT
Grand Ballroom B
Chair: Pirouz Kavehpour, University of California,
Los Angeles
Invited Session DT
Grand Ballroom B
Chair: Kenny Breuer, Brown University
Minami Yoda, Georgia Institute of Technology
Dynamics of Suspended Colloidal Particles Near
a Wall: Electrokinetic Effects and Implications for
Particle-Based Velocimetry
Jerry Tessendorf, Rhythm and Hues Studios
Fluid Simulation in the Movies: Navier and Stokes
Must be Circulating in Their Graves
Monday, 22 November
Invited Session NS
Grand Ballroom A
Chair: Geoffrey Spedding, University of Southern
California
Invited Session JS
Grand Ballroom A
Chair: Parviz Moin, Stanford University
James Riley, University of Washington
Turbulence in Strongly Stratified Flows
Daniele Carati, Universite Libre de Bruxelles,
Belgium
Dynamics of Electrically Conducting Fluids
Invited Session NT
Grand Ballroom B
Invited Session JT
Grand Ballroom B
Chair: Paul Ronney, University of Southern
California
Paul Steen, Cornell University
Wetting, Spreading and Capillary Adhesion:
Putting Shape-Instability to Purpose
Christophe Clanet, LadHyX, Ecole Polytechnique,
France
Splashes
14
Minisymposia
The 2010 Annual Meeting will feature four minisymposia. Each minisymposium will consist of five talks,
each twice as long as a regular contributed talk. The minisymposia are incorporated into the main program
by choosing locations and time slots that are in the proximity to regular sessions on related topics.
Sunday, 21 November
Monday, 22 November
Minisymposium I: Session AQ
08:00, Long Beach Convention Center – 203B
Minisymposium IV: Session LL
15:35, Long Beach Convention Center – 202A
Minisymposium on Biological Perspectives on
Locomotion
Chair: Eva Kanso, University of Southern
California
Minisymposium on Microhydrodynamics of Lipid
Bi-layer Membranes
Chair: Petia Vlahovska, Dartmouth University
Minisymposium II: Session CG
13:00, Long Beach Convention Center – 103B
Minisymposium on Computational Strategies
for the Simulation of Nonlinear Waves and
Turbulence in Environmental Flows
Chair: Peter Diamessis, Cornell University
Minisymposium III: Session EA
16:10, Long Beach Convention Center – 101A
Minisymposium on Optical Effects of Turbulence
Chair: Darek Bogucki, Texas A&M Corpus Christi
15
Gallery of Fluid Motion
Gallery of Fluid Motion Hours
Sunday – Tuesday, 21 – 23 November
Long Beach Convention Center – Promenade Ballroom (APS/DFD Exhibit Hall)
Sunday, 07:00 – 17:00; Monday, 07:30 – 17:00; Tuesday, 07:30 – 11:00
The 28th Annual Gallery of Fluid Motion consists of computational and experimental still images and
videos submitted by attendees. A panel selects outstanding entries based on artistic value, scientific
content, and originality. The award-winning entries will be announced at 15:15 on Monday, 22 November 2010, immediately after the invited talk sessions. The winning entries will be displayed at the
Annual APS Meeting in March 2011 and will appear in Physics of Fluids, September 2011.
In addition to the videos in the Gallery, there will be videos provided by the local movie industry with
the fluid dynamics themes. These videos will be played on a separate monitor in the proximity of the
Gallery.
Posters
Set-up:
Please place your poster in the section marked “Gallery of Fluid Motion.” Do not place in
the section marked “Session L1 Poster Session.”
Boards will be in place and numbered by 17:30 on Saturday evening. Entries may be put
up between 17:30 and 20:00 on Saturday evening, 20 November, or between 07:00 and
09:00 on Sunday, 21 November.
•
Entries are to be mounted in the numbered space that has been reserved for it.
Refer to the listing starting below for the assigned number.
•
Velcro and pushpins will be provided. Presenters must bring any other supplies
needed to mount their posters to the boards.
•
Poster boards (a little less than one-half of an 8-foot long x 4-foot high poster board
for each entry i.e., 45″ x 45″) will be available for mounting.
Dismantling:
Presenters must dismantle their posters by 12:50 on Tuesday. After that they will be discarded.
1. A suspension of buoyant particles in a
rotating cylinder
M. Kalyankar, Oklahoma State University;
W. R. Matson, DePaul University; P. Tong,
Hong Kong Univ. of Science and Tech.;
B. J. Ackerson, Oklahoma State University.
3. Rosensweig instability in a fluid layer
Ching-Yao Chen and Jia-Fen Liu, National
Chiao Tung University, Taiwan.
4. Plume structures at different viscosity
ratios across the bottom boundary layer
Vivek N. Prakash, K. R. Sreenivas, Jawaharlal
Nehru Centre for Advanced Scientific
Research, Bangalore, India; Jaywant H.
Arakeri, Indian Institute of Science, Bangalore,
India.
2. Eggs in milk
Tadd Truscott and Ken Langley, Brigham Young
University; Jesse Belden, Massachusetts
Institute of Technology.
16
Gallery
of
Fluid Motion – Posters
5. Visualizing supersonic inlet duct unstart
using planar laser Rayleigh scattering
Hyungrok Do and Seong-kyun Im, Stanford
University; M. Godfrey Mungal, Stanford
University and Santa Clara University; Mark A.
Cappelli, Stanford University.
– Promenade Ballroom (APS/DFD Exhibit Hall)
15.Fiber optic micro-bubble generator
Reinher Pimentel-Domínguez, Juan
Hernández-Cordero and Roberto ZenitCamacho, IIM-UNAM.
16. PIV visualization of flow over race car body
in water tunnel
Sam Hellman and Peter Tkacik, University of
North Carolina – Charlotte.
6. Experimental determination of zonal winds
driven by tides
Morize Cyprien, Univ. Paris-Sud XI; Sauret
Alban, Univ. Aix Marseille; Michael Le Bars
and Patrice Le Gal, CNRS; Tilgner Andreas,
Univ. Göttingen.
17.Visualization of flow patterns behind
various static objects in two-dimensional
flow using soap film
Mohamed Fayed, Rocco Portaro and AmyLee Gunter, Concordia University; Hamid Ait
Abderrahmane, McGill University; Hoi Dick
Ng, Concordia University.
7. Shock-initiated combustion of a spherical
density inhomogeneity
Nicholas Haehn, Jason Oakley, Mark
Anderson and David Rothamer, University
of Wisconsin – Madison; Devesh Ranjan,
University of Texas – A&M; Riccardo Bonazza,
University of Wisconsin – Madison.
18.Droplet impact on a wet surface
Tristan Gilet and John W. M. Bush, Massachusetts Institute of Technology.
8. Bubble clusters in associative polymers
J. R. Velez-Cordero, D. Samano and R. Zenit,
IIM-UNAM.
19.Fluid jet evolution after water entry
Jenna M. McKown and Alexandra H. Techet,
Massachusetts Institute of Technology; Tadd T.
Truscott, Brigham Young University.
9. Drops collision
Keith Trueman; Igor Kliakhandler, Intergrid
Mideast Group LLC.
20. Shape instability of sedimenting viscous
drops
Alex Felce and Thomas Cubaud, Stony Brook
University.
10.Water strider
Terry Tuk and Julie Macdonald; Igor
Kliakhandler, Intergrid Mideast Group LLC.
21.Flow structures around a slow-flying bat
Shizhao Wang, Xing and Guowei He, LNM,
Institute of Mechanics, Chinese Academy of
Sciences.
11. English tea with milk
Corrie White; Igor Kliakhandler, Intergrid Mideast Group LLC.
22.Microfluidic fireflies
Saif A. Khan, Zahra Barikbin and M. Taifur
Rahman, National University of Singapore.
12. Bubble burst
23.Phenomena of water drop impact on nanostructures
Geunjae Kwak, Dongwook Lee and Inseok
Kang, POSTECH.
13.Drops collision
14. Simulated blood flow through coronary
arteries
Michelle Borkin, Amanda Peters, Hanspeter
Pfister and Efthimios Kaxiras, Harvard
University.
17
Gallery of Fluid Motion – Posters (continued) – Promenade Ballroom (APS/DFD Exhibit Hall)
24. Global modes in a swirling jet undergoing
vortex breakdown
Kilian Oberleithner, Moritz Sieber, Christian
Navid Nayeri and Christian Oliver Paschereit,
Technical University Berlin; Christoph Petz
and Hans Christian Hege, Zuse Institut Berlin;
Bernd Noack, Institut Pprime, CNRS; Israel
Wygnanski, University of Arizona.
32.Flow over a cavity – Evolution of the vortex
skeleton
Jens Kasten and Jan Reininghaus, Zuse
Institute Berlin; Kilian Oberleithner, Technische Universität Berlin; Ingrid Hotz, Zuse
Institute Berlin; Bernd R. Noack, Institut
Pprime, CNRS; Hans-Christian Hege, Zuse
Institute Berlin.
25.Split stream flow past a circular cylinder
Vicky Tian, California Institute of Technology;
Ivett Leyva, Air Force Research Laboratory;
Beverley J. McKeon, California Institute of
Technology.
33. Non-coalescence of jets: Jets rebounding
off other jets
Navish Wadhwa and Sunghwan Jung, Virginia
Polytechnic Institute and State University.
34.Non-axisymmetric impact creates pineapple-shaped cavity in a liquid
O. R. Enriquez, I. R. Peters, L. E. Schmidt,
S. Gekle, D. van der Meer and D. Lohse,
University of Twente.
26.Control of laminar separation on an
idealized airfoil using periodic dynamic
roughness actuation
Cody Gonzalez, California State Polytechnic
University, Pomona; Jean-Frederic Bruhat,
Ecole Polytechnique, Palaiseau; Beverley J.
McKeon, California Institute of Technology;
Barnaby Wainfan, Northrop Grumman
Corporation.
35.Symmetry breaking in the wake behind two
rotating cylinders
Sanjay Kumar and Benito Gonzalez, The
University of Texas at Brownsville.
27.Preferential condensation of water droplets using hybrid hydrophobic-hydrophilic
surfaces
Kripa Varanasi, Adam Paxson and Rajeev
Dhiman, MIT; Tao Deng, GE Global Research.
36.Microfluidic assembly of multiscale soft
materials
Lian Leng and Axel Guenther, University of
Toronto.
37. Singular jets in viscous bubbles
Thomas Seon and Arnaud Antkowiak, CNRS
& UPMC Univ Paris 06, Institut d’Alembert.
28.Deceleration driven wetting transition
during “gentle” drop deposition
Hyuk-Min Kwon, Adam Paxson, Kripa
Varanasi and Neelesh Patankar,
Massachusetts Institute of Technology.
38.Sphere rebound-suppression from
sloshing
Robert A. Klaus and Tadd T. Truscott, Brigham
Young University.
29.The merging of two hydraulic jumps
Celestini and Kofman, Université de Nice
Sophia Antipolis, CNRS.
39.Bubbles in bubbly media
Arvind Jayaprakash, Sowmitra Singh and
Georges Chahine, Dynaflow Inc.
30.Bouncing jets
Noblin, Kofman and Celestini, Université de
Nice Sophia Antipolis, CNRS.
40.Self-assembled ordered arrays of noncoalescent water drops
Vivek Sharma, Massachusetts Institute of
Technology; Lulu Song, Nalco Energy Service;
Jung Ok Park and Mohan Srinivasarao,
Georgia Institute of Technology.
31.Length matters, periodically
Marie-Charlotte Renoult, University of Paris
VI; Sameh Ferjani and Charles Rosenblatt,
Case Western Reserve University; Pierre
Carles, University of Paris VI.
18
41.Magnetically tuned pattern selection of
thin ferrofluid droplets
Ching-Yao Chen and W.-L. Wu, National
Chiao Tung University; Jose Miranda,
Universidade Federal de Pernambuco.
51.Numerical simulation of shock/isotropic
turbulence interaction (SITI)
Nathan Grube, Ellen Taylor and Pino Martin,
University of Maryland.
52.Life and death of a weakly viscoelastic jet
Vivek Sharma, James Serdy and Gareth H.
McKinley, Massachusetts Institute of
Technology.
42.Liquid chandeliers by entrainment
Roberto Camassa, Mark Hemphill, David
Holz, Richard M. McLaughlin, Keith Mertens,
Cameron Moseley and Casey Smith, UNC.
53.Wetting hysteresis of a superhydrophobic
Cassie droplet
Katie Smyth, Adam Paxson and Kripa
Varanasi, Massachusetts Institute of
Technology.
43.Fluid dynamics art exploration
Robyn Nariyoshi and Said Shakerin,
University of the Pacific.
44.Fluid dynamics novelty toys
Said Shakerin and Camilla Saviz, University of
the Pacific.
54.Evolution of hairpin vortices in a turbulent
flow
Praveen Kumar and Ronald Adrian, Arizona
State University.
45.Multiscale modeling of non-Newtonian
heterogeneous flows
Arturo Fernandez and Asif Kabir, North
Carolina A&T.
55.From bouncing to sticking: Size
dependence of drops impacting super
hydrophobic surfaces
Daniel Bolleddula, Heather Dillon, Alberto
Aliseda, Prasad Bhosale and John Berg,
University of Washington.
46.Control of circular jet
Trushar B. Gohil, Arun K. Saha and K. Muralidhar, Indian Instiute of Technology Kanpur.
47.Low frequency unsteadiness in shock wave
and turbulent boundary layer interactions
Stephan Priebe, Princeton University and
University of Maryland; Yin-Chiu Kan and Pino
Martin, University of Maryland.
56.Faces of Taylor-Couette: Inner, outer,
accelerated
M. J. Burin and C. J. Czarnocki, CSU San
Marcos.
57.Microfluidic assembly of multiscale soft
materials
Lian Leng and Axel Guenther, University of
Toronto.
48.Particle formation and growth in turbulent
flows: Metal nanoparticles for the carbonneutral production of hydrogen gas
Jun Liu and Sean C. Garrick, University of
Minnesota.
58.Small artery fluid and vasodynamics
Sanjesh Yasotharan, Sascha Pinto, SteffenSebastian Bolz and Axel Guenther, University
of Toronto.
49.Large eddy simulation (LES) of buoyancy
driven flows
Anchal Jatale, Philip Smith and Ben Isaac,
University of Utah.
59.Motion of a locally heated soap film
Ildoo Kim and X. L. Wu, University of
Pittsburgh.
50.Large eddy simulation (LES) of industrial
flares
Ben Isaac, Philip Smith and Anchal Jatale,
University of Utah.
19
60.Effective viscosity and dynamics of dilute
bacterial suspensions
Brian Haines, Penn State University; Igor
Aranson, Argonne National Laboratory; Leonid
Berlyand, Penn State University; Dmitry
Karpeev, Argonne National Laboratory.
70.Color Schlieren imaging of internal shock
structure in super sonic planar rocket
nozzle
Peter Thomas Tkacik and Russell Guy
Keanini, University of North Carolina at
Charlotte; Den Baseda, North Carolina State
University; Michael Patrick Tkacik, Clemson
University; Nilabh Srivastava and Sam Elliott
Hellman, University of North Carolina at
Charlotte.
61.Marangoni flows
Troy Shinbrot, Nirmal Thyagu and Carlos
Caicedo, Rutgers University; Evelyn
Strombom, Swarthmore College.
71. Color Schlieren imaging of shock diamonds of air jet from nozzle
Peter Thomas Tkacik and Sam Elliott Hellman,
University of North Carolina at Charlotte; Den
Baseda, North Carolina State University;
Russell G. Keanini, University of North
Carolina at Charlotte; Michael Patrick Tkacik,
Clemson University; Nilabh Srivastava,
University of North Carolina at Charlotte.
62.A biologically imperative jet
Melissa Lucht and Jean Hertzberg, University
of Colorado, Boulder.
63.Reflection and refraction in water droplets
Corey Davis and Jean Hertzberg, University of
Colorado, Boulder.
64.A turbulent particle laden gas jet in water
Joseph VanAmberg, Matthew Blessinger,
Dung Dinh Luu, Kevin McCoy and Jean
Hertzberg, University of Colorado, Boulder.
72. Life of a free soap film
H. C. Mayer and R. Krechetnikov, University
of California, Santa Barbara.
65.A dominant bath-tub vortex
Jonathan Varkovitzky, Chris Svedman, Peter
Mitrano and Jean Hertzberg, University of
Colorado, Boulder.
73.Flow visualization of the Landau-Levich
problem
R. Diaz, H. C. Mayer, and R. Krechetnikov,
University of California, Santa Barbara.
66.Saffman Taylor instability in a diverging
Hele-Shaw cell
Patrick Wessels and Jean Hertzberg,
University of Colorado, Boulder.
74. Buckling droplets
Manu Prakash, Harvard University.
75. Anisotropy in rotating MHD turbulence
Benjamin Favier, Fabien S. Godeferd and
Claude Cambon, Ecole Centrale de Lyon.
67.Convection in the Leidenfrost effect
Ilya Lisenker and Jean Hertzberg, University
of Colorado, Boulder.
68. Small-scale vortex in turbulence with
production and dissipation
James Brasseur, Penn State University;
Lian-Ping Wang, University of Delaware.
69.From vortex sheet to hairpin vortex in turbulent shear flow
James Brasseur, Penn State University;
Winston Lin, Honeywell.
20
Gallery
of
Fluid Motion – Videos
– Promenade Ballroom (APS/DFD Exhibit Hall)
Videos
1.Simulation of flow patterns generated
by the hydromedusa Aequorea Victoria
using an arbitrary Lagrangian–Eulerian
formulation
Mehmet Sahin, Istanbul Technical University;
Kamran Mohseni, University of Colorado at
Boulder.
10.Thermal-diffusive instability of a
spherically expanding H2-N2O flame
Sally Bane and Stephanie Coronel, California
Institute of Technology; Remy Mevel,
ICARE, Orleans, France; Joseph Shepherd,
California Institute of Technology.
11.Generation of single, monodisperse
compound droplets
James Black and G. Paul Neitzel, Georgia
2.Falling flexible sheets
Silas Alben, Georgia Institute of Technology.
3.The hungry fly
Manu Prakash, Harvard Society of Fellows;
Miles Steele, Deerfield Academy.
12.Attractive internal wave patterns
Jeroen Hazewinkel and L. R. M. Maas, NIOZ,
the Netherlands; S. B. Dalziel, University of
Cambridge.
4.A nanoaquarium for in situ electron
microscopy of fluids
Joseph M. Grogan and Haim H. Bau, University of Pennsylvania.
13.Oscillatory flows induced by swimming
microorganisms in 2D
Jeffrey S. Guasto, Karl A. Johnson and
Jerry P. Gollub, Haverford College.
5.The birth, life and death of convective
plumes generated by a green laser in an
isothermal fluid
Albert Sharifulin and Anatoly Poludnitsin,
Perm State Technical University, Russia.
14.Avalanche of particles in evaporating drops
Alvaro G. Marin, Hanneke Gelderblom, Jacco
Snoeijer and Detlef Lohse, University of
Twente.
6.Computational prediction of large transom
stern waves
Richard Walters, Miguel Valenciano, Randall
Hand, Paul Adams and Mike Stephens,
ERDC DACC; Thomas T. O’Shea, Kristy L. C.
Bealle, Donald C. Wyatt, Kyle A. Brucker and
Douglas G. Dommermuth, SAIC.
15.Building water bridges in air
Alvaro G. Marin and Detlef Lohse, University
of Twente.
16.High speed impact of a solid surface on a
liquid jet
Mohamed FARHAT, Marc Tinguely and
Mathieu Rouvinez, EPFL, Switzerland.
7.Primary atomization of a liquid jet in
crossflow
Sandeep Rana and Marcus Herrmann,
Arizona State University.
17.Wake interaction of two freely falling
bodies
Nicolas Brosse, Sebastien Cazin and Patricia
Ern, Institut de Mecanique des Fluides de
Toulouse, France.
8.Hexane/air combustion
Phillipp A. Boettcher, Brian Ventura and
Joseph E. Shepherd, California Institute of
Technology.
18.Ultrafast underwater suction traps
P. Marmottant, O. Vincent, C. Quilliet and
M. Joyeux, CNRS and University of Grenoble;
S. Poppinga, C. Weisskopf, T. Masselter and
T. Speck, Plant Biomechanics Group Freiburg,
Botanic Garden of the University of Freiburg.
9.Puffing premixed hexane/air flame
Phillipp A. Boettcher, Brian Ventura and
Joseph E. Shepherd, California Institute of
Technology.
21
Gallery of Fluid Motion – Videos (continued) – Promenade Ballroom (APS/DFD Exhibit Hall)
19.Helical vortices in swirling flow
Radu Cazan and Cyrus K. Aidun, Georgia
29.Oil filaments produced by an impeller in a
water stirred tank
Rene Sanjuan-Galindo, Enrique Soto, Gabriel
Ascanio and Roberto Zenit, Universidad
Nacional Autonoma de Mexico.
20.Vertically vibrated gas-liquid interfaces:
Surface deformation and breakup
T. J. O’Hern, E. F. Romero, C. F. Brooks,
B. Shelden, J. R. Torczynski, A. M. Kraynik,
L. A. Romero and G. L. Benavides, Sandia
National Laboratories.
30.A wave for atomization
Jérôme Hoepffner, Université Pierre et Marie
Curie, France.
31.Formation of liquid-core hydrogel capsules
Bremond, Santanach-Carreras and Bibette,
ESPCI ParisTech/LCMD.
21.Merger of vorticity holes
Oscar Velasco Fuentes, CICESE, Mexico.
22.Linked vortices with chaotic streamlines
Oscar Velasco Fuentes, CICESE, Mexico.
23.Pattern formation in Landau-Levich coating by suspensions
Justin C.T. Kao and A. E. Hosoi, MIT.
32.DPIV measurements of Olympic skeleton
athletes
Chia Min Leong, YaeEun Moon, Vicki Wu
and Timothy Wei, Rensselaer Polytechnic
Institute; Steve Peters, USA Bobsled &
Skeleton Federation.
24.Splash control using geometric targets
Gabriel Juarez, Yibin Zhang, Thomai
Gastopoulos and Paulo E. Arratia, University
of Pennsylvania.
33.Fiber optic micro-bubble generator
Reinher Pimentel-Domínguez, Juan
Hernández-Cordero and Roberto ZenitCamacho, IIM-UNAM.
25.Behaviors of Caenorhabditis elegans in
AC electric fields
Han-Sheng Chuang, David Raizen, Nooreen
Dabbish, Annesia Lamb and Haim Bau,
University of Pennsylvania.
34.Bow wave and spray dynamics by a wedge
Zhaoyuan Wang, Jianming Yang and
Frederick Stern, University of Iowa.
35.Far from equilibrium boiling
Jose Graña Otero and Ignacio Parra Fabián,
Universidad Politécnica de Madrid.
26.Water droplet on superhydrophobic
carbon nanotubes array
Adrianus Indrat Aria and Morteza Gharib,
Caltech.
36.Influence of liquid viscosity on the
dynamics of droplets impinging on superhydrophobic surfaces
John T. Pearson, Daniel Maynes and Brent
W. Webb, Brigham Young University.
27.Turbulence in a boundary layer
Philipp Schlatter, Mattias Chevalier and Dan
Henningson, KTH Mechanics, Stockholm,
Sweden.
37.Acoustically-bound bubble crystals
P. Marmottant, D. Rabaud and P. Thibault,
CNRS and University of Grenoble.
28.Trapping, focusing, and sorting of micro
particles through bubble streaming
Cheng Wang, Shreyas Jalikop and Sascha
Hilgenfeldt, University of Illinois at Urbana–
Champaign.
38.Heating of acoustically levitated droplet
with nanosilica particles leading to ring or
bowl shaped structure
Abhishek Saha, Erick Tijerino and
Ranganathan Kumar, University of Central
Florida; Saptarshi Basu, Indian Institute of
Science.
22
39.Dynamics of surfactants spreading on gel
layers: Cracking and pattern formation
Paul Luckham and Omar Matar, Imperial
College, London, UK.
48.Donut-shaped bubbles formed by
raindrops
Marc Buckley, Florian Bernard and Fabrice
Veron, University of Delaware.
40.Wetting splashing
Peichun Amy Tsai, Maurice H. W. Hendrix,
Remko M. Dijkstra and Detlef Lohse,
University of Twente.
49.Effect of rotation on the dynamics of a
droplet
Eric Poon, Shaoping Quan, Jing Lou, Matteo
Giacobello and Andrew Ooi, University of
Melbourne.
41.Tip streaming of a drop in simple shear
flow in the presence of surfactants
Stefan Adami, Xiangyu Hu and N. A. Adams,
TU Munich.
50.PIV analysis of Ludwig Prandtl’s historic
flow visualization films
Christian Willert and Juergen Kompenhans,
German Aerospace Center (DLR).
42.Hydrodynamics of evaporating sessile
drop of capillary size
Lev Barash, Landau Institute for Theoretical
Physics.
51.To be, or not to be… instabilities on a
liquid jet penetrated into a flowing bath
Kaoru Hattori and Ichiro Ueno, Tokyo University of Science.
43.Surfactant-assisted spreading of an oil-inwater emulsion on the free surface of a
liquid layer
Matthieu Roché, Zhenzhen Li and Ian M.
Griffiths, Princeton University; Arnaud SaintJalmes, Institut de Physique de Rennes,
France; Howard A. Stone, Princeton
University.
52.Vapor bubbles ‘SUMO’
Ryota Hosoya and Ichiro Ueno, Tokyo
University of Science.
53.Oblique-shock reflection on a turbulent
boundary layer
Emile Touber, Imperial College, London, UK;
Neil D. Sandham, University of Southampton,
UK.
44.Miscible interface vs. immiscible interface
in Faraday instability
William Batson, University of Florida; Farzam
Zoueshtiagh, IEMN-CNRS; Sakir Narayanan,
TREFLE-CNRS; Ranga Narayanan,
University of Florida.
54.Evaporation induces convection patterns
in a liquid layer
Fabien Chauvet, Sam Dehaeck and Pierre
Colinet, Université Libre de Bruxelles.
45.Visualization of a distributary flow area
subject to flash flooding in Arizona
J. Rafael Pacheco, Arizona State University;
Bing Zhao and Richard Waskowsky, Flood
Control District of Maricopa County.
55.Vapour cloud dynamics induced by
evaporation
Sam Dehaeck and Pierre Colinet, Université
Libre de Bruxelles.
56.Megahertz schlieren imaging of shock
structure and sound waves in underexpanded, impinging jets
Christian Willert, German Aerospace Center
(DLR); Daniel Mitchell and Julio Soria,
Monash University.
46.Preferential condensation of water
droplets using hybrid hydrophobichydrophilic surfaces
Kripa Varanasi, Adam Paxson, Rajeev
Dhiman and Tao Deng, MIT.
47.Deceleration driven wetting transition
during “gentle” drop deposition
Hyuk-Min Kwon, Adam Paxson, Kripa
Varanasi and Neelesh Patankar, MIT.
23
57.Length matters, periodically: The Movie
(RT-rated)
Marie-Charlotte Renoult, Universite Paris;
Sameh Ferjani and Charles Rosenblatt,
Case Western Reserve Univ., Pierre Carles,
Universite Paris.
67.Hydraulic jump in a non-wetting film
deposited inside of a capillary
Alexandru Herescu and Jeffrey S. Allen,
Michigan Tech University.
68.Simultaneous force and DPIV
measurements on scuba diving fins
Lori Halvorson, Erica Sherman, Chia
MinLeong and Timothy Wei, Rensselaer
Polytechnic Institute.
58.Instability of a jet in crossflow at a low
velocity ratio
Miloš Ilak, Philipp Schlatter, Shervin Bagheri
and Dan Henningson, KTH Mechanics,
Stockholm.
69.Air-oil interaction in modified hele-shaw
cell
Said Shakerin and Robyn Nariyoshi,
University of the Pacific.
59.Particle motion induced by capillary force
Zach VanDerwerker, Rod La Foy, Sunny Jung
and Pavlos Vlachos, Virginia Tech.
70.Formation and displacement of bubbles in
a packed bed
E. Soto, UNAM, A. Aguilar-Corona, UMSNH
and R. Zenit, UNAM, Mexico.
60.A pitching foil with a flexible flap creates
an orderly jet
Sachin Y. Shinde and Jaywant H. Arakeri,
Indian Institute of Science, Bangalore.
71.Frozen splash
Terwagne Denis, Caps Hervé, Vandewalle
Nicolas, Dorbolo Stéphane and Delon Giles,
University of Liège.
61.Splash control using geometric targets
G. Juarez, Y. Zhang, T. Gastopoulos and P. E.
Arratia, University of Pennsylvania.
62.How capillary rafts sink
S. Protiere, CNRS/IJLRA-Universite Paris;
M. Abkarian, CNRS/LCVN-Universite
Montpellier; J. Aristoff and H. Stone,
Princeton University.
72.A fountain of droplets
Terwagne Denis, Vandewalle Nicolas and
Dorbolo Stéphane, University of Liège.
73.Whirl oscillations
Terwagne Denis, Vandewalle Nicolas and
Dorbolo Stéphane, University of Liège.
63.Electrokinetic concentration and
separation of particles in a microfluidic
reservoir
Junjie Zhu and Xiangchun Xuan, Clemson
University.
74.Control of circular jet
Trushar B. Gohil, Arun K. Saha and
K. Muralidhar, Indian Instiute of Technology
Kanpur.
64.Continuous electrokinetic sorting of
particles in a serpentine microchannel
Cameron Canter, Junjie Zhu, Tzuen Rong
Tzeng and Xiangchun Xuan, Clemson
University.
75.The Tibetan singing bowl
Denis Terwagne, University of Liège,
Belgium; John W.M. Bush, Massachusetts
65.Electrothermal flow circulations in
insulator-based dielectrophoresis
Junjie Zhu and Xiangchun Xuan, Clemson
University.
76.Remote controlled motion of supported
droplets
Xavier Noblin, Richard Kofman and Franck
Celestini, CNRS-Universite de Nice Sophia
Antipolis, France.
66.Bubbles in bubbly media
Sowmitra Singh, Georges Chanine and
Arvind Jayaprakash, Dynaflow, Inc..
24
77.Locomotion of C elegans in structured
environments: Experiments and
simulations
Trushant Majmudar, Eric Keaveny, Mike
Shelley and Jun Zhang, Courant Institute,
New York University.
87.Unstable leidenfrost drops on a
roughened surface
Jonathan Boreyko and Chuan-Hua Chen,
Duke University.
88.Life and death of a weakly viscoelastic jet
Vivek Sharma, James Serdy and Gareth H.
McKinley, Massachusetts Institute of
Technology.
78.Stress buildup during root growth
William Shinevar, Trushant Majmudar, Mike
Shelley and Jun Zhang, Courant Institute,
New York University.
79.Wet-dog shake
Andrew Dickerson, Zachary Mills, Young-Hui
Chang, David Hu and Georgia Tech.
89.An integrated study of vortex formation of
freely flying insects
Hui Wan, Yan Ren, Zongxian Liang, Zach
Gaston and Haibo Dong, Wright State
University.
80.Ants as fluids
Micah Streiff, Nathan Mlot, Sho Shinotsuka,
Alex Alexeev and David Hu, Georgia Tech.
90.Jetting of viscous suspensions
Gustaf Mårtensson and William Holm,
Micronic Mydata AB.
81.Unsteady dynamics of an immiscible jet
Roderick R. La Foy and Pavlos Vlachos,
Virginia Tech.
91.Impact of drops on liquid surfaces
Ranganthan Kumar and Hyoung J. Cho, University of Central Florida.
82.Ferrofluid interface behavior in the
presence of a magnetic field
Roderick R. La Foy and Pavlos Vlachos,
Virginia Tech.
92.Surface tension propulsion of fungal
spores
Xavier Noblin, CNRS-Universite de Nice
Sophia Antipolis, France; Sylvia Yang,
University of Washington; Jacques Dumais,
Harvard University.
83.Experimental investigation of shock wave
surfing
N. J. Parziale, California Institute of Technology; S. J. Laurence, DLR.
93.Thermally induced motion of drops on
liquid surfaces
Ranganathan Kumar and Hyoung J. Cho,
University of Central Florida.
84.Droplet breakup in turbulent flow
Luca Biferale, University of Tor Vergata, Italy;
Prasad Perlekar, Eindhoven Univesity of
Technology, The Netherlands; Mauro
Sbragaglia, University of Tor Vergata, Italy;
Federico Toschi, Eindhoven Univesity of
Technology, The Netherlands.
94.Feeding currents generated by upsidedown jellyfish
Megan Gyoerkoe, Terry Rodriguez and Laura
Miller, University of North Carolina at Chapel
Hill.
85.Numerical simulation of blood with fluidstructure interactions using the latticeBoltzmann method
Jonathan R. Clausen, Brian M. Yun and
Cyrus K. Aidun, Georgia Tech.
95.Exploding Taylor cones
John C. Creasey, Brad S. Hamlin, William D.
Ristenpart, University of California at Davis.
96.High-frame-rate oil film interferometry
J. White, R. Westphal and J. Chen, California
Polytechnic State University.
86.UFO: Thermal actuation of a binary liquid
droplet
Yuejun Zhao and Chuan-Hua Chen, Duke
University.
25
97.Evolution of hairpin vortices in turbulent
flow
Praveen Kumar and Ronald Adrian, Arizona
State University.
103.Flagellar interactions in viscous fluid
P. Janssen and M. Graham, University of
Wisconsin–Madison.
104.Paramagnetic leidenfrost drops
K. Piroird, B. Darbois-Texier, C. Clanet and
D. Quéré, Ecole Polytechnique & PMMH,
ESPCI, Paris.
98.Dynamics of ferrofluidic drops impacting
superhydrophobic surfaces
Daniel Bolleddula, Heather Dillon, Alberto
Aliseda, Prasad Bhosale and John Berg,
University of Washington.
105.Vortex rings from Sphagnum moss
capsules
Dwight Whitaker and Joan Edwards, Williams
College; Emily Chang, Pomona College;
Clara Hard and Nora Mitchell, Williams
College.
99.Droplet coalescence and breakup:
Numerical simulations using moving
mesh interface tracking with dynamics
mesh adaptation
Shaoping Quan and Jing Lou, Institute of
High Performance Computing, Singapore.
106.Detonation waves initiation via molecular
dynamics simulations of reactive hard
disks
Nick Sirmas and Matei Radulescu, University
of Ottawa.
100.Probing particle transport in closedstreamline flows with microfluidic devices
Shahab Shojaei-Zadeh, Rutgers University;
Jeffrey F. Morris, City College of CUNY.
107.Life of a free soap film
R. Krechetnikov and H. C. Mayer, UCSB.
101.Rapid deceleration driven wetting
transition between hydrophobic states on
rough surfaces
Hyuk-Min Kwon, Adam T. Paxson and Kripa
L. Varanasi, MIT; Neelesh A. Patankar,
Northwestern University.
108.Patterns formation in drying drops of
blood
D. Brutin, B. Sobac, B. Loquet, Université de
Provence, France; J. Sampol, Université de
la Méditerannée, France.
102.Fast full free-surface deformation
measurement
P. J. Cobelli, PMMH–ESPCI; G. Lagubeau,
LAUM–Université du Maine; M. Chekroun,
M., Institut Langevin– ESPCI; A. Przadka,
PMMH–ESPCI; A. Maurel, Institut Langevin–
ESPCI; V. Pagneux, LAUM–Université du
Maine; P. Petitjeans, PMMH–ESPCI.
26
Exhibits
Exhibit Hours
Cambridge University Press
32 Avenue of the Americas
New York, NY 10013
Tel: 212-924-3900
Fax: 212-691-3239
Web: www.cambridge.org/us
Email: [email protected]
Sunday, 07:00 – 17:00
Monday, 07:30 – 17:00
Tuesday, 07:30 – 11:00
Promenade Ballroom
The Exhibit Hall showcases products from
industry and government sponsors.
Cambridge’s publishing in books and journals combines state-of-the-art content with the highest standards of scholarship, writing and production. Visit
our stand to browse new titles, available at 20%
discount, and to pick up sample issues of our journals. Visit our website to see everything we do:
www.cambridge.org/us.
Air Force Office of Scientific Research
875 N. Randolph Ave., Suite 325
Arlington, VA 22031
Tel: 703-696-7310
Fax: 703-696-5233
Web: www.afosr.af.mil
Dantec Dynamics Inc.
750 Blue Point Road
Holtsville, NY 11742
Tel: 631-654-1290
Fax: 631-654-1293
Web: www.dantecdynamics.com
As a vital directorate of the Air Force Research
Laboratory, the Air Force Office of Scientific Research supports Air Force goals of control and
maximum utilization of air, space and cyberspace
by investing in basic research efforts of Air Force
relevant scientific areas.
As CFD models and methods continue to improve
thanks to both innovative algorithms and computer
power, the need for accurate and advanced measurement techniques for validation and boundary
conditions is critical. To this end, Dantec Dynamics
offers the experimental and computational fluids
researchers a full line of measurement solutions
including; CTA systems for high frequency turbulence studies, a wide variety of Laser Doppler
systems, PIV systems including time-resolved volumetric, LIF for combustion species, multiphase
flows, and more. Please visit Dantec Dynamics at
booth #1 to discuss solutions to your research
applications.
American Physical Society
One Physics Ellipse
College Park, MD 20740-3844
Tel: 301-209-3283
Fax: 301-209-0844
Web: www.aps.org
The American Physical Society is the publisher of
the world's most prestigious and widely-read physics research publications: Physical Review, Physical Review Letters, Reviews of Modern Physics,
PR-Special Topics-Accelerators and Beams, PRSpecial Topics-Physics Education Research, PR
Focus, and Physics. Physics is a free online publication that features expert commentaries on selected papers in Physical Review and Physical Review Letters.
27
Exhibits (continued) – Exhibit Hall/Promenade Ballroom
Interactive Flow Studies
PO Box 6936
Rochester MN 55903-6936
Tel: 612-860-9702
Fax: 507-289-1587
Web: www.interactiveflows.com
IOP Publishing
Dirac House
Temple Back
Bristol
BS1 6BE
UK
Tel: +44 (0)117 929 7481
Fax: +44 (0)117 929 4318
Web: http://iopscience.iop.org
E-mail: [email protected]
Interactive Flow Studies, started in 2005, is a US
based business serving customers Worldwide. We
specialize in developing products as part of the solution to your educational needs in laboratories or
classrooms. Easy to use and interactive FLOWEX
software is specifically developed for education for
the purpose of flow visualization and analysis with
integrated educational particle image velocimetry
(PIV), computational fluid dynamics (CFD) and
computer aided design (CAD). The educational
PIV suite includes both hardware and software for
fluid science and engineering education at undergraduate and graduate school levels. FLOWCOACH and ePIV modules allow educators and
students to obtain full understanding of the fluid
mechanics theory with experimental visualization.
Students can simulate the flow using the educational CFD module integrated with PIV in FLOWEX
software. The students can use different flow model inserts or design their own inserts. Inserts can
be made by machining, molding or rapid prototyping. Interactive Flow Studies also offers rapid prototyping solutions as an integrated part of the Design-Build-Test-Analyze educational process. This
is a great way to teach students the complete design process!
As the publishing arm of the Institute of Physics,
IOP Publishing is a not-for-profit learned society
publisher with a reputation for quality and high
standards. It is one of the world’s leading publishers
in physics and related subjects. Our journals are
international in authorship and in readership and
require articles to be of high scientific quality and
originality. Stop by our booth (#8) for sample copies
of Fluid Dynamics Research, Nonlinearity and
other high quality IOP Publications.
LaVision, Inc.
211 W. Michigan Ave., Suite 100
Ypsilanti, MI 48197
Tel: 734-485-0913
Fax: 240-465-4306
Web: www.lavisioninc.com
LaVision Inc. provides integrated (laser) imaging
systems to the scientific and industrial and educational markets. The LaVision team has extensive
professional experience in optical techniques such
as 2-D, stereo, and tomographic particle image
velocimetry (PIV), gaseous and liquid laser induced
fluorescence (LIF), shadography for multi-phase
flows, digital image correlation (DIC) for deformation/strain, high-speed and ultra-high-speed imaging, and intensified camera systems. In addition,
we have unparalleled experience in advanced
diagnostics techniques such as Raman and Rayleigh scattering and spectroscopy.
The technology development is based upon work
partly funded by the National Science Foundation.
• INTERACTIVE experiments to study fluid flow
phenomena for preparing students for careers in
design, engineering and science.
• FLOW visualization and analysis with Educational Particle Image Velocimetry, Computer Aided Design & Computatioinal Fluid Dynamics.
• STUDY visualization and analysis with Educational Image Velocitmetry, Computer Aided Design & Computational Fluid Dynamics.
LaVision is customer focused. We offer high quality
products that are innovative, user-friendly, reliable
and application specific. LaVision guarantees system performance and customer satisfaction.
28
Measurement Science Enterprise, Inc.
123 W. Bellevue Dr., Suite 1
Pasadena, CA 91105
Tel: 626-577-0566
Fax: 626-577-0565
Web: www.MeasurementSci.com
Quantel USA
601 Haggerty Lane
Bozeman, MT 59715
Tel: 406-586-0131
Fax: 406-586-2924
Web: www.quantelusa.com
MSE, Inc. manufactures miniature laser sensors
for fluid, surface, and particle velocity measure
ments. Our products include the miniLDV (the most
compact LDV in the industry for measuring the
speed & direction of fluid flow and surfaces), the
microS (the first micro-optical shear stress sensor
capable for wall shear measurement), the microV
(the smallest time-of-flight velocity sensor), and the
miniPCS (a Mie-scattering particle sizer and counter with built-in acquisition). In addition, we offer
the flowLab table-top water tunnel for demon
strating classical fluid flows visualization and measurement. Our products are in use in a variety of
academic, research, and industrial facilities. Please
stop by our booth for a live demonstration of our
sensors.
Quantel is a world leader in the design and manufacturing of fiber-lasers, diode pumped and lamp
pumped solid-state lasers, high power laser diodes,
intense light therapy and ultra-sound diagnostic
products. Solutions include industrial, scientific,
ophthalmologic, dermatologic, military and aerospace applications. Quantel also offers optical
laser damage testing services. Contact sales@
quantelusa.com
Springer
233 Spring St.
New York, NY 10013
Tel: 212-460-1600
Fax: 212-272-1832
Web: www.springer.com
Physics of Fluids
Published by the American Institute of Physics
Chemical Engineering Department
University of California
Santa Barbara, CA 93106
Tel: 805-893-3200
Fax: 805-893-5458
Web: pof.aip.org
Springer is one of the leading innovative STM publishers in eProducts. Stop by our booth to browse
books and journals online and try out one of our
eBook readers. Springer representatives will be on
hand to explain and sell MyCopy books, softcover
editions at a special conference price.
Physics of Fluids is published by the American
Institute of Physics (journals.aip.org), a not-forprofit publisher. This preeminent journal is devoted
to the publication of original theoretical, computational, and experimental contributions to the dynamics of gases, liquids, and complex or multiphase fluids. The journal’s homepage: pof.aip.org,
features highlights of the ground-breaking work
published in the Journal. Articles reach subscribers
from over 50 countries.
Please stop by the Physics of Fluids booth to learn
about exciting changes for the journal and to pick
up your free copy of The Gallery of Fluid Motion!
View winning video entries at The Gallery of Fluid
Motion website: pof.aip.org/gallery_of_fluid_motion.
29
Taylor & Francis
4 Park Square, Milton Park
Abingdon, Oxon
OX14 4RN, UK
Tel: +44 207 017 7473
Fax: +44 207 017 6336
Web: www.tandf.co.uk/journals
TSI Incorporated
500 Cardigan Rd.
Shoreview, MN 55126
Tel: 651-490-2811
Fax: 651-490-3824
Web: www.tsi.com
The Fluid Mechanics Group of TSI is a worldrenowned supplier of laser-based instrumentations
for Fluid Mechanics research. Product information
on a wide range of products, including Particle
Image Velocimetry, Planar Laser-Induced Fluo
rescence, Laser Doppler Velocimetry, Phase
Doppler Particle Analyzer and Hot Wire Anemo
metry, will be available at the conference. In addition, the demonstration of our revolutionary Volumetric 3-Component Velocimetry (V3V™) System,
which is the first commercial system to provide 3component velocity measurements in a TRULY
volumetric region of the flow, is going to be in our
booth. Please come visit us to learn more.
Building on two centuries’ experience, Taylor &
Francis has grown rapidly over the last two decades
to become a leading international academic publisher. Operating from a network of 20 global offices,
including New York, Philadelphia, Oxford, Melbourne, Stockholm, Beijing, New Delhi, Johannesburg, Singapore and Tokyo, the Taylor & Francis
Group publishes more than 1,500 journals and
around 1,800 new books each year, with a books
backlist in excess of 20,000 specialist titles. We are
providers of quality information and knowledge that
enable our customers to perform their jobs efficiently, continue their education, and help contribute to the advancement of their chosen markets.
30
Session Key
The contributed papers have been assigned a unique code consisting of two letters and numbers as follows:
the FIRST letter indicates the day and time of the session; the SECOND letter indicates the sub-sessions
in that time slot and a corresponding room number. Room assignments are also indicated in the Program
Summary and the Schedule of Papers. The number after the period indicates the order in which the paper
is to be presented in the session. For example, AK.06 will be the sixth contributed talk presented in session
AK which is held in room 201B in the Convention Center on Sunday from 08:00 to 10:10.
Ax
B1
Cx
Dx
Ex
F1 (Reception)
Gx
Hx
Jx
Kx
L1 (Poster Session)
Lx
Mx
Nx
Px
Qx
Rx
Sunday
Sunday
Sunday
Sunday
Sunday
Sunday
Monday
Monday
Monday
Monday
Monday
Monday
Tuesday
Tuesday
Tuesday
Tuesday
Tuesday
08:00 – 10:10
10:15 – 11:25
13:00 – 15:10
15:30 – 16:05
16:10 – 18:20
19:00 – 22:00
08:00 – 10:10
10:30 – 12:40
14:00 – 14:35
14:40 – 15:15
15:15 – 17:00
15:35 – 17:45
08:00 – 10:10
10:30 – 11:05
11:10 – 11:30
12:50 – 15:00
15:05 – 16:50
Room assignments at the Convention Center:
xA
xB
xC
xD
xE
xF
xG
xH
xJ
xK
xL
xM
xN
xP
xQ
xR
xS
xT
LBCC – 101A
LBCC – 101B
LBCC – 102A
LBCC – 102B
LBCC – 102C
LBCC – 103A
LBCC – 103B
LBCC – 103C
LBCC – 201A
LBCC – 201B
LBCC – 202A
LBCC – 202B
LBCC – 202C
LBCC – 203A
LBCC – 203B
LBCC – 203C
LBCC – Grand Ballroom A
LBCC – Grand Ballroom B
Room assignments at the Hyatt Regency:
xU
xV
xW
xX
xY
xZ
Hyatt – Regency A
Hyatt – Regency B
Hyatt – Regency C
Hyatt – Regency D
Hyatt – Regency E
Hyatt – Regency F
31
Program Summary
Sunday, 21 November
07:00 – 08:00 Welcome Breakfast in Promenade Ballroom
08:00 – 10:10 22 Simultaneous Sessions
AA Turbulent Mixing I................................................................ LBCC – 101A
AB Turbulent Boundary Layers I............................................... LBCC – 101B
AC Turbulence Modeling I......................................................... LBCC – 102A
AD CFD: Algorithms I................................................................ LBCC – 102B
AE Instability: Boundary Layers I.............................................. LBCC – 102C
AF Porous Media I: CO2 Sequestration.................................... LBCC – 103A
AG GFD: Oceanography I......................................................... LBCC – 103B
AH Convection and Buoyancy Driven Flows I........................... LBCC – 103C
AJ Flow Control I...................................................................... LBCC – 201A
AK Free Surface Flows: Spreading and Wetting....................... LBCC – 201B
AL Biofluids: Physiological General.......................................... LBCC – 202A
AM Microfluids: General I: Electrokinetic................................... LBCC – 202B
AN Vortex Dynamics and Vortex Flows I................................... LBCC – 202C
AP Nanofluids I.......................................................................... LBCC – 203A
AQ Mini-Symposium: Biological Perspectives on Locomotion.. LBCC – 203B
AR Drops I................................................................................. LBCC – 203C
AU Multiphase Flows I............................................................... Hyatt – Regency A
AV Particle Laden Flows I......................................................... Hyatt – Regency B
AW Instability: Richtmyer-Meshkov/Rayleigh-Taylor I................ Hyatt – Regency C
AX Aerodynamics I: Flapping Wings......................................... Hyatt – Regency D
AY Instability: Interfacial and Thin Film I................................... Hyatt – Regency E
AZ Waves I................................................................................ Hyatt – Regency F
10:10 – 10:15 Mini Break
10:15 – 11:25 B1 Awards Presentations....................................................... LBCC – Grand Ballroom
Followed by the Otto Laporte Lecture
11:35 – 13:00 Lunch (on your own)
11:45 – 12:45 NSF CAREER and ONR & AFOSR Young Investigator Workshop (ticketed event),
see page 8 for details
CA Turbulent Mixing II............................................................... LBCC – 101A
CB Turbulent Boundary Layers II.............................................. LBCC – 101B
CC Turbulence Modeling II........................................................ LBCC – 102A
CD CFD: Algorithms II............................................................... LBCC – 102B
CE Instability: Boundary Layers II............................................. LBCC – 102C
CF Porous Media II................................................................... LBCC – 103A
CG Mini-Symposium: Computational Strategies for the............ LBCC – 103B
Simulation of Nonlinear Waves and Turbulence in
Environmental Flows
CH Convection and Buoyancy Driven Flows II.......................... LBCC – 103C
CJ Flow Control II..................................................................... LBCC – 201A
CK Free Surface Flows: Macro-Scale Phenomena................... LBCC – 201B
CL Biofluids: Physiological Feeding.......................................... LBCC – 202A
CM Microfluids: General II.......................................................... LBCC – 202B
32
Program Summary
13:00 - 15:10 24 Simultaneous Sessions (continued)
CN Vortex Dynamics and Vortex Flows II.................................. LBCC – 202C
CP Nanofluids II......................................................................... LBCC – 203A
CQ Biolocomotion I: Micro-swimming I...................................... LBCC – 203B
CR Drops II................................................................................ LBCC – 203C
CS Drops III: Evaporation.......................................................... LBCC – Grand Ballroom A
CT Biolocomotion II: Slithering, Crawling and........................... LBCC – Grand Ballroom B
Undulatory Swimming
CU Multiphase Flows II.............................................................. Hyatt – Regency A
CV Particle Laden Flows II........................................................ Hyatt – Regency B
CW Instability: Richtmyer-Meshkov/Rayleigh-Taylor II............... Hyatt – Regency C
CX Aerodynamics II................................................................... Hyatt – Regency D
CY Instability: Interfacial and Thin Film II.................................. Hyatt – Regency E
CZ Waves II............................................................................... Hyatt – Regency F
15:10 – 15:30 Refreshment Break
15:30 – 16:05 Invited Lectures
DS Particle Laden Viscous Fluids and the Gulf of..................... LBCC – Grand Ballroom A
Mexico Oil Spill
DT Fluid Simulation in the Movies: Navier and Stokes............. LBCC – Grand Ballroom B
Must be Circulating in Their Graves
16:05 – 16:10 Mini Break
EA Mini-Symposium: Optical Effects of Turbulence.................. LBCC – 101A
EB Turbulent Boundary Layers III............................................. LBCC – 101B
EC Turbulence Modeling III....................................................... LBCC – 102A
ED Turbulence Simulations I..................................................... LBCC – 102B
EE Instability and Turbulence: Couette and Channel Flow....... LBCC – 102C
EF Porous Media III.................................................................. LBCC – 103A
EG GFD: Oceanography II........................................................ LBCC – 103B
EH Convection and Buoyancy Driven Flows III......................... LBCC – 103C
EJ Flow Control III.................................................................... LBCC – 201A
EK Acoustics I: Shear Flows..................................................... LBCC – 201B
EL Biofluids: Physiological Respiratory..................................... LBCC – 202A
EM Microfluids: General III: Microchannels............................... LBCC – 202B
EN Vortex Flows: Vortex Rings.................................................. LBCC – 202C
EP Nanofluids III........................................................................ LBCC – 203A
EQ Biolocomotion III: Micro-swimming II................................... LBCC – 203B
ER Drops IV............................................................................... LBCC – 203C
ES Drops V................................................................................ LBCC – Grand Ballroom A
ET Biolocomotion IV: Morphology of Flying and Swimming...... LBCC – Grand Ballroom B
EU Multiphase Flows III............................................................. Hyatt – Regency A
EV Particle Laden Flows: Simulations I..................................... Hyatt – Regency B
EW Instability: Richtmyer-Meshkov/Rayleigh-Taylor III.............. Hyatt – Regency C
EX Aerodynamics III.................................................................. Hyatt – Regency D
EY Instability: Interfacial and Thin Film III................................. Hyatt – Regency E
EZ Couette and Swirling Flows................................................. Hyatt – Regency F
19:00 – 22:00 F1 Reception........................................................................... Aquarium of the Pacific
33
Program Summary
Monday, 22 November
GA Turbulence Theory I............................................................. LBCC – 101A
GB Turbulent Boundary Layers IV............................................. LBCC – 101B
GC General Fluid Dynamics I.................................................... LBCC – 102A
GD CFD I: Immersed Boundary and Interface Methods............ LBCC – 102B
GE Instability: Jets and Wakes I................................................ LBCC – 102C
GF Separated Flows I................................................................ LBCC – 103A
GG GFD: Atmospheric Flows I................................................... LBCC – 103B
GH Convection and Buoyancy Driven Flows IV......................... LBCC – 103C
GJ Flow Control IV.................................................................... LBCC – 201A
GK Granular Flows I.................................................................. LBCC – 201B
GL Biofluids: Physiological Circulatory I.................................... LBCC – 202A
GM Microfluids: General IV: Bubbles, Drops and Particles........ LBCC – 202B
GN Vortex Flows: Inviscid.......................................................... LBCC – 202C
GP Microfluids: Fluidic Devices I............................................... LBCC – 203A
GQ Bubbles I.............................................................................. LBCC – 203B
GR Drops VI............................................................................... LBCC – 203C
GS Drops VII.............................................................................. LBCC – Grand Ballroom A
GT Biolocomotion V: Flapping and Flying I............................... LBCC – Grand Ballroom B
GU Multiphase Flows IV............................................................ Hyatt – Regency A
GV Particle Laden Flows: Simulations II.................................... Hyatt – Regency B
GW Surface Tension I................................................................. Hyatt – Regency C
GX Compressible Flows I.......................................................... Hyatt – Regency D
GY Instability: Interfacial and Thin Film IV................................. Hyatt – Regency E
GZ Instability: General I............................................................. Hyatt – Regency F
HA Turbulence Theory II............................................................ LBCC – 101A
HB Turbulent Boundary Layers V.............................................. LBCC – 101B
HC General Fluid Dynamics II................................................... LBCC – 102A
HD CFD II: Immersed Boundary Methods and.......................... LBCC – 102B
Fluid-Structure Interaction
HE Instability: Jets and Wakes II............................................... LBCC – 102C
HF Separated Flows II............................................................... LBCC – 103A
HG GFD: Atmospheric Flows II.................................................. LBCC – 103B
HH Convection and Buoyancy Driven Flows V.......................... LBCC – 103C
HJ Flow Control V..................................................................... LBCC – 201A
HK Granular Flows II................................................................. LBCC – 201B
HL Biofluids: Physiological Circulatory II................................... LBCC – 202A
HM Microfluids: General V: Particle Manipulation...................... LBCC – 202B
HN Vortex Flows: Vortex-Induced Vibrations and...................... LBCC – 202C
Unsteady Flows
HP Microfluids: Fluidic Devices II.............................................. LBCC – 203A
HQ Bubbles II............................................................................. LBCC – 203B
HR Drops VIII: Impact................................................................ LBCC – 203C
HS Drops IX: Impact.................................................................. LBCC – Grand Ballroom A
HT Biolocomotion VI: Flapping and Flying II............................. LBCC – Grand Ballroom B
HU Multiphase Flows V............................................................. Hyatt – Regency A
HV Reacting Flows I.................................................................. Hyatt – Regency B
34
Program Summary
10:30 – 12:40 24 Simultaneous Sessions (continued)
HW Surface Tension II................................................................ Hyatt – Regency C
HX Compressible Flows II......................................................... Hyatt – Regency D
HY Instability: Interfacial and Thin Film V.................................. Hyatt – Regency E
HZ Instability: General II............................................................ Hyatt – Regency F
12:50 – 13:50 Student Luncheon (ticketed event) See page 7 for details
14:00-14:35
Invited Lectures
JS Dynamics of Electrically Conducting Fluids......................... LBCC – Grand Ballroom A
JT Splashes.............................................................................. LBCC – Grand Ballroom B
14:35 – 14:40 Mini Break
14:40-15:15
Invited Lectures
KS Invited Session: Ocean Circulation and Surface................. LBCC – Grand Ballroom A
Buoyancy Fluxes: Dynamics and Energetics
KT Invited Session: Dynamics of Suspended Colloidal............ LBCC – Grand Ballroom B
Particles Near a Wall: Electrokinetic Effects and Implications
for Particle-based Velocimetry
15:15 – 17:00 L1 Poster Session................................................................... LBCC – Promenade
Ballroom Foyer
LA Turbulent Mixing III.............................................................. LBCC – 101A
LB Turbulent Boundary Layers VI............................................. LBCC – 101B
LC Experimental Techniques I.................................................. LBCC – 102A
LD Turbulence Simulations II.................................................... LBCC – 102B
LE Instability and Turbulence: Shear Layers............................ LBCC – 102C
LF Chaos and Fractals............................................................. LBCC – 103A
LG GFD: Oceanography III....................................................... LBCC – 103B
LH GFD: General I.................................................................... LBCC – 103C
LJ Acoustics II.......................................................................... LBCC – 201A
LK Biofluids: Cellular I............................................................... LBCC – 201B
LL Mini-Symposium: Microhydrodynamics of Lipid.................. LBCC – 202A
Bi-layer Membranes
LM Microfluids: General VI: Magnetic and Electric Fields......... LBCC – 202B
LN Vortex Flows: Bluff Bodies................................................... LBCC – 202C
LP Microfluids: Fluidic Devices III............................................. LBCC – 203A
LQ Biolocomotion VII: Micro-Swimming III................................ LBCC – 203B
LR Bubbles III............................................................................ LBCC – 203C
LS Drops X................................................................................ LBCC – Grand Ballroom A
LT Biolocomotion VIII: Flapping and Flying III.......................... LBCC – Grand Ballroom B
LU Reacting Flows II................................................................. Hyatt – Regency A
LV Reacting Flows III................................................................ Hyatt – Regency B
LW Surface Tension III............................................................... Hyatt – Regency C
LX Aerodynamics IV................................................................. Hyatt – Regency D
LY Viscous Flows...................................................................... Hyatt – Regency E
LZ Instability: General III........................................................... Hyatt – Regency F
35
Program Summary
MA Turbulent Boundary Layers VII: Theory............................... LBCC – 101A
MB Turbulent Boundary Layers VIII........................................... LBCC – 101B
MC Turbulence Simulations III................................................... LBCC – 102A
MD Turbulence Simulations IV................................................... LBCC – 102B
ME General Fluid Dynamics III.................................................. LBCC – 102C
MF Non-Newtonian Flows I....................................................... LBCC – 103A
MG GFD: Atmospheric Flows III................................................. LBCC – 103B
MH GFD: General II................................................................... LBCC – 103C
MJ Acoustics III: Oscillatory Excitations.................................... LBCC – 201A
MK Biofluids: Cellular II.............................................................. LBCC – 201B
ML Biofluids: Physiological Cardiovascular I............................. LBCC – 202A
MM Microfluids: General VII...................................................... LBCC – 202B
MN Quantized Vortices and Vortex Dynamics........................... LBCC – 202C
MP Microfluids: Mixing I............................................................. LBCC – 203A
MQ Biolocomotion IX: Micro-Swimming IV................................. LBCC – 203B
MR Supersonic and Hypersonic Flows I.................................... LBCC – 203C
MS Drops XI............................................................................... LBCC – Grand Ballroom A
MT Biolocomotion X: Macro-Swimming I................................... LBCC – Grand Ballroom B
MU Reacting Flows IV................................................................ Hyatt – Regency A
MV Suspensions I...................................................................... Hyatt – Regency B
MW Experimental Techniques II................................................. Hyatt – Regency C
MX Industrial Applications I........................................................ Hyatt – Regency D
MY Magnetohydrodynamics..................................................... Hyatt – Regency E
MZ Rotating Flows I................................................................... Hyatt – Regency F
NS Turbulence in Strongly Stratified Flows............................... LBCC – Grand Ballroom A
NT Wetting, Spreading and Capillary Adhesion:....................... LBCC – Grand Ballroom B
Putting Shape-instability to Purpose
11:05 – 11:10 Mini Break
PS Andreas Acrivos Dissertation Award Lecture....................... LBCC – Grand Ballroom A
PT Francois Frenkiel Award Lecture......................................... LBCC – Grand Ballroom B
36
Program Summary
QA CFD: Multiphase and Mixing Applications........................... LBCC – 101A
QB Turbulent Boundary Layers IX............................................. LBCC – 101B
QC Rarefied Gases and Compressible Flows........................... LBCC – 102A
QD Turbulence Simulations V.................................................... LBCC – 102B
QE General Fluid Dynamics IV.................................................. LBCC – 102C
QF Non-Newtonian Flows II...................................................... LBCC – 103A
QG Stratified Flows I.................................................................. LBCC – 103B
QH GFD: General III.................................................................. LBCC – 103C
QJ Flow Control VI.................................................................... LBCC – 201A
QK Biofluids: Cellular III............................................................. LBCC – 201B
QL Biofluids: Physiological Cardiovascular II............................ LBCC – 202A
QM Free Surface Flows: Droplets and Sheets........................... LBCC – 202B
QN Granular Flows III................................................................ LBCC – 202C
QP Microfluidics: Mixing II......................................................... LBCC – 203A
QQ Bubbles IV........................................................................... LBCC – 203B
QR Supersonic and Hypersonic Flows II................................... LBCC – 203C
QS Biolocomotion XI: Micro-Swimming Collective Behavior..... LBCC – Grand Ballroom A
QT Biolocomotion XII: Macro-Swimming II................................ LBCC – Grand Ballroom B
QU Reacting Flows V................................................................. Hyatt – Regency A
QV Suspensions II..................................................................... Hyatt – Regency B
QW Experimental Techniques III................................................ Hyatt – Regency C
QX Industrial Applications II....................................................... Hyatt – Regency D
QY Instability: Interfacial and Thin Film VI................................. Hyatt – Regency E
QZ Rotating Flows II.................................................................. Hyatt – Regency F
15:00 – 15:05 Mini Break
RA Turbulence Theory III........................................................... LBCC – 101A
RB Turbulence Simulations VI................................................... LBCC – 101B
RC Rarefied Gases and Direct Simulation Monte Carlo............ LBCC – 102A
RD Turbulence Simulations VII.................................................. LBCC – 102B
RF Non-Newtonian Flows III..................................................... LBCC – 103A
RG Stratified Flows II................................................................. LBCC – 103B
RH Convection and Buoyancy Driven Flows VI......................... LBCC – 103C
RJ Flow Control VII................................................................... LBCC – 201A
RK Biofluids: Cellular IV............................................................ LBCC – 201B
RL Biofluids: Physiological Cerebral......................................... LBCC – 202A
RM Free Surface Flows: Interfacial Phenomena....................... LBCC – 202B
RN Granular Flows IV................................................................ LBCC – 202C
RQ Bubbles V............................................................................ LBCC – 203B
RS Biofluids: General................................................................ LBCC – Grand Ballroom A
RT Biolocomotion XIII: Macro-Swimming III.............................. LBCC – Grand Ballroom B
RU Particle Laden Flows III....................................................... Hyatt – Regency A
RV Suspensions III.................................................................... Hyatt – Regency B
RW Experimental Techniques IV................................................ Hyatt – Regency C
RX Material Processing Flows................................................... Hyatt – Regency D
RY Instability: Interfacial and Thin Film VII................................ Hyatt – Regency E
RZ Waves III.............................................................................. Hyatt – Regency F
37
38
21 – 23 November 2010
63 – 86
87 – 104
Monday, 22 November
39
41 – 62
Sunday, 21 November
Schedule of Papers
63rd Annual Meeting of the
Division of Fluid Dynamics
40
41
Sunday, 21 November 2010
Sessions A – E
AC.01 Development of a
subgrid-scale similarity model for LES
based on the physics of interscale
energy transfer in turbulence
B. Anderson, J. Domaradzki
AD.01 Incompact3d: a powerful tool
to tackle turbulence problems with up
to hundreds of thousands
computational cores S. Laizet, N. Li
AE.01 A Comparative Study of
Subgrid Scale Models, for Prediction of
Transition in Turbulent Boundary
Layers T. Sayadi, P. Moin
AF.01 Onset and cessation of porous AF.02 Dissolution-driven convection
convection in the context of geological in porous media: Experiments
carbon sequestration A. Slim,
M. Bandi, A. Slim, L. Mahadevan
T. Ramakrishnan
AG.01 Internal wave emission by a
stratified turbulent wake with non-zero
net momentum A. Abdilghanie,
P. Diamessis
AH.01 Small-scale turbulent
AH.02 Role of Instability in State and
fluctuations beyond Taylor’s frozen flow Parameter Estimation of
hypothesis P. Tong, X. He, G. He
Rayleigh-Bénard Convection
A. Perkins, M. Schatz
AJ.01 An Approach to
Reduced-Order Modeling for Flows
with Upstream Actuation G. Ben-Dov,
A. Pearlstein
AK.01 Surfactant-assisted spreading AK.02 Quasi-Steady Capillary
of an emulsion Z. Li, M. Roche,
Driven Flow in Complex Geometries
A. Saint-Jalmes, H. Stone
M. Weislogel, A. Baker, D. Pettit
AC. Turbulence Modeling I
Room: 102A
Chair: D. Carati, Universite Libre de
Bruxelles
AD. CFD: Algorithms I
Room: 102B
Chair: C. Pantano, U. of Illinois at
Urbana-Champaign
AE. Instability: Boundary
Layers I
Room: 102C
Chair: M. Malik, NASA Langley
AF. Porous Media I: CO2
Sequestration
Room: 103A
Chair: C. Hidrovo, U. of Texas at Austin
AG. GFD: Oceanography I
Room: 103B
Chair: J. Crockett Vanderhoff, Brigham
Young U.
AH. Convection and
Buoyancy Driven Flows I
Room: 103C
Chair: D. Salin, U. Pierre and Marie
Curie
AJ. Flow Control I
Room: 201A
Chair: J. Katz, Johns Hopkins U.
AK. Free Surface Flows:
Spreading and Wetting
Room: 201B
Chair: G. Amberg, KTH Stockholm
AJ.02 System reduction strategy for
Galerkin models of fluid flows
M. Schlegel, B. Noack, M. Morzynski,
G. Tadmor
AG.02 Internal gravity wave
absorption and reflection in a
non-uniformly stratified Boussinesq
fluid and subcritical Richardson
number M. Richter, A. Abdilghanie,
P. Diamessis
AE.02 Sensitivity of non-modal
instabilities to base-flow modifications
L. Brandt, J. Pralits, D. Sipp,
O. Marquet
AD.02 A spectral multidomain
penalty method model for high
Reynolds number incompressible flows
J. Escobar-Vargas, P. Diamessis
AC.02 Truncated Navier-Stokes
Equations with the Automatic Filtering
T. Tantikul, J. Domaradzki
AB.02 Modeling near-wall turbulent
flows I. Marusic, R. Mathis,
N. Hutchins
AB.01 Extrapolating Channel Flow
Data to High Reynolds Number
Conditions R. Vinuesa, K. Dressler,
H. Nagib
08:13
AA.02 Large-eddy simulation of
oxygen transport and depletion in
waterbodies C. Scalo, U. Piomelli,
L. Boegman
AB. Turbulent Boundary
Layers I
Room: 101B
Chair: . Joe Klewicki, U. of New
Hampshire/Melbourne
08:00
AA.01 LES of scalar transport in
wave and wind-driven flows with
large-scale structures C. Akan,
A. Tejada-Martinez, C. Grosch
Session
AA. Turbulent Mixing I
Room: 101A
Chair: S. I. Abarzhi, U. of Chicago
08:39
AC.04 Grid-independent large-eddy
simulation of compressible turbulent
flows using explicit filtering D. You,
S. Bose, P. Moin
AB.04 Large-eddy and direct
simulations of accelerating boundary
layers J. Yuan, V. Grazioso,
U. Piomelli
42
AK.03 How cats lap R. Stocker,
P. Reis, S. Jung, J. Aristoff
AJ.03 Methods for the solution of
very large flow-control problems that
bypass open-loop model reduction
P. Luchini, T. Bewley
AH.03 Extensive Scaling from
Computational Homology and
Karhunen-Loève decomposition:
Analysis of Rayleigh-Bénard
Convection Experiments M. Schatz,
H. Kurtuldu, K. Mischaikow
AG.03 The fluid mechanics of oil
released into deep water A. Woods
AF.03 The Effect of Geochemical
Reaction on Convective Mixing in a
Gravitationally Unstable Diffusive
Boundary Layer in Porous Media:
Geological Storage of CO2 in Saline
Aquifers K. Ghesmat,
H. Hassanzadeh, J. Abedi
AE.03 Formation of roll/streaks
structures in boundary layers as an
instability of turbulence/mean-flow
interaction P. Ioannou
08:52
AD.05 Discretely conservative,
non-dissipative, and stable collocated
method for solving the incompressible
Navier-Stokes equations R. Ranjan,
C. Pantano
AC.05 Assessment of numerical and
modeling error interaction on the
accuracy of a variable density jet LES
G. Rodebaugh, L. Su
AB.05 Direct Numerical Simulation
of Zero-Pressure Gradient and Sink
Flow Turbulent Boundary Layers
O. Ramesh, S. Patwardhan
AA.05 Dynamic model for the joint
scalar probability in multi-species
turbulent mixing J. Ristorcelli,
J. Bakosi
09:05
AD.06 Robust and accurate finite
volume method on highly skewed
unstructured meshes H. Jang,
K. Mahesh
AC.06 A mixed LES model based on
the residual-based variational
multiscale formulation of compressible
flows J. Liu, Z. Wang, A. Oberai
AB.06 Velocity-vorticity correlation
structure in turbulent channel flow
J. Chen, J. Pei, Z. She, F. Hussain
AA.06 Stochastic shell mixing model
for scalars in homogeneous turbulence
Y. XIa, L. Collins
AK.04 Thermocapillary-assisted
pulling of free liquid films B. Scheid,
E. van Nierop, H. Stone
AJ.04 A least order model for
temporally-developing compressible
shear layers B. Qawasmeh, M. Wei
AH.04 Synchronization of
Spatiotemporal Chaos in
Rayleigh-Benard Convection
A. Karimi, M. Paul
AK.05 Increasing the critical speed
of wetting failure through meniscus
confinement E. Vandre, S. Kumar,
M. Carvalho
AJ.05 Time Delay in the Lift
Response to Actuation and Its Effect
on Controller Bandwidth D. Williams,
T. Colonius, W. Kerstens, V. Quach
AH.05 Does confined turbulent
convection ever attain the ‘asymptotic
scaling’ with 1/2–power? J. Niemela,
K. Sreenivasan
AG.04 Non-invasive turbulent mixing AG.05 Ocean Circulation Modeling
across a density interface in a turbulent Using Adaptive Wavelet Collocation
Taylor-Couette flow C. Caulfield,
Method S. Reckinger, O. Vasilyev
A. Woods, J. Landel, A. Kuesters
AF.04 Drainage in Two-dimensional AF.05 Leakage from inclined porous
Porous Media: From Capillary
reservoirs P. Zimoch, J. Neufeld,
Fingering to Viscous flow H. Bodiguel, D. Vella
C. Cottin, A. Colin
AK.06 Inertial and three-dimensional
effects in stretching liquid bridges near
plates and cavities S. Dodds,
M. Carvalho, S. Kumar
AJ.06 A Comparison of Model
Reduction Approaches for Feedback
Control Design of Thermal Flows in
Buildings J. Borggaard, S. Ahuja,
J. Burns, E. Cliff, A. Surana
AH.06 Transition to the ultimate
regime in two-dimensional turbulent
Rayleigh-Bénard convection
R. Stevens, K. Sugiyama, D. Lohse
AG.06 Turning points for semidiurnal
(M2) internal tides in the deep ocean
B. King, M. Stone, H. Zhang,
M. Marder, H. Swinney, R. Scott
AF.06 Convective dissolution in
porous media J. Neufeld, M. Hesse,
A. Riaz, M. Hallworth, H. Tchelepi,
H. Huppert
AE.04 Receptivity, Growth and
AE.05 Secondary Instability of
AE.06 Boundary-layer receptivity of
Breakdown of Görtler Vortices T. Zaki, Roughness-Induced Transient Growth three-dimensional roughness arrays on
a swept-wing L. Hunt, W. Saric
L. Schrader, L. Brandt
N. Denissen, E. White
AD.03 An efficient method for the
AD.04 A Finite-Volume ADI Method
incompressible Navier-Stokes
for Simulation of Incompressible Flows
equations on irregular domains with
on Curvilinear Grids S. Singh, D. You
no-slip boundary conditions, high order
up to the boundary D. Shirokoff,
R. Rosales
AC.03 Analysis of numerical errors in
subfilter scalar variance models for
large eddy simulation C. Heye,
C. Kaul, V. Raman
AB.03 Coherent vorticity extraction
in turbulent boundary layers using
orthogonal wavelets G. Khujadze,
R. Nguyen van yen, K. Schneider,
M. Oberlack, M. Farge
AA.03 Decay of a Passive Tracer in AA.04 DNS of mixing in spatially
Two-Dimensional
developing shear layers A. Attili,
Turbulence-Application to Infinitely Fast F. Bisetti
Chemistry F. Ait Chaalal, P. Bartello,
M. Bourqui
08:26
Sunday Morning, 21 November 2010
AP.01 Experimental Study of Fluid
Structure Formation from the Linear to
Non-Linear Regime in Polymer
Nanofilms Subject to Benard-Like
Instability Y. Liu, E. McLeod, S. Troian
AQ.01 E. coli swimming over agar in a thin aqueous film H. Berg
AR.01 Non-clogging Coulter
Counting with Electrohydrodynamic
Jets Y. Zhao, C. Chen
AU.01 Effect of microstructural
anisotropy on the fluid-particle drag
force W. Holloway, J. Sun,
S. Sundaresan
AV.01 A model for particle
accumulation of density-matched
tracers in thermocapillary flows
E. Hofmann, H. Kuhlmann
AW.01 Richardson effects in
turbulent buoyant flows R. Biggi,
G. Blanquart
AP. Nanofluids I
Room: 203A
Chair: J. Shan, Rutgers U.
AQ. Mini-Symposium on
Biological Perspectives on
Locomotion
Room: 203B
Chair: E. Kanso, U. of Southern
California
AR. Drops I
Room: 203C
Chair: D. Brutin, Universite de
Provence
AU. Multiphase Flows I
Room: Regency A
Chair: A. Shen, U. of Washington
AV. Particle Laden Flows I
Room: Regency B
Chair: T. Shinbrot, Rutgers U.
AW. Instability: RichtmyerMeshkov/Rayleigh-Taylor I
Room: Regency C
Chair: A. Banerjee, Missouri U. of
Science & Technology
AX. Aerodynamics I: Flapping AX.01 Aerodynamics of high
Wings
frequency flapping wings Z. Hu,
J. Roll, B. Cheng, X. Deng
Room: Regency D
Chair: J. Socha, Virginia Polytechnic
Institute and State U.
AN.01 A comparison of vortex and
pseudo-spectral methods at high
Reynolds numbers A. Leonard,
W. van Rees, P. Koumoutsakos
AN. Vortex Dynamics and
Vortex Flows I
Room: 202C
Chair: Y. Kimura, Nagoya U.
08:26
AM.04 The electrokinetics of
near-wall colloidal particles measured
by evanescent-wave particle
velocimetry Y. Kazoe, M. Yoda
AP.04 The relationship between
induced fluid structure and boundary
slip in nanoscale polymer films: A
molecular dynamics simulation study
N. Priezjev
AR.03 Electrohydrostatics of
Capillary Switches K. Sambath,
O. Basaran
AU.04 Interfacial Force Model
Development for Turbulent Bubbly
Flows D. Shaver, I. Bolotnov, S. Antal,
M. Podowski
43
AX.04 Effect of gust on flow patterns
around a robotic hummingbird wing
E. Marquez, H. Evans, R. Alarcon,
G. Whitehouse, B. Balakumar
AW.04 Direct numerical simulations
of Rayleigh-Taylor instability with
gravity reversal M. Petersen,
D. Livescu, R. Gore
AV.03 Sedimentation dynamics in the AV.04 Shear-enhanced diffusion in
presence of polymer S. Rubinstein,
colloidal suspensions I. Griffiths,
M. Bandi, T. Kodger, D. Weitz
H. Stone
AX.02 Aerodynamic damping during AX.03 Aerodynamics of flapping
body translation in animal flight:
wings with fluttering trailing edges
modeling and experimental results of L. Zhao, Z. Hu, J. Roll, X. Deng
flapping counter force (FCF)
B. Cheng, Z. Hu, X. Deng
08:52
09:05
AN.06 Computational Fluid Dynamic
Analysis of Hydrodynamic forces on
inundated bridge decks B. Afzal,
J. Guo, K. Kerenyi
AM.06 Electrokinetic locomotion due
to Reaction Induced Charge
Auto-Electrophoresis J. Moran,
J. Posner
AL.06 Experimental study of the
aeroacoustic-aeroelastic behavior of
model vocal folds E. Campo,
E. Camarena, M. Krane
AU.06 Light particles in turbulence:
velocity statistics V. Nagendra
Prakash, J. Martinez Mercado,
Y. Tagawa, C. Sun, D. Lohse
AX.05 Clap and fling in tiny insects
with porous wings
A. Santhanakrishnan, L. Miller,
A. Robinson, T. Hedrick
AW.05 Turbulence characteristics in
the variable-density Rayleigh-Taylor
mixing layer D. Livescu, M. Petersen,
R. Gore
AX.06 Flexible Flapping Wings’ Flow
Fields and Deformations E. Sällström,
P. Wu, L. Ukeiley, P. Ifju
AW.06 Revised Froude number for
Rayleigh-Taylor flow with secondary
instabilities K. Muthuraman,
P. Ramaprabhu, G. Dimonte,
P. Woodward, C. Fryer, G. Rockefeller,
Y. Young
AV.05 Pattern formation and strongly AV.06 Particle-laden thin film flows
nonlinear coating in Landau-Levich
on an incline: experiments and
flow of suspensions J. Kao, A. Hosoi equilibrium theory J. Bouricius,
T. Koch, P. Latterman, B. Le,
S. Mesuro, N. Murisic, A. Bertozzi
AU.05 Light Particles in Turbulence:
acceleration statistics J. Martinez
Mercado, V. Nagendra Prakash,
Y. Tagawa, C. Sun, D. Lohse
AR.06 Electrodeless
electro-hydrodynamic gentle printing of
personalized medicines B. Khusid,
E. Elele, Y. Shen
AQ.03 Locomotion by microscopic organisms in turbulent ambient water
flow M. Koehl
AP.05 The Saffman-Taylor Instability AP.06 Nanofluidics: Ionic transport
Without Walls S. Troian, S. Berg
through a nanochannel A. Siria,
A. Biance, C. Ybert, L. Bocquet
AN.05 A Multi-moment vortex
method for 2D viscous fluids
D. Uminsky, C. Wayne, A. Barbaro,
V. Ostrovskyi
AM.05 Secondary flow effect on
electrokinetic transport in curved
channels and microfluidic mixing
M. Chun, J. Lim
AL.05 Numerical study of the
fluid-solid interactions in human vocal
folds using finite element method
X. Wang, E. Sherman, M. Krane,
T. Wei, L. Zhang
AR.04 Symmetry breaking and
AR.05 Visualization of fluid flow
chaos in droplet electrohydrodynamics inside the Taylor-cone using
micro-particle image velocimetry
P. Salipante, P. Vlahovska
D. Byun, J. Kim, S. Tran
AQ.02 Jet propulsion in animals: theoretical innovation and biological
constraints M. Denny
AP.03 Influence of Stabilizing van der
Waals Forces on Benard Instability in
Viscous Nanofilms R. Denlinger,
S. Troian
AW.02 Wavelet-Based Simulations of AW.03 Statistical model for turbulent
Rayleigh-Taylor Instability
transition by variable-density
S. Reckinger, D. Livescu, O. Vasilyev pressure-gradient-driven mixing
J. Bakosi, J. Ristorcelli
AV.02 Migration and fractionation of
dense soft spheres in flow Y. Chen,
C. Hsu
08:39
AL.04 Examination of Flow in a
Scaled-Up Vocal Fold Model for
Diseased Conditions E. Sherman,
L. Zhang, W. Xinshi, W. Timothy,
M. Krane
AN.03 Vortex methods for
AN.04 A Lagrangian Vortex Method
fluid-structure interaction problems with for the Barotropic Vorticity Equation on
deforming geometries and their
a Rotating Sphere R. Krasny, L. Wang
application to swimming M. Gazzola,
P. Chatelain, P. Koumoutsakos
AM.03 Note on the Nonlinear
Electrokinetic Effects in Mircochannel
Flow: Exact Analytical Solutions for
Sinh-Poisson Equation A. Tsang,
K. Chow
AU.02 Influence of bubbles on liquid AU.03 Lagrangian statistics of
turbulence based on the direct
bubbles in a turbulent boundary layer
numerical simulation of channel flows M. Mattson, K. Mahesh
I. Bolotnov, D. Drew, R. Lahey, Jr.,
M. Podowski
AR.02 Structural Relaxation of
Water-in-Oil Emulsion under Direct
Current Electric Field M. Moradi,
V. Alvarado
AP.02 Microscopic description of a
liquid film on a solid substrate using
density functional theory A. Nold,
A. Pereira, A. Malijewsky, S. Kalliadasis
AN.02 Vortex methods with
immersed lifting lines applied to LES of
wind turbine wakes P. Chatelain,
L. Bricteux, G. Winckelmans,
P. Koumoutsakos
AM.01 Colloidal particle motion in
AM.02 Suppression of Electrokinetic
micro galvanic reactors through
Flows by Surface Roughness
tailored electrokinetic fluid flow L. Jan, R. Messinger, T. Squires
C. Punckt, B. Khusid, I. Aksay
08:13
AL.02 The impact of asymmetric
AL.03 Effect of subglottic stenosis on
flows on pathological speech B. Erath, the flow-induced vibration of a
S. Peterson, M. Plesniak
self-oscillating computational vocal fold
model S. Smith, S. Thomson
AM. Microfluids: General I:
Electrokinetic
Room: 202B
Chair: M. Yoda, Georgia Institute of
Technology
08:00
AL.01 Aeroacoustic sources in
phonation M. Krane
Session
AL. Biofluids: Physiological
General
Room: 202A
Chair: A. Hirsa, Rensselaer
Polytechnic Institute
08:39
AZ.01 Numerical and Experimental
Study of Scott Russell’s Solitary Waves
J. Choi, S. Sun, S. Oh, D. Lee,
S. Whang
AZ.02 Observation of odd and even
two-dimensional standing solitary
waves in water J. Rajchenbach,
A. Leroux
44
08:52
09:05
AY.06 Numerical study of the
evaporation of sessile drops: formation
of hydrothermal waves K. Sefiane,
G. Karapetsas, P. Saenz, P. Valluri,
O. Matar
AZ.05 Interfacial tubes: formation of AZ.06 Near-critical reflection of
nonlinear interfacial waves in muddy
nonlinear obliquely incident internal
water with surface waves E. Maxeiner, wave beam from a slope T. Akylas
R. Dalrymple
AY.04 The Dynamics of Drop Impact AY.05 Shock-wave solutions and
J. Kolinski, S. Rubinstein, S. Mandre, their stability in two-layer channel flow
L. Mahadevan
A. Mavromoustaki, R. Craster,
O. Matar
AZ.03 Singularity formation in a
AZ.04 Generation of the maximum
model of shallow water wave equations breaking wave amplitude by means of
unidirectional wave focusing
P. Daripa
I. Savelyev, R. Handler
08:26
AZ. Waves I
Room: Regency F
Chair: P. Daripa, Texas A&M U.
08:13
AY.03 Breakup of an electrified
viscous thread with charged
surfactants D. Conroy, R. Craster,
D. Papageorgiou, O. Matar
08:00
AY. Instability: Interfacial and AY.01 Stationary shapes of confined AY.02 Breakup of an electrified jet in
Thin Film I
rotating magnetic liquid droplets
an AC field D. Papageorgiou,
J. Miranda, S. Lira, R. Oliveira
D. Conroy, R. Craster, O. Matar
Room: Regency E
Chair: O. Matar, Imperial College
Session
AE.07 Bypass transition delay via
oscillating Stokes layers P. Hack,
L. Burini, T. Zaki
AF.07 Spreading and dissolution of
CO2 in horizontal aquifers: theory and
experiments C. MacMinn, J. Neufeld,
M. Hesse, H. Huppert
AE. Instability: Boundary
Layers I
Room: 102C
Chair: M. Malik, NASA Langley
AF. Porous Media I: CO2
Sequestration
Room: 103A
Chair: C. Hidrovo, U. of Texas at Austin
AG.08 Directional spreading of
surface waves by wind-wave
interaction S. Lee, D. Wundrow
AH.08 Measuring the departures
from the Boussinesq approximation in
Rayleigh-Bénard convection
experiments H. Kurtuldu, M. Schatz,
K. Mischaikow
AG. GFD: Oceanography I
AG.07 Langmuir circulation in the
presence of lateral density gradients
Room: 103B
Chair: J. Crockett Vanderhoff, Brigham G. Chini, K. Li
Young U.
AH.07 A low dimensional model for
Rayleigh-Benard convection in
rectangular domains J. Bailon-Cuba,
J. Schumacher
AJ.07 Feedback control of the
AJ.08 Feedback control of transition
cylinder wake using balanced reduced in boundary layer O. Semeraro,
order models S. Illingworth, H. Naito, S. Bagheri, L. Brandt, D. Henningson
K. Fukagata
AK.07 A general mechanism for the AK.08 Flow transition behavior
meandering of rivulets N. Valade,
between the film flow and rivulet flow
A. Daerr, J. Eggers, L. Limat
on an inclined wall Y. Iso, X. Chen
AH. Convection and
Buoyancy Driven Flows I
Room: 103C
Chair: D. Salin, U. Pierre and Marie
Curie
AJ. Flow Control I
Room: 201A
Chair: J. Katz, Johns Hopkins U.
AK. Free Surface Flows:
Spreading and Wetting
Room: 201B
Chair: G. Amberg, KTH Stockholm
AF.08 Unstable Diffusion Layers:
Laboratory Experiments on Carbon
Sequestration Phenomena R. Ecke,
S. Backhaus, K. Turitsyn
AE.08 Linear stability analysis of an
evaporating binary liquid layer with fully
transient reference profiles
H. Machrafi, A. Rednikov, P. Colinet,
P. Dauby
AD.08 A time-stepping scheme for
flow simulations that allows the use of
large time step sizes S. Dong
AJ.10 Analysis of Local Flow
Dynamics Using Koopman Modes
J. Tu, K. Chen, C. Rowley
AH.10 Generation of vertical
convective vortex in the transition from
anomalous to normal steady-state
convection A. Sharifulin,
A. Poludnitsin
AG.10 Sea spray mediated air-sea
fluxes at high wind speeds F. Veron,
J. Mueller
45
AK.09 Experimental measurements AK.10 Velocity measurements near
of contact angles with evaporation by a moving contact line with sub-micron
interferometry J. Sebilleau,
resolution B. Qian, K. Breuer
S. Dehaeck, P. Colinet
AJ.09 Optimal actuator and sensor
placement in the linearized complex
Ginzburg-Landau system K. Chen,
C. Rowley
AH.09 Conservative bounds on
Rayleigh-Bénard convection with mixed
thermal boundary conditions
R. Wittenberg
AG.09 Internal tide scattering (and
generation) by arbitrary
two-dimensional topography in
arbitrary stratifications T. Peacock,
M. Mathur, G. Carter
AF.09 CO2 migration in saline
aquifers: a gravity current model with
capillary and solubility trapping
R. Juanes, C. MacMinn,
M. Szulczewski
AE.09 Inviscid Stability Analysis of AE.10 Stabilty of corner boundary
Chemically Reacting Boundary Layers layers J. Denier, N. Jewell
in Binary Gas Mixtures J. Klentzman,
E. Ulker, A. Tumin
AD.09 Accurate Solution of Steady
Navier–Stokes System in Unbounded
Domains J. Gustafsson, B. Protas
AD.10 Variational integrator
preserving Lie-symmetry M. Chhay
AD.07 Large Eddy Simulation of
Flow Over Surface-Mounted Cube
Using a Spectral Element Method
S. Kandala, D. Rempfer
AD. CFD: Algorithms I
Room: 102B
Chair: C. Pantano, U. of Illinois at
Urbana-Champaign
AC.08 Curve fitting 3-D experimental AC.09 Large-eddy simulation of the
turbulent flows with the poor man’s
upper ocean mixed layer
Navier–Stokes equation
A. Tejada-Martinez
J. McDonough, T. Mitchell, S. Bailey
AC.07 Evaluation of Leray and
Verstappen regularizations in LES,
without and with added SGS modeling
G. Winckelmans, N. Bourgeois,
Y. Collet, M. Duponcheel
09:57
AA.10 Linking spectra and geometry
in scalar fields M. Kree, J. Duplat,
E. Villermaux
AC. Turbulence Modeling I
Room: 102A
Chair: D. Carati, Universite Libre de
Bruxelles
09:44
AB.07 DNS of turbulent boundary
AB.08 Direct Numerical Simulation AB.09 DNS of Turbulent Boundary AB.10 Geometric study of
layer over a flat plate at Reθ = 5200 of a Quasilaminarized Boundary Layer Layers under Highenthalpy Conditions Lagrangian and Eulerian structures in
A. Ferrante, K. Webster
L. Castillo, J. Araya, R. Cal
turbulent channel flow Y. Yang,
L. Duan, P. MartÍn
D. Pullin
09:31
AB. Turbulent Boundary
Layers I
Room: 101B
Chair: . Joe Klewicki, U. of New
Hampshire/Melbourne
09:18
AA.07 Modeling Scalar variance
AA.08 Numerical diffusivity of scalar AA.09 Entanglement rules for
from Direct Numerical Simulations of a transport schemes in high Schmidt
random mixtures E. Villermaux,
turbulent mixing layer B. Ravinel,
number flows S. Verma, G. Blanquart J. Duplat
G. Blanquart
AA. Turbulent Mixing I
Room: 101A
Chair: S. I. Abarzhi, U. of Chicago
Session
10:10
Mini Break, 10:10–10:15
AN.07 Interaction of Vortex Rings
and Steady Jets with Multiple
Permeable Screens M. Musta,
P. Krueger
AP.07 Hydronium-dominated ion
transport in carbon-dioxide-saturated
electrolytes at low salt concentrations
in nanochannels S. Pennathur,
K. Jensen, J. Kristensen, A. Crumrine,
M. Andersen, H. Bruus
AQ.04 Fish robotics and hydrodynamics G. Lauder
AR.07 Effect of Nozzle shape on
droplet generation stability in EHD
Inkjet J. Kim, V. Nguyen, J. Kim,
S. Tran, D. Byun
AU.07 Local bubble distribution in
bubbly turbulent Taylor-Couette flow
D. Narezo, D. van Gils, C. Sun,
D. Lohse
AV.07 A dynamic model for
particle-laden thin film flows on an
incline N. Murisic, A. Bertozzi
AW.07 Non-linear effects in the
combined Rayleigh-Taylor and
Kelvin-Helmholtz Instabilities
B. Olson, J. Larsson, S. Lele
AN. Vortex Dynamics and
Vortex Flows I
Room: 202C
Chair: Y. Kimura, Nagoya U.
AP. Nanofluids I
Room: 203A
Chair: J. Shan, Rutgers U.
AQ. Mini-Symposium on
Biological Perspectives on
Locomotion
Room: 203B
Chair: E. Kanso, U. of Southern
California
AR. Drops I
Room: 203C
Chair: D. Brutin, Universite de
Provence
AU. Multiphase Flows I
Room: Regency A
Chair: A. Shen, U. of Washington
AV. Particle Laden Flows I
Room: Regency B
Chair: T. Shinbrot, Rutgers U.
AW. Instability: RichtmyerMeshkov/Rayleigh-Taylor I
Room: Regency C
Chair: A. Banerjee, Missouri U. of
Science & Technology
AX. Aerodynamics I: Flapping AX.07 Should planes look like birds?
Wings
J. Huyssen, G. Spedding
Room: Regency D
Chair: J. Socha, Virginia Polytechnic
AM.07 Electrophoretic mobility of
AM.08 Lateral Migration and
deformable elastic particles in confined Three-dimensional Focusing of
geometries T. Gao, H. Hu
Particles in Microchannel
Electrophoresis L. Liang, S. Qian,
X. Xuan
AM. Microfluids: General I:
Electrokinetic
Room: 202B
Chair: M. Yoda, Georgia Institute of
Technology
09:31
09:44
09:57
AX.08 Interaction of Two Flapping
Flags in Axial Flow A. Gunter,
M. Fayed, H. Ait Abderrahmane,
M. Paidoussis, H. Ng
AW.08 Self-Similar Solutions of
Reynolds-Averaged Navier-Stokes
Models for Rayleigh-Taylor
Instability-Induced Turbulence and
Mixing O. Schilling
AV.08 Cross-stream migration of
compliant particles in microfluidic
channels A. Kilimnik, S. Nur, D. Di
Carlo, A. Alexeev
AU.08 An
arbitrary-Lagrangian-Eulerian method
for simulating particle-bubble
interactions T. Qin, P. Yue, S. Ragab
AR.08 A Hybrid Inkjet Printer
Utilizing Electrohydrodynamic Jetting
and Piezoelectric Actuation
V. Nguyen, D. Byun
AP.08 Electrochemical surface
properties of bare- and silane-coated
silica nanochannels M. Andersen,
H. Bruus, J. Frey, S. Pennathur
AN.08 Instantaneous Global
Separation on a Vanishing Wing
D. Rival, M. Wibawa, M. Triantafyllou
AU.10 A multi-Gaussian quadrature
method of moments for gas-particle
flows R. Fox, C. Chalons, M. Massot
46
AX.09 Effects of Wing Platform on
the Aerodynamic Performance of
Finite-Span Flapping Wings M. Yu,
Z. Wang, H. Hu
AW.09 A Posteriori Tests of a Threeand Four-Equation Advanced
Reynolds–Averaged Navier–Stokes
Model for Rayleigh–Taylor Turbulent
Mixing G. Burton, O. Schilling
AX.10 Dynamics of Flapping Flag in
Axial Flow H. Ait Abderrahmane,
M. Fayed, A. Gunter, M. Paidoussis,
H. Ng
AW.10 Comparisons of a
Reynolds-Averaged Navier–Stokes
Model with Self-Similar Solutions for
Large Atwood Number Rayleigh–Taylor
Mixing R. Ulerich, O. Schilling
AV.09 Rotation and Alignment of
AV.10 Measuring the rotation rate of
Rods in Two-Dimensional Chaotic Flow rod-shaped particles in 3D turbulence
J. Gollub, J. Guasto, M. Kishore,
S. Parsa, N. Ouellette, G. Voth
S. Parsa Moghaddam, G. Voth,
N. Ouellette
AU.09 Simulation of particle motion
at interface Y. Choi, P. Anderson
AR.09 Flight Behavior of a Charged AR.10 Oscillations of an asymmetric
Droplet in Electrohydrodynamics (EHD) double droplet system
Inkjet printing using DC and AC signal S. Ramalingam, O. Basaran
H. Yudistira, V. Nguyen, D. Byun
AQ.05 Small-scale biological, physical and chemical signals in the sea
J. Yen
AP.09 Physical Origins of Enhanced AP.10 An investigation of
Interfacial Viscosity in Electroosmotic nucleation-growth of bubbles using
Flows P. Wu, R. Qiao
molecular dynamics simulation
T. Komatsu, S. Tsuda, S. Takagi,
Y. Matsumoto
AN.09 A simplified analog for a
rotorcraft-in-ground-effect flow using a
forced impinging jet J. Geiser,
K. Kiger
AM.09 Highly non-linear
AM.10 Nonlinear waves in
induced-charge electroosmosis for flat electromigration dispersion S. Ghosal,
electrodes G. Soni, C. Meinhart,
Z. Chen
M. Andersen, H. Bruus
AL.08 Thin Film Evolution Over a
AL.09 A Model for the Precorneal
AL.10 Viscoelastic Properties of
Thin Porous Layer: Modeling a Tear
Tear Film with Osmolarity and Corneal Vitreous Gel H. Kavehpour,
Film on a Contact Lens D. Anderson, Supply R. Braun, P. King-Smith
P. Sharif-Kashani
K. Nong
09:18
AL.07 Bird song: in vivo, in vitro, in
silico A. Mukherjee, S. Mandre,
L. Mahadevan
Session
AL. Biofluids: Physiological
General
Room: 202A
Chair: A. Hirsa, Rensselaer
10:10
Mini Break, 10:10–10:15
AZ.07 Laboratory experiments on
internal wave reflection and absorption
at a simulated oceanic pycnocline
S. Wunsch, A. Brandt
47
AZ.09 Horizontal transport of
Lagrangian particles by basin-scale
internal waves in a
continuously-stratified circular lake
T. Sakai, L. Redekopp
AZ.08 The Near-Field Internal Wave
Field Generated by a Sphere Moving in
a Stratified Fluid J. Rottman,
K. Brucker, D. Dommermuth,
D. Broutman
09:44
AZ. Waves I
Room: Regency F
Chair: P. Daripa, Texas A&M U.
09:31
AY.08 Drift and symmetry breaking in AY.09 Numerical and analytical
Faraday waves N. Perinet, D. Juric,
studies of the electric field effects on
L. Tuckerman, E. Knobloch
interfacial waves subject to
Rayleigh-Taylor instability
L. Barannyk, D. Papageorgiou,
P. Petropoulos
09:18
AY. Instability: Interfacial and AY.07 Thermal fluctuations and the
Thin Film I
breakup length of Savart capillary jets
F. GarcÍa
Room: Regency E
Chair: O. Matar, Imperial College
Session
09:57
AZ.10 Weak compressibility of
surface wave turbulence M. Vucelja,
I. Fouxon, G. Falkovich
AY.10 Capillary wave motion excited
by high frequency surface acoustic
waves M. Tan, O. Matar, J. Friend,
L. Yeo
10:10
Mini Break, 10:10–10:15
Lunch Break
11:35 – 13:00
48
Session B1.02: Otto Laporte Lecture
10:40 – 11:25, Grand Ballroom
Explaining The Flow Of Elastic Liquids John Hinch, DAMTP, Cambridge University, UK
Session B1.01: Welcome, Presentation of Awards and APS Fellowships
10:15 – 10:40, Grand Ballroom
Chair: Juan Lasheras, University of California, San Diego
CC.01 Analytic and Approximate
Analytic Solutions to the RANS
Equations D. Israel
CD.01 An Adaptive Mesh Refined
CD.02 Adaptive mesh refinement for
Gradient-Augmented Level Set Method large-eddy simulation using the
dynamic reconstruction model
J. Nave, B. Seibold, R. Rosales
L. Goodfriend, F. Chow, M. Vanella,
E. Balaras
CE.01 Design of a DBD Plasma
CE.02 Hypersonic boundary-layer
Actuator Array to Control Stationary
instability with localized roughness
Cross Flow Modes in a Supersonic
O. Marxen, G. Iaccarino, E. Shaqfeh
Boundary Layer C. Schuele, E. Matlis,
T. Corke, S. Wilkinson
CF.01 Comparison of two-phase
Darcy’s law with a thermodynamically
consistent approach S. Berg,
J. Niessner, S. Hassanizadeh
CG.01 Direct Numerical Simulations of Stratified Turbulence S. de Bruyn
Kops
CH.01 Spatially Localized Binary
Fluid Convection E. Knobloch, D. Lo
Jacono, A. Bergeon
CJ.01 Feedback Flow Control of a
Periodically Pitching Airfoil
A. Lombardi, P. Bowles, T. Corke,
E. Matlis
CK.01 Dragging a floating horizontal CK.02 The submarine’s wake
cylinder D. Lee, H. Kim
A. Benusiglio, M. Le Merrer, C. Clanet
CC. Turbulence Modeling II
Room: 102A
Chair: G. Araya, Swansea U. UK
CD. CFD: Algorithms II
Room: 102B
Chair: J. Nave, MIT
CE. Instability: Boundary
Layers II
Room: 102C
Chair: X. Wu, Royal Military College of
Canada
CF. Porous Media II
Room: 103A
Chair: B. Markicevic, Kettering U.
CG. Mini-Symposium on
Computational Strategies for
the Simulation of Nonlinear
Waves and Turbulence in
Environmental Flows
Room: 103B
Chair: P. Diamessis, Cornell U.
CH. Convection and
Buoyancy Driven Flows II
Room: 103C
Chair: C. Caulfield, U. of Cambridge
CJ. Flow Control II
Room: 201A
Chair: P. Lavoie, U. of Toronto
CK. Free Surface Flows:
Macro-Scale Phenomena
Room: 201B
Chair: G. Peng, Corning Inc.
CJ.02 Aerodynamic Flow Control
using Distributed Active Bleed
J. Kearney, A. Glezer
CH.02 Evolution of Double-Diffusive
Convection in Low-Aspect Ratio
Containers S. Pol, H. Fernando,
S. Webb
CF.02 Two Phase Flow in Porous
Media with Dynamic Capillary
Pressure K. Spayd, M. Shearer
CC.02 A pressure-strain correlation
closure model with improved
consistency with the Rapid Distortion
Theory of Turbulence A. Mishra,
S. Girimaji
CB.01 Volumetric Velocimetry in Wall CB.02 Corrected Hot-wire
Bounded Flows T. Cambonie, J. Aider Measurements of Stream-wise
Turbulence Intensity from Several ZPG
Boundary Layers H. Nagib,
R. Duncan, P. Monkewitz
13:13
CB. Turbulent Boundary
Layers II
Room: 101B
Chair: H. Jin Sung, KAIST
13:00
CA.01 Scaling Law Regimes for
CA.02 A Visualization Study of
Confined Multiple Transverse Jet Flows Mixing and Turbulence for Confined
D. Forliti, N. Sedano
Multiple Transverse Jets A. Bishop,
N. Sedano, D. Forliti
Session
CA. Turbulent Mixing II
Room: 101A
Chair: N. Ouellette, Yale U.
13:39
CD.04 Multi-core/GPU accelerated
multi-resolution simulations of
compressible flows
B. Hejazialhosseini, D. Rossinelli,
P. Koumoutsakos
CC.04 Modeling near-wall turbulence
behavior for variable-resolution
bridging methods D. Reyes,
S. Girimaji
CB.04 A reinterpretation of the
distribution of vortical structure in wall
turbulence B. McKeon, I. Jacobi,
A. Sharma
CA.04 Experiments and simulations
of passive scalars released from
concentrated sources in turbulent
channel flow E. Germaine,
L. Cortelezzi, L. Mydlarski
13:52
CD.05 Stability and Accuracy of
Coupling Strategies in Hybrid LES/PDF
Algorithms for Turbulent Reactive
Flows P. Popov, H. Wang, S. Pope
CC.05 Evaluation of
Partially-Averaged Navier-Stokes
(PANS) bridging method in turbulent
channel flows B. Basara, S. Girimaji,
P. Pavlovic
CB.05 Non-intrusive measurements
in hypersonic shock wave turbulent
boundary layer interactions
A. Schreyer, D. Sahoo, A. Smits
CA.05 Phase relaxation of a cloud
water droplet ensemble undergoing
turbulent mixing B. Kumar, R. Shaw,
J. Schumacher
14:05
CD.06 Theoretically Simple Thermal
Lattice Boltzmann Method and Its
Application to a 2-D Shock Tube
Simulation J. Shim
CC.06 Turbulence Closures
Uncertainties in Shock Boundary Layer
Interactions M. Emory, R. Pecnik,
G. Iaccarino
CB.06 Fully-resolved turbulence
measurements in high Reynolds
number pipe flow using a nano-scale
probe M. Vallikivi, M. Hultmark,
A. Smits
CA.06 Direct Computation of Twoand Three-dimensional FTLE/LCS
from Particle Tracking Velocimetry
Data S. Raben, R. La Foy, S. Ross,
P. Vlachos
49
CK.03 Experimental Investigation of
Slamming Loads on a Flat Plate
D. Jeon, F. Huera-Huarte, M. Fu,
M. Gharib
CJ.03 Numerical Simulations of
Natural and Actuated Flow over a 3D,
Low-Aspect-Ratio Airfoil G. Brès,
D. Williams, T. Colonius
CH.03 Turbulent Rayleigh-Benard
convection in containers with
rectangular wall roughness elements
O. Shishkina, C. Wagner
CF.06 Capillary climb dynamics in
the limits of prevailing capillary and
gravity force H. Navaz, B. Markicevic,
B. Bijeljic
CJ.05 Active Flow Control on a Low
Reynolds Number Wing M. Munson,
M. Gharib
CJ.06 Low Reynolds Number Flow
Dynamics of a Thin Airfoil with an
Actuated Leading Edge using Direct
Numerical Simulation K. Drost,
S. Apte
CH.05 Convective - diffusive mixing CH.06 Direct Numerical Simulation
promoted by natural convection L. de of turbulent mixed convection in
la Cruz, E. Ramos
thermally-stratified channel flow
F. Zonta, A. Soldati
CG.03 On the Interaction of Buoyant Plumes With Ocean Mixed-Layer
Fronts T. Özgökmen
CF.05 Geometry-driven charge
accumulation in electrokinetic flows
through laminates B. Tilley,
B. Vernescu, J. Plummer
CK.04 A comparison of model-scale CK.05 Computation of
CK.06 Computation of
experimental measurements and
two-dimensional standing water waves three-dimensional standing water
computational predictions for a large
J. Wilkening, J. Yu, C. Rycroft
waves C. Rycroft, J. Wilkening
transom-stern wave T. O’Shea,
K. Beale, K. Brucker, D. Wyatt,
D. Drazen, A. Fullerton, T. Fu,
D. Dommermuth
CJ.04 Aerodynamic Flow Control of
a Maneuvering Airfoil D. Brzozowski,
J. Culp, A. Glezer
CH.04 Convective Heat Transfer in
Bulk- and Boundary-Dominated
Regimes in Turbulent Thermal
Convection P. Wei, R. Ni, X. Zhao,
K. Xia
CG.02 Hydrostatic ma non troppo. Leptic expansion and Poisson solvers
in thin domains A. Scotti
CF.03 Stokes’ second problem for an CF.04 Double diffusive miscible
Oldroyd-B fluid in a porous half space viscous fingering M. Mishra,
B. Suman, N. Hoda
P. Trevelyan, C. Almarcha, A. De Wit
CE.03 Stability Analysis of a Mach CE.04 Boundary-layer transition on a CE.05 Hypersonic boundary layer
CE.06 Investigation of a Turbulent
10 Boundary Layer with Nonequilibrium flared cone in a Mach 6 quiet wind
instabilities affected by various porous Spot in a Hypersonic Cone Boundary
Chemistry S. Ghaffari, O. Marxen,
tunnel J. Hofferth, W. Saric
surfaces X. Wang, X. Zhong
Layer J. Sivasubramanian, H. Fasel
G. Iaccarino, E. Shaqfeh, T. Magin
CD.03 Characteristic Boundary
Conditions with Transverse Effects: a
Comparative Study G. Lodato,
H. Pitsch
CC.03 Bridging Approach to
variable-resolution turbulence
simulations – Unification of PANS and
PITM closures S. Girimaji,
R. Rubinstein
CB.03 Resolving the 3D velocity field
inside a Roughness Sublayer in a
turbulent channel flow using HPIV
S. Talapatra, J. Katz
CA.03 Simultaneous
velocity-temperature measurements in
the heated wake of a cylinder with
application to the modeling of turbulent
passive scalars A. Berajeklian,
L. Mydlarski
13:26
Sunday Afternoon, 21 November 2010
CP.01 Pump-Free Composite
Nanochannels for Chip-Level Cooling
Z. Li, C. Liu
CQ.01 Diffusion vs. locomotion
E. Lauga
CR.01 Effect of Viscosity and Size of CR.02 Droplet jumping by resonant
a Droplet on Spreading Dynamics in
AC electrowetting envisioning
Electrowetting J. Hong, K. Kang
three-dimensional digital microfluidics
S. Lee, S. Lee, K. Kang
CS.01 Hydrodynamics and
evaporation of a sessile drop of
capillary size L. Barash, T. Bigioni,
V. Vinokur, L. Shchur
CT.01 Locomotion of C elegans in
CT.02 Simulations of C. elegans
structured environments T. Majmudar, locomotion through a structured
E. Keaveny, M. Shelley, J. Zhang
medium E. Keaveny, T. Majmudar,
J. Zhang, M. Shelley
CU.01 Phase field method for
CU.02 Strategies for Multiphase
interfacial fluid flow with soluble
Flows with High Density Ratios
surfactant M. Do-Quang, S. Engblom, O. Desjardins, V. Moureau
A. Tornberg, G. Amberg
CV.01 Particle pair dispersion in
CV.02 Self-ordering of microscopic
turbulent boundary layer C. Marchioli, particles in time-periodic flows
E. Pitton, A. Soldati, F. Toschi
D. Pushkin, D. Melnikov, V. Shevtsova
CP. Nanofluids II
Room: 203A
Chair: J. Posner, Arizona State U.
CQ. Biolocomotion I:
Micro-swimming I
Room: 203B
Chair: J. Buchholz, U. of Iowa
CR. Drops II
Room: 203C
Chair: C. Chen, Duke U.
CS. Drops III: Evaporation
Room: Grand Ballroom A
Chair: J. Saylor, Clemson U.
CT. Biolocomotion II:
Slithering, Crawling and
Undulatory Swimming
Room: Grand Ballroom B
Chair: A. Lang, U. of Alabama
CU. Multiphase Flows II
Room: Regency A
Chair: M. Soteriou, United
Technologies
CV. Particle Laden Flows II
Room: Regency B
Chair: T. O’Hern, Sandia National
Laboratories
CS.02 Contact Angle Hysteresis of
an Evaporating Droplet J. Ryu,
S. Lee, K. Kang
CQ.02 Stirring by squirmers
J. Thiffeault, Z. Lin, S. Childress
CP.02 Field amplified sample
stacking and focusing in nanofluidic
channels B. Storey, J. Sustarich,
S. Pennathur
13:39
CQ.04 Breaking Symmetry with
Gravity: Two-Link Swimming Using
Buoyant Orientation L. Burton,
R. Hatton, H. Choset, A. Hosoi
CP.04 Investigation of flow velocity
profile in a nanocapillary G. Wang,
A. Zou, F. Yang
CN.04 A short wave instability
caused by the approach of a vortex
pair to a ground plane D. Harris,
C. Williamson
CM.04 Streaming potential
generated by a pressure-driven flow
over a super-hydrophobic surface
H. Zhao
CL.04 On drinking nectar W. Kim,
T. Gilet, J. Bush
13:52
14:05
CL.06 The Hungry Fly:
Hydrodynamics of feeding in the
common house fly M. Prakash,
M. Steele
CQ.05 Low-Reynolds-number
swimming in confined geometries
D. Crowdy
CP.05 Temperature and viscosity
effects on the velocity profile of a
nanochannel electro-osmotic flow
B. Jelinek, S. Felicelli, P. Mlakar,
J. Peters
CN.05 A unified criterion for the
centrifugal instability of vortices and
swirling jets P. Billant, F. Gallaire
CQ.06 Analytical model of a butterfly
micro-swimmer M. Iima, A. Mikhailov
CP.06 Hydrodynamic rotational
friction of single-wall carbon nanotubes
in liquid suspension J. Shan,
F. Zimmermann
CN.06 Secondary Flows Within 3D
Vortices S. Pei, P. Hassanzadeh,
P. Marcus
CM.05 Modeling thermocapillary flow CM.06 3-D CFD Simulations of
on superhydrophobic surfaces
Liquid Laminar Flow over
Superhydrophobic Surfaces for two
T. Baier, C. Steffes, S. Hardt
scenarios: (1) Shear-driven Flow with
Square Post Geometries, (2)
Pressure-driven Flow with Rectangular
Post Geometries A. Amin, D. Maynes,
B. Webb
CL.05 Microscopic filter feeders at
an angle to nearby boundaries:
Feeding restrictions and strategies
R. Pepper, M. Roper, S. Ryu,
P. Matsudiara, H. Stone
50
CV.03 Effects of turbulence intensity
and gravity on transport of inertial
particles across a shearless turbulence
interface G. Good, S. Gerashchenko,
Z. Warhaft
CV.04 Conditional statistics of inertial CV.05 Inertial particles in a shearless
particle entrainment across a
mixing layer: direct numerical
shearless turbulent interface
simulations P. Ireland, L. Collins
S. Gerashchenko, G. Good, Z. Warhaft
CU.05 A Numerical Approach for
Simulating Incompressible Two-Phase
Flows Considering Surface Tension
Effect S. Choi, M. Cho, H. Choi, J. Yoo
CV.06 On the relation between
preferential concentration and radial
relative velocity of inertial particles in
homogeneous isotropic turbulence
B. Ray, L. Collins
CU.06 A mass-conserving volume of
fluid method for two-phase
incompressible isotropic turbulence
A. Baraldi, A. Ferrante
CT.06 The Effect of Electric Field
Magnitude and Frequency on
Caenorhabditis Elegans H. Chuang,
D. Raizen, N. Dabbish, A. Lamb,
H. Bau
CS.05 Surface wettability and triple CS.06 Diffusion-Controlled
line behavior controlled by
Evaporating Stationary Meniscus in a
nano-coatings: effects on the sessile Channel J. Njante, S. Morris
drop evaporation B. Sobac, D. Brutin,
J. Gavillet
CT.04 Motility of small nematodes in CT.05 Collective behavior of
disordered wet granular media
nematodes in a thin fluid S. Gart,
G. Juarez, K. Lu, J. Sznitman, P. Arratia S. Jung
CS.04 Rush hour for particles
suspended in evaporating drops
H. Gelderblom, ˙ Márin, J. Snoeijer,
D. Lohse
CU.03 A Sub-Grid Model for Surface CU.04 Contact-line motion past
Tension Induced Phase Interface
sharp corners: from spreading to
Dynamics M. Herrmann
jetting P. Spelt, Y. Sui
CT.03 Locomotion and Body Shape
Changes of Metabolically Different
C.elegans in Fluids with Varying
Viscosities R. Wong, N. Brenowitz,
A. Shen
CS.03 Drying drops of blood
D. Brutin, B. Sobac, B. Loquet,
J. Sampol
CR.03 Jumping number in the
CR.04 Electrophoresis of a charged CR.05 Translation and coalescence CR.06 Electrically Modulated Partial
droplet jumping by resonant AC
electrolyte droplet D. Im, J. Noh,
of freely floating droplets using
Coalescence of Oppositely Charged
electrowetting S. Lee, S. Lee, K. Kang I. Kang
electrophoresis D. Lee, D. Im, I. Kang Droplets J. Creasey, B. Hamlin,
W. Ristenpart
CQ.03 Hydrodynamic interaction of
two unsteady squirmers T. Ishikawa,
D. Giacche
CP.03 WITHDRAWN .
CM.03 Surface Energy
Characterization of Superhydrophobic
Surfaces under Varying Ambient
Temperatures A. Chhabra,
R. Kanapuram, T. Kim, C. Hidrovo
CN.01 Mechanics of Viscous Vortex CN.02 Regenerative transient growth CN.03 Vortex merger in a
Reconnection F. Hussain,
on a vortex column E. Stout,
density-stratified fluid
K. Duraisamy
F. Hussain
R. Govindarajan, H. Dixit
CM.02 Effect of wall pattern
configurations on Stokes flow through
a microchannel with superhydrophobic
slip H. Mak, C. Ng
CN. Vortex Dynamics and
Vortex Flows II
Room: 202C
Chair: B. Protas, McMaster U.
13:26
CL.03 Optimality and universal
scaling for osmotically driven
translocation of sugars in plants
T. Bohr, K. Jensen, H. Bruus, J. Lee,
M. Zwieniecki, N. Holbrook
CM.01 Computational sensitivity
analysis of geometric parameters in
laminar superhydrophobic
microchannels A. Yarahmadi,
M. Metzger
13:13
CL.02 The ultrafast valve of an
aquatic carnivorous plant
P. Marmottant, O. Vincent, M. Joyeux,
C. Quilliet, S. Poppinga, C. Weisskopf,
T. Masselter, T. Speck
CM. Microfluids: General II
Room: 202B
Chair: V. Alvarado, U. of Wyoming
13:00
CL.01 Special functions of valve
organs of blood-sucking female
mosquitoes B. Kim, S. Lee
CL. Biofluids: Physiological
Feeding
Room: 202A
Chair: S. Shadden, IIT
Session
CY.01 The development of nonlinear CY.02 Non-linear evolution of vortical
instability waves in two-fluid shear
disturbances in two-fluid boundary
flows with complex interfacial topology layers L. Burini, T. Zaki
L. Cheung, T. Zaki
CZ.01 Rotating Solitary Wave during CZ.02 Can non-propagating
Liquid Drainage M. Fayed, H. Ait
hydrodynamic solitons be forced to
Abderrahmane, G. Vatistas, H. Ng
move? L. Gordillo, M. Clerc,
N. Mujica, T. Sauma, Y. Zarate,
I. Espinoza
CY. Instability: Interfacial and
Thin Film II
Room: Regency E
Chair: D. Vella, U. of Cambridge
CZ. Waves II
Room: Regency F
Chair: W. Phillips, Swinburne U. of
Technology, Australia
CX.02 Effect of Leading and Trailing
Edge Geometry on the Aeromechanic
Characteristics of Membrane Aerofoils
S. Arbos, Z. Pang,
B. Ganapathisubramani, R. Palacios
CX.01 Flow over a Modern Ram-Air
Parachute Canopy M. Mohammadi,
H. Johari
13:13
CW.02 Effect of shear on mixing in
R-T mixing layers at low Atwood
numbers B. Akula, M. Andrews,
D. Ranjan
CX. Aerodynamics II
Room: Regency D
Chair: S. Yarusevych, U. of Waterloo
13:00
CW.01 Mach number effects in
shock-driven instabilities with
simultaneous velocity and density
measurements G. Orlicz,
K. Prestridge, B. Balakumar,
S. Balasubramanian, G. Friedman
Session
CW. Instability: RichtmyerMeshkov/Rayleigh-Taylor II
Room: Regency C
Chair: K. Prestridge, Los Alamos
National Laboratory
13:39
CY.04 Three dimensional
spatio-temporal instabilities in two-layer
flows at high Reynolds numbers
P. Valluri, L. O’Na’raigh, P. Spelt
CX.04 Characterization of a
Three-Dimensional Turret Wake for
Active Flow Control Part II:
Experimental Study P. Shea,
C. Ruscher, R. Wallace, M. Glauser,
J. Dannenhoffer, III
CW.04 Experiments and theory on
binary mixture evaporation in
Hele-Shaw cells J. Kamrak,
S. Dehaeck, A. Rednikov, H. Ching,
F. Doumenc, B. Guerrier, P. Colinet
51
CZ.03 Stationary solutions of the
CZ.04 Selection Rules for Internal
extended reduced Ostrovsky equation Gravity Waves and Inertial Waves
M. Obregon, Y. Stepanyants,
C. Jiang, P. Marcus
R. Fernandez-Feria
CY.03 Three-dimensional linear
instability in pressure-driven two-layer
channel flow of a Newtonian and a
Herschel-Bulkley fluid K. Sahu,
O. Matar
CX.03 Characterization of a
Three-Dimensional Turret Wake for
Active Flow Control Part I: Simulation
C. Ruscher, P. Shea, R. Wallace,
J. Dannenhoffer, III, M. Glauser
CW.03 Miscible and immiscible liquid
experiments and simulations on the
Rayleigh-Taylor instability M. Roberts,
J. Jacobs, W. Cabot
13:26
13:52
CZ.05 The Combined Effects of
Light-wind and Surfactants on Spilling
Breakers J. Duncan, X. Liu, D. Wang
CY.05 Numerical simulations of
two-fluid channel flow with wall
deposition and ageing effects
D. Sileri, H. Ding, O. Matar
CX.05 Wind turbine performance
predictions using propeller vortex
lattice methods B. Epps, R. Kimball
CW.05 Experimental investigation of
Rayleigh Taylor instability in
elastic-plastic materials A. Haley,
A. Banerjee
14:05
CZ.06 Laboratory Measurements of
Droplets Generated by Breaking Water
Waves D. Wang, X. Liu, J. Duncan
CY.06 Dynamics of surfactant-laden
lenses D. Beacham, G. Karapetsas,
R. Craster, O. Matar
CX.06 Dynamic Surface and
Flow-Field Measurements of a Pitching
Wind Turbine Blade J. Strike,
M. Singh, M. Hind, J. Naughton
CW.06 Transition to turbulence in
shock-accelerated flows without
reshock M. Lombardini, D. Pullin,
D. Meiron, R. Gore
CC.07 Adaptive wall functions for
CC.08 Two-Equation Turbulence
moving walls using the k-ω turbulence Model Predictions of Transition in
model J. Axerio-Cilies, G. Iaccarino
Buoyancy- and Shock-Driven Flows
B. Johnson, O. Schilling
CD.07 Shape Optimization for Drag
Reduction in Linked Bodies using
Evolution Strategies and the Hybrid
Wavelet Collocation - Brinkman
Penalization Method O. Vasilyev,
M. Gazzola, P. Koumoutsakos
CE.07 Boundary-layer transition over
aerodynamically-significant rotating
bodies S. Garrett, Z. Hussain,
A. Barrow, P. Towers
CF.07 The types of boundary
conditions in the secondary capillary
flow and liquid distribution
B. Markicevic, H. Navaz
CG.04 Computational Investigations of Gravity and Turbidity Currents
E. Meiburg
CH.07 Symmetry-breaking
bifurcations of central forced and
heated convection in a spherical fluid
shell L. Tuckerman, F. Feudel,
K. Bergemann, C. Egbers, B. Futterer,
M. Gellert, R. Hollerbach
CJ.07 Interaction of a
circumferentially varying stator row
upstream of a propeller in a uniform
flow J. Farnsworth, M. Amitay, D. Beal,
S. Huyer
CK.07 Energy Transfer into
Cross-Waves by Wavemakers
T. Krasnopolskaya, V. Meleshko,
V. Spektor
CC. Turbulence Modeling II
Room: 102A
Chair: G. Araya, Swansea U. UK
CD. CFD: Algorithms II
Room: 102B
Chair: J. Nave, Massachusetts Institute
of Technology
CE. Instability: Boundary
Layers II
Room: 102C
Chair: X. Wu, Royal Military College of
Canada
CF. Porous Media II
Room: 103A
Chair: B. Markicevic, Kettering U.
CG. Mini-Symposium on
Computational Strategies for
the Simulation of Nonlinear
Waves and Turbulence in
Environmental Flows
Room: 103B
Chair: P. Diamessis, Cornell U.
CH. Convection and
Buoyancy Driven Flows II
Room: 103C
Chair: C. Caulfield, U. of Cambridge
CJ. Flow Control II
Room: 201A
Chair: P. Lavoie, U. of Toronto
CK. Free Surface Flows:
Macro-Scale Phenomena
Room: 201B
Chair: G. Peng, Corning Inc.
CK.08 Experimental Study of Free
Surface Magnetohydrodynamic Flow
J. Rhoads, E. Edlund, P. Sloboda,
E. Spence, H. Ji
CJ.08 Experimental investigations on
the drag reduction mechanism of
outer-layer vertical blades array
I. Lee, N. An, K. Choi, H. Chun
CH.08 Natural convection of a
rotating-fluid sphere with axial gravity
and uniform heat source G. Anguiano,
R. Avila, S. Atluri
CF.08 Modeling of Wormhole Growth
in Porous Media Using the Material
Point Method (MPM) B. Jayaraman,
D. Zhang, B. VanderHeyden
CE.08 The centrifugal instability of
the boundary layer on a slender
rotating cone in a forced free-stream
Z. Hussain, S. Garrett, S. Stephen
CD.08 Xwing: A 3D Viscous Design
Tool for MAVs D. Gipe, K. Mohseni
CB.07 Non-Local Geometry of High CB.08 Time-resolved PIV in fully
Reynolds Number Wall-Bounded
developed turbulent pipe flow
Turbulence using Tomographic Particle L. Hellström, A. Sinha, A. Smits
Image Velocimetry C. Atkinson,
M. Stanislas, J. Soria
14:31
CA.08 Measurements of 3D velocity
and scalar field for a film-cooled airfoil
trailing edge M. Benson, C. Elkins,
J. Eaton
CB. Turbulent Boundary
Layers II
Room: 101B
Chair: H. Jin Sung, KAIST
14:18
CA.07 Flow around finite-size
neutrally buoyant Lagrangian particles
in fully developed turbulence
M. Gibert, S. Klein, A. Bérut,
E. Bodenschatz
CA. Turbulent Mixing II
Room: 101A
Chair: N. Ouellette, Yale U.
Session
14:57
CF.10 Pore-scale Modeling of
Transport Phenomena in a Vanadium
Redox Battery using X-ray Tomography
and the Lattice Boltzmann Method
A. Joshi, E. Kumbur, Y. Sun
CE.10 Influence of a recent
Transition Model on Complex
Nonsteady Boundary Layer Flows with
Dynamic Stall and Multiple Phases
A. Lavely, M. Kinzel, G. Vijayakumar,
J. Brasseur, E. Paterson, J. Lindau
CC.10 Reproducing second order
statistics of turbulent flows using
linearized Navier-Stokes equations
with forcing M. Jovanovic, T. Georgiou
CB.10 Dynamic Perturbation of a
Turbulent Boundary Layer and
Experimental Identification of
Critical-Layer-Type Behavior I. Jacobi,
B. McKeon
52
CK.09 Experimental investigation of
orbitally shaken bioreactor
hydrodynamics M. Reclari, M. Dreyer,
M. Farhat
CJ.09 Benefits of Active Flow Control
for Wind Turbine Blades G. Wang,
B. Elhadidi, J. Walczak, M. Glauser,
H. Higuchi
CH.09 Finite-size effects lead to
supercritical bifurcations in turbulent
rotating Rayleigh-Bénard convection
S. Weiss, R. Stevens, J. Zhong,
H. Clercx, D. Lohse, G. Ahlers
CJ.10 Characterizing rotor stator
interaction (RSI) using CFD and
experimentally obtained wake flow
fields M. Kjeldsen, P. Finstad,
R. Arndt
CH.10 Rotating Rayleigh-Benard
convection in a cylindrical cell with
aspect ratio two J. Overkamp,
R. Stevens, D. Lohse, H. Clercx
CG.05 High resolution simulations of turbulent flows in open-channels
T. Stoesser
CF.09 High-performance Integrated
numerical methods for Two-phase Flow
in Heterogeneous Porous Media
C. Chueh, N. Djilali, W. Bangerth
CE.09 Sidewall boundary layer
instabilities in a rapidly rotating cylinder
driven by a differentially co-rotating lid
J. Lopez, F. Marques
CD.09 A Poisson-Boltzmann solver
on Non-Graded Adaptive Grid with
Robin boundary conditions on Irregular
Domains A. Helgadottir, F. Gibou
CC.09 Bayesian Calibration and
Comparison of RANS Turbulence
Models for Channel Flow T. Oliver,
R. Moser
CB.09 Proper orthogonal
decomposition of a decelerating
turbulent boundary layer M. Tutkun
CA.09 Coupled Velocity and Cooling CA.10 The highly excited confined
Effectiveness Measurements of a Film mixing layer W. Zhao, G. Wang
Cooling Hole With Varied Blowing
Rates and Ejection Angles
E. Issakhanian, C. Elkins, J. Eaton
14:44
15:10
Refreshment Break, 15:10–15:30
Promenade Ballroom
CM.07 Amplification of the
electroosmotic velocity by induced
charges at fluidic interfaces
C. Steffes, T. Baier, S. Hardt
CN.07 How Do 3D Vortices Spin
CN.08 Control of vortex breakdown
Down, or Do They? P. Hassanzadeh, in a contracting pipe F. Gallaire,
S. Pei, P. Marcus
P. Meliga
CP.07 Nanofluid heat transfer
enhancement in a developing laminar
shear flow J. Liu
CQ.07 Acceleration of swimming
bacteria at “zero” Reynolds number
J. Kessler, L. Cisneros, S. Ganguly,
R. Goldstein
CR.07 How Do Droplets Acquire
Charge? W. Ristenpart, B. Hamlin
CS.07 An evaporation model of
multicomponent solution drops
S. Sartori, A. Liñán, J. Lasheras
CT.07 Could gastropods crawl using CT.08 Concertina locomotion of
Newtonian mucus? J. Lai,
snakes H. Marvi, D. Hu
M. Vazquez-Torres, J. del Alamo,
J. Rodriguez-Rodriguez, J. Lasheras
CU.07 A volume-of-fluid interfacial
flow solver with advected normals
M. Raessi, J. Mostaghimi,
M. Bussmann
CV.07 Settling of finite-size colliding
particles in unbounded domains
J. Simeonov, J. Calantoni
CM. Microfluids: General II
Room: 202B
Chair: V. Alvarado, U. of Wyoming
CN. Vortex Dynamics and
Vortex Flows II
Room: 202C
Chair: B. Protas, McMaster U.
CP. Nanofluids II
Room: 203A
Chair: J. Posner, Arizona State U.
CQ. Biolocomotion I:
Micro-swimming I
Room: 203B
Chair: J. Buchholz, U. of Iowa
CR. Drops II
Room: 203C
Chair: C. Chen, Duke U.
CS. Drops III: Evaporation
Chair: J. Saylor, Clemson U.
CT. Biolocomotion II:
Slithering, Crawling and
Undulatory Swimming
Chair: A. Lang, U. of Alabama
CU. Multiphase Flows II
Room: Regency A
Chair: M. Soteriou, United
Technologies
CV. Particle Laden Flows II
Room: Regency B
Chair: T. O’Hern, Sandia National
Laboratories
14:31
14:44
CV.08 Gravity influence on the
clustering of charged particles in
turbulence J. Lu, H. Nordsiek,
R. Shaw
CU.08 Numerical simulation of
two-phase flows in complex geometries
by combining two different
immersed-boundary methods B. Yin,
H. Luo
CS.08 Deposition of bi-dispersed
particles in inkjet-printed evaporating
colloidal drops Y. Sun, A. Joshi,
V. Chhasatia
CR.08 Formation and Electrically
Induced Reversal of “Dynamic”
Stagnant Caps B. Hamlin,
W. Ristenpart
CQ.08 Teaching Stokesian
Dynamics to Swim J. Swan, J. Brady
CP.08 A multiscale model for
nanoparticle binding dynamics under
shear flow Y. Liu, J. Tan
CM.08 Dynamics of the Liquid
Meniscus in Micropillar Arrays
R. Xiao, R. Enright, E. Wang
14:57
CL.10 Contraction-driven Mixing and
Absorption in the Intestine with a 3D
lattice-Boltzmann Model B. Gino,
J. Brasseur, Y. Wang
53
CV.09 Dust Settling in Protoplanetary
Disks and the Onset of
Kelvin-Helmholtz Instability
J. Barranco, A. Lee, E. Chiang,
P. Marcus, X. Asay-Davis
CU.09 Multi-scale modeling of
compressible multi-fluid flow with
sharp-interface method X. Hu,
N. Adams
CT.09 Comparison of physical,
numerical and resistive force models of
undulatory locomotion within granular
media D. Goldman, R. Maladen,
Y. Ding, P. Umbanhowar
CS.09 Evaporation of a sessile
droplet: Inside the coffee stain
A. Hoang, G. Berteloot, A. Daerr,
P. Kavehpour, F. Lequeux, L. Limat
CR.09 Particle-particle Interactions
on the Surface of a Drop Subjected to a
Uniform Electric Field S. Nudurupati,
M. Janjua, P. Singh, N. Aubry
CQ.09 Numerical simulations of
microscale steady streaming using
viscous vortex particle method
K. Chong, J. Eldredge
CP.09 Evanescent wave based
near-wall thermometry utilizing
Brownian motion K. Anoop,
R. Khader, R. Sadr
CV.10 Dispersion of a cloud of
particles in the accelerated flow behind
a moving shock G. Jacobs,
T. Dittmann, W. Don
CU.10 Multiscale Issues in DNS of
Multiphase Flows G. Tryggvason,
S. Thomas, J. Lu, B. Aboulhasanzadeh
CS.10 Deposits of drying drops of a
nanotube suspension M. Vargas,
C. Limon, O. Sarmiento,
G. Hernandez-Cruz, E. Ramos,
M. Rincon
CQ.10 Flow shear induced
cross-stream migration by a green alga
A. Chengala, M. Hondzo, J. Sheng
CP.10 Hybrid Continuum and
Molecular Modeling of Nano-scale
Flows A. Povitsky, S. Zhao
CN.09 Structure of a Steady Bathtub CN.10 Vortex Behavior in
Vortex A. Andersen, L. BØhling,
Fully-Oscillating Low-Speed Jet Flows
D. Fabre
P. Jones, J. Baker
CM.09 Disjoining pressure in thin
liquid films on charged structured
surfaces C. Ketelaar, V. Ajaev
CL.08 Peristaltic pumping in an
CL.09 Micro-Macro Scale Mixing
elastic tube: feeding the hungry python Interactions by Intestinal Villi Enhance
D. Takagi, N. Balmforth
Absorption: a 3D Lattice-Boltzmann
Model Y. Wang, J. Brasseur, G. Banco
14:18
CL.07 Patterns in Clam Excurrent
Siphon Velocity According to External
Environmental Cues D. Webster,
S. Delavan
Session
CL. Biofluids: Physiological
Feeding
Room: 202A
Chair: S. Shadden, IIT
15:10
Promenade Ballroom
CY.07 Surfactant-induced
superspreading of liquid drops on solid
substrates G. Karapetsas, R. Craster,
O. Matar
CZ.07 Effects of Rotation on Internal CZ.08 Self-induced shear
CZ.09 The benthic boundary layer
Solitary Waves K. Helfrich,
instabilities by large amplitude internal under fully-nonlinear internal solitary
R. Grimshaw, T. Johnson
waves C. Viotti, R. Camassa, R. Tiron waves of depression Y. Lin,
L. Redekopp
CZ. Waves II
Room: Regency F
Chair: W. Phillips, Swinburne U. of
Technology, Australia
14:57
CW.10 Effect of initial conditions on a
high Schmidt-number Rayleigh-Taylor
mixing layer L. Mutnuri, A. Banerjee
CY.08 Dynamics of surfactants
spreading on gel layers: cracking and
pattern formation C. Spandagos,
S. Akhtar, P. Luckham, O. Matar
54
CY.09 Gravitational stabilization of
the interfacial surfactant-induced
instability of shear flows A. Schweiger,
A. Frenkel, D. Halpern
CY.10 Long-wavelength Marangoni
convection in liquid layer with insoluble
surfactant in modulated thermal field
A. Mikishev, A. Nepomnyashchy
CX.08 The aerodynamics of jumping CX.09 Numerical Investigations of a CX.10 On the skin friction drag
rope J. Aristoff, H. Stone
Wall Jet with Tabs H. Rahai,
reduction in large wind turbines using
C. Orrala, H. Hoang
sharp V-grooved riblets. Application to
a 2.5 MW Clipper wind turbine section
R. Arndt, L. Chamorro, F. Sotiropoulos
CY. Instability: Interfacial and
Thin Film II
Room: Regency E
Chair: D. Vella, U. of Cambridge
14:44
CW.09 On Initial Conditions for
Turbulent Rayleigh-Taylor Mixing
B. Rollin, M. Andrews
CX.07 A Free Wake Numerical
Simulation for Darrieus Vertical Axis
Wind Turbine Performance Prediction
R. Belu
14:31
CW.08 The effects of initial
conditions on single and two-mode
Rayleigh-Taylor instability T. Wei,
D. Livescu, M. Andrews
CX. Aerodynamics II
Room: Regency D
Chair: S. Yarusevych, U. of Waterloo
14:18
CW.07 The Effect of Eccentricity on
the Stability of Spiral Flows
P. Valsecchi
CW. Instability: RichtmyerMeshkov/Rayleigh-Taylor II
Room: Regency C
Chair: K. Prestridge, Los Alamos
National Laboratory
Session
15:10
Promenade Ballroom
Mini Break
16:05 – 16:10
55
Invited Session DT
15:30 – 16:05, Grand Ballroom B
Chair: Kenny Breuer, Brown University
Fluid Simulation In The Movies: Navier And Stokes Must Be Circulating In Their Graves Jerry Tessendorf, Rhythm and Hues Studios
Invited Session DS
15:30 – 16:05, Grand Ballroom A
Chair: Anette Peko Hosoi, Massachusetts Institute of Technology
Particle Laden Viscous Fluids And The Gulf Of Mexico Oil Spill Andrea Bertozzi, UCLA
EE.01 Comparison of linear and
nonlinear optimal perturbation transient
growth in plane Couette flow
S. Rabin, C. Caulfield, R. Kerswell
EF.01 Ionic transport
characterization of carbon-based
porous materials C. Rios-Perez,
M. Sweeney, R. Kanapuram,
A. Chhabra, J. Bowman, C. Hidrovo
EG.01 Downwelling in Boundary
Currents Subject to Buoyancy Loss
C. Cenedese
EH.01 Direct Actuation of
Small-Scale Motions for Enhanced
Heat Transfer in a Straight Channel
P. Hidalgo, A. Glezer
EJ.01 A
EJ.02 Active control of vortex
proportional-integral-differential control induced vibrations for flow past a
of flow over a circular cylinder D. Son, circular cylinder M. Sridhar, B. Patnaik
S. Jeon, H. Choi
EE. Instability and
Turbulence: Couette and
Channel Flow
Room: 102C
Chair: M. Khashehchi, U. of Melbourne
EF. Porous Media III
Room: 103A
Chair: R. Juanes, Massachusetts
EG. GFD: Oceanography II
Room: 103B
Chair: J. Yu, North Carolina State U.
EH. Convection and
Buoyancy Driven Flows III
Room: 103C
Chair: R. Griffiths, The Australian
National U.
EJ. Flow Control III
Room: 201A
Chair: T. Bewley, U. of California, San
Diego
EK. Acoustics I: Shear Flows EK.01 Investigation of the Near-Field
Acoustic Properties of Supersonic Jets
Room: 201B
with Fluidic Enhanced Chevrons using
Chair: M. Wang, U. of Notre Dame
Large-Eddy Simulations J. Liu,
K. Kailasanath, R. Ramamurti,
N. Heeb, D. Munday, E. Gutmark
ED.01 Effect of Surface Roughness ED.02 Turbulence modification by
on heat transfer in a Turbulent Channel stable stratification in channel flow
Flow S. Leonardi, B. Cruz Perez,
M. Garcia-Villalba, J. del Alamo
J. Lucena
ED. Turbulence Simulations I
Room: 102B
Chair: C. Lee, Yonsei U.
EE.03 Streamwise vortices in shear
flows: harbingers of transition and the
skeleton of coherent structures
S. Sherwin, P. Hall
EK.02 Non-linear parabolized
stability equation (NPSE) models for
predicting large-scale mixing noise of
turbulent round jets A. Samanta,
K. Gudmundsson, T. Colonius
EH.02 Influence of
temperature-dependent fluid properties
on heat transfer in turbulent channel
flow A. Soldati, F. Zonta, C. Marchioli
EK.05 Identifying Lighthill source
term with large-eddy simulation of
subsonic turbulent jet H. Lee,
A. Uzun, M. Hussaini
EJ.05 Local flow control for active
building facades S. Kaligotla,
W. Chen, M. Glauser
EH.05 Three-dimensional extraction
and analysis of thermal plumes in
turbulent Rayleigh-Bénard convection
M. Kaczorowski, O. Shishkina, K. Xia
EG.04 Turbulent Mixing Efficiency in EG.05 Multiple-Scale Asymptotics for
Stratified Couette Taylor Flow
Oceanic Fluid Dynamics: Coupled
B. Rodenborn, G. Ebert, H. Swinney
Planetary- and Quasi-Geostrophic
Equations I. Grooms, K. Julien,
B. Fox-Kemper
EH.04 Natural Convection in a Slot
Subject to a Spatially Distributed
Heating M. Hossain, J. Floryan
ED.06 POD Study of Turbulent
Boundary Layer Structures J. Baltzer,
R. Adrian, X. Wu
EC.06 Eddy-Based Model for
Wall-Bounded Turbulent Flows
B. Rosenberg, A. Smits, S. Bailey
EB.06 Hairpin vortices in the
transitional and developed turbulence
of a flat-plate boundary layer*
J. Wallace, X. Wu, I. Park, P. Moin
17:15
EK.06 Effects of heating and Mach
number on global modes of high-speed
jets J. Nichols, S. Lele
EJ.06 A Closed-loop Suction Flow
Control Study over a Pitching Turret
R. Wallace, P. Shea,
V. Thirunavukkarasu, R. Schmit,
H. Carlson, M. Glauser
EH.06 Prandtl-Blasius temperature
and velocity boundary layer profiles in
turbulent Rayleigh-Benard convection
K. Xia, Q. Zhou, R. Stevens,
K. Sugiyama, S. Grossmann, D. Lohse
EG.06 Evaluation of turbulent Prandtl
(Schmidt) number parameterizations
for stably stratified turbulent flows
Z. Elliott, S. Venayagamoorthy
EF.06 DNS of inertial flows in porous
media: Assessment of mesh quality
and resolution J. Finn, S. Apte,
B. Wood
EE.05 Vorticity Fluctuations in Plane EE.06 Nonlinear stability, bifurcation
Couette Flow J. Ortiz De Zarate,
and resonance in granular plane
Couette flow P. Shukla, M. Alam
J. Sengers
EF.04 Quantitative Visualization of
EF.05 Wicking/absorption of a liquid
Water Distribution in an Operating
droplet into nano-porous fibers
Polymer Electrolyte Fuel Cell S. Kim, G. Callegari, J. Qi, A. Ribaudo
S. Lee
EE.04 Critical layer structure in
transitional Couette flows
H. Blackburn, P. Hall, S. Sherwin
EK.03 Adjoint-based minimization of EK.04 Effect of roughness shape on
the sound radiated by a Mach 1.3
rough-wall boundary-layer noise
turbulent jet J. Kim, D. Bodony,
Q. Yang, M. Wang
J. Freund
56
EB.05 Comparison of turbulence in a
transitional boundary layer to
turbulence in a developed boundary
layer* G. Park, J. Wallace, X. Wu,
P. Moin
ED.04 Use of POD to Investigate
ED.05 Coherent Structures in the
Large-Scale Structures in Turbulent
Flow over Two-Dimensional Dunes
Flow with Rib-Roughness M. Samani, M. Omidyeganeh, U. Piomelli
D. Bergstrom
EJ.03 The Hydrodynamic Cart-Pole: EJ.04 Shape Optimization of
Experiments in Machine Learning and Micro-Magnetic Locomotors
Control of Fluid-Body Interactions
E. Keaveny, S. Walker, M. Shelley
J. Roberts, J. Steinhardt, S. Spagnolie,
R. Tedrake
EH.03 Viscous Lock-Exchange in
Rectangular Cells: Calculation and
Experiments D. Salin, J. Martin,
N. Rakotomalala, L. Talon
EG.02 Diffusion-limited settling of
EG.03 LES of turbulent stratified
porous particles in a stratified fluid
flows on shallow continental shelves
K. Kindler, B. Liu, R. Stocker, A. Khalili G. Martinat, A. Tejada-MartÍnez,
C. Grosch
EF.02 Two phase flow in a porous
EF.03 Dynamics of poroelastic foams
Hele-Shaw cell J. Luviano, E. Ramos, Y. Forterre, B. Sobac
G. Hernandez-Cruz,
A. Hernandez-Guerrero
EE.02 Streamwise vortices in shear
flows: Stability of the lower branch
states in Couette flow P. Hall,
S. Sherwin
ED.03 DNS of multiscale-generated
turbulence J. Vassilicos, S. Laizet
EC.02 Investigation of Subgrid-Scale EC.03 Characterization of the flow on
Turbulence in the Atmospheric Surface the axis of two confined-opposed-jets
Layer using AHATS Field Data
J. Krawczynski, L. Danaila, B. Renou
K. Nguyen, S. Oncley, T. Horst,
P. Sullivan, C. Tong
17:02
EA.03 An Overview of Aero-Optics E. Jumper
EC.04 Scale-by-scale energy budget EC.05 Streamwise-constant model
equations for large-eddy simulations
of intermittent turbulent pipe flow
M. Gauding, J. Goebbert, R. Flesch,
J. Bourguignon, B. McKeon
C. Guenther, N. Peters
EC.01 Study of the Invariants of the
Velocity-Gradient Tensor in
Homogeneous Isotropic Turbulence by
means of 3C-3D Tomographic PIV
N. Buchmann, S. Rouvier, J. Soria
EC. Turbulence Modeling III
Room: 102A
Chair: O. Vasilyev, U. of Colorado
EB.02 Scaling and interactions of
inner and outer regions in
wall-bounded turbulence R. Mathis,
N. Hutchins, I. Marusic
EB.03 Time-resolved evolution of the EB.04 Direct simulation of the
wall-bounded vorticity cascade
zero-pressure-gradient boundary layer
A. Lozano-Durán, J. Jiménez
up to Reθ = 6000 J. Sillero,
G. Borrell, A. Gungor, J. Jiménez,
R. Moser, T. Oliver
16:49
EB.01 Understanding and
quantifying wall-turbulence: a new
closure approach Z. She, X. Chen,
Y. Wu, F. Hussain
16:36
EB. Turbulent Boundary
Layers III
Room: 101B
Chair: D. R. Dowling, U. of Michigan
16:23
EA.02 Remote Sensing of Sound Speed in the Ocean via Brillouin
Scattering E. Fry
16:10
EA. Mini-Symposium on
EA.01 Temperature spectra and the light beam depolarization in laboratory
Optical Effects of Turbulence Rayleigh-Benard convection with the Rayleigh number between 108 to
5 · 109 D. Bogucki
Room: 101A
Chair: D. Bogucki, Texas A&M Corpus
Christi
Session
EP.01 Atomistic-continuum hybrid
simulations for nano-scale flows
P. Kulkarni, G. Tomar, C. Fu, M. Shell,
L. Leal
EQ.01 The random walk of a
low-Reynolds-number swimmer
S. RafaÏ, M. Garcia, S. Berti, P. Peyla
ER.01 Tuning of the droplet motion in ER.02 Experimental and numerical
interconnected microfluidic devices
visualization of the recirculation flow
inside a gas flow-focused liquid
G. Hu, K. Song, L. Zhang
meniscus M. Torregrosa, C. Ferrera,
A. Ganan-Calvo, M. Herrada,
M. Marchand
ES.01 Dynamics of water droplet on ES.02 Spreading and breakup of a ES.03 Droplets on shallow grooved
a superhydrophobic carbon nanotube compound drop over a partially wetting hydrophobic surfaces O. Bliznyuk,
array A. Aria, C. Shu, A. Ghosh,
substrate J. Feng, P. Gao
V. Veligura, S. Kooij, B. Poelsema
M. Gharib
ET.01 Small, sleek, and in control:
The body plan, sensory-neural control,
and flight stability of insects
L. Ristroph, A. Bergou,
J. Guckenheimer, Z. Wang, I. Cohen
EU.01 Predicting Biomass
Fluidization through Appropriate
Modeling of Initial Conditions
F. Battaglia, J. England, S. Kanholy,
M. Deza
EV.01 Particle-resolved simulation of
turbulence modification by large
particles with high inertia
M. Mehrabadi, S. Tenneti,
S. Subramaniam
EP. Nanofluids III
Room: 203A
Chair: X. Xuan, Clemson U.
EQ. Biolocomotion III:
Micro-swimming II
Room: 203B
Chair: P. Arratia, U. of Pennsylvania
ER. Drops IV
Room: 203C
Chair: A. Anilkumar, Vanderbilt U.
ES. Drops V
Chair: A. Aliseda, U. of Washington
ET. Biolocomotion IV:
Morphology of Flying and
Swimming
Chair: J. Peng, U. of Alaska Fairbanks
EU. Multiphase Flows III
Room: Regency A
Chair: F. Toschi, Technische
Universiteit Eindhoven
EV. Particle Laden Flows:
Simulations I
Room: Regency B
Chair: A. Ferrante, U. of Washington
EV.02 Particle–resolved direct
numerical simulation of heat transfer in
gas–solid systems S. Tenneti, B. Sun,
S. Subramaniam
EU.02 Numerical study of impact of
evaporation on liquid jet in cross-flow
M. Soteriou, X. Li, M. Arienti
ET.02 Drag Measurements over
Embedded Cavities Modeled after
Butterfly Scales in Low Reynolds
Number Couette Flow R. Jones,
A. Lang
EQ.02 Jump if you can’t take the
heat: three escape gaits of
Paramecium swimming C. Baroud,
A. Hamel, C. Fisch, L. Combettes,
P. Dupuys-Williams
EP.02 Molecular dynamics simulation
of non-Newtonian phenomena and
shear-induced structural changes in
atomic fluids X. Yong, L. Zhang
EN.02 Motion of a vortex ring with
swirl M. Cheng, J. Lou, T. Lim
EN.01 The stability of a family of
vortex rings C. O’Farrell, J. Dabiri
16:49
EL.04 Airflow Simulation and Particle
Deposition in a 3D Rat Lung Model
J. Oakes, S. Shadden, C. Darquenne,
A. Marsden
17:02
57
EV.03 Heat and mass transfer past
ordered and random arrays of
monodisperse spheres B. Sun,
S. Tenneti , R. Garg, S. Subramaniam
EU.03 Characterization of primary
atomization mechanism of straight
liquid jets J. Shinjo, A. Umemura
ET.03 The Effect of Wing Scales on
Monarch Butterfly Flight
Characteristics A. Shaw, R. Jones,
A. Lang
ER.03 Paramagnetic Leidenfrost
Drops K. Piroird, B. Darbois Texier,
C. Clanet, D. Quere
ES.05 The effect of contact angle
hysteresis on droplet motion and
collisions on superhydrophobic
surfaces M. Nilsson, J. Rothstein
ER.05 Thermocapillary droplet flow
parallel to a fluid-fluid interface
E. Greco, R. Grigoriev
EV.04 Is Stokes number an
appropriate indicator for turbulence
modulation by particles of
Taylor-length-scale size? F. Lucci,
A. Ferrante, S. Elghobashi
EU.04 Modeling and simulation of
primary atomization with phase
transition P. Zeng, B. Binninger,
N. Peters, H. Pitsch, M. Herrmann
EN.06 Interaction of a Vortex Ring
with Surfaces of Constant Porosity
J. Hrynuk, D. Bohl
EM.06 Droplet and Slug Detachment
and Entrainment in Microchannel Gas
Flows B. Robinson, B. Carroll,
C. Hidrovo
ET.06 The Performance of
Finite-span Hydrofoils with Humpback
Whale-like Leading Edge
Protuberances D. Custodio,
C. Henoch, H. Johari
ES.06 Wetting and Dewetting on
Superhydrophobic Surfaces with
Two-Tier Roughness J. Boreyko,
C. Chen
ER.06 A scaling theory for the
hydrodynamic interaction between a
pair of vesicles or capsules L. Leal,
A. Ramachandran
EQ.06 Digital Holographic Study of
the Swimming Characteristics of
Prorocnetrum minimum (Dinophyceae)
M. Sohn, K. Seo, S. Lee
EV.05 Direct numerical simulation of
dense particle-laden flows Investigation of the forces acting on the
particles P. Pepiot, O. Desjardins
EV.06 Direct numerical simulation of
flow including dense solid particles
having microscopic arrangements
T. Wakamatsu, T. Tsuji, H. Yada,
T. Tanaka
EU.05 Analysis of Column Instability EU.06 Droplets dynamics and
Modes in Liquid Jet in Crossflow
breakup in turbulent flows F. Toschi,
Atomization S. Ghods, M. Arienti,
L. Biferale, P. Perlekar, M. Sbragaglia
M. Soteriou, M. Herrmann
ET.04 Explanation of the effects of
ET.05 Hydrodynamics of penguin
leading-edge tubercles on the
wing models F. Noca, N. Duong,
aerodynamics of airfoils and finite
J. Herpich
wings M. Saadat, H. Haj-Hariri, F. Fish
ES.04 Effects of the Secondary
Length Scale on Hierarchical
Superhydrophobic Surfaces Fabricated
by Double-Layer Electron Beam
Lithography J. Feng, J. Rothstein
ER.04 Generation of Single,
Monodisperse Compound Droplets
J. Black, G. Neitzel
17:15
EL.06 Unsteady Simulation of a
Human Respiratory System with
Micron-Particles S. Taherian,
H. Rahai, T. Waddington
EP.05 Multiscale analysis of structure EP.06 Origin of line tension for a
of confined simple fluids T. Sanghi,
Lennard-Jones nanodroplet J. Weijs,
N. Aluru
A. Marchand, J. Snoeijer, B. Andreotti,
D. Lohse
EN.05 Vortex Ring Dynamics in
Radially Confined Domains
K. Stewart, C. Niebel, S. Jung,
P. Vlachos
EM.05 An examination of collisional
Lattice Boltzmann Method for
microchannel flows B. Green,
P. Vedula
EL.05 Numerical investigation of
aerosolized drug delivery in the human
lungs under mechanical ventilator
conditions T. Vanrhein, A. Banerjee
EQ.03 Ciliary locomotion in presence EQ.04 Collective beating of artificial EQ.05 Optimal swimming of model
of boundaries S. Jana, S. Um, S. Jung microcilia arrays D. Bartolo, N. Coq, ciliates S. Michelin, E. Lauga
O. Du Roure, M. Fermigier, S. Ngo
EP.03 A Long-Range Electric Field EP.04 A New Approach in
Solver for Molecular Dynamics of
Processing Atomistic Simulations
Fluid-Solid Interfaces Based on
L. Grinberg, G. Karniadakis
Atomistic-to-Continuum Modeling
J. Templeton, R. Jones, J. Zimmerman,
B. Wong, J. Lee
EN.03 Effect of a ground plane on a EN.04 Convection of a Vortex Ring
turbulent vortex ring trajectory
Parallel to a Plane Wall V. O’Loughlin,
M. Beninati, M. McErlean, M. Krane,
D. Bohl
A. Fontaine
EM.03 The Effect of Aspect Ratio on EM.04 Dynamics of pulsatile flows
Taylor Dispersion in Oscillatory
through elastic microtubes O. San,
Poiseuille Flow in Rectangular
A. Staples
Channels J. Lee, E. Kulla, A. Tripathi,
A. Chauhan
EN. Vortex Flows: Vortex
Rings
Room: 202C
Chair: P. Newton, U. of Southern
California
16:36
EL.03 Stability analysis of the
pulmonary liquid bilayer. D. Halpern,
J. Grotberg
EM.01 Taylor-Aris dispersion in
EM.02 Designing patterned
time-dependent laminar channel flows microchannels to separate
S. Vedel, H. Bruus
colloid-polymer suspensions
H. Masoud, A. Alexeev
16:23
EL.02 Newtonian to non-Newtonian
flow transition in lung surfactants
A. Sadoughi, A. Hirsa, J. Lopez
EM. Microfluids: General III:
Microchannels
Room: 202B
Chair: E. Wang, Massachusetts
16:10
EL.01 Regional airflow and particle
distribution in the lung with a 3D-1D
coupled subject-specific boundary
condition J. Choi, Y. Yin, E. Hoffman,
M. Tawhai, C. Lin
EL. Biofluids: Physiological
Respiratory
Room: 202A
Chair: M. Plesniak, George
Washington U.
Session
16:10
EW.01 An experimental study of the
turbulent development of
Richtmyer-Meshkov instability prior to,
and following, reshock J. Jacobs,
O. Likhatchev, V. Tsiklashvili
EX.01 Time-dependent
measurements over membrane plates
at low Reynolds number J. Hubner,
K. Scott, A. Timpe, L. Ukeiley
EY.01 Surface temperature
reconstruction based on the
thermocapillary effect M. Sellier,
S. Panda
EZ.01 Subcritical Transition and
Spiral Turbulence in Taylor-Couette
Flow M. Burin, C. Czarnocki,
T. DaPron, K. McDonald
Session
EW. Instability: RichtmyerMeshkov/Rayleigh-Taylor III
Room: Regency C
Chair: D. Livescu, Los Alamos National
Laboratory
EX. Aerodynamics III
Room: Regency D
Chair: J. Bayandor, Virginia
Polytechnic Institute and State U.
EY. Instability: Interfacial and
Thin Film III
Room: Regency E
Chair: G. M. Homsy, U. of British
Columbia
EZ. Couette and Swirling
Flows
Room: Regency F
Chair: R. Lueptow, Northwestern U.
16:23
16:36
EW.03 Turbulence in reshocked
Richtmyer-Meshkov unstable fluid
layers B. Balakumar, G. Orlicz,
R. Ristorcelli, S. Balasubramanian,
K. Prestridge, C. Tomkins
16:49
EW.04 Simulation of Material Mixing
in Shocked and Reshocked
Gas-Curtain Experiments
A. Gowardhan, F. Grinstein
58
EZ.02 Torque scaling in turbulent
EZ.03 Turbulent scaling in rotating
Taylor-Couette flow with independently spherical Couette flow
rotating cylinders M. Paoletti,
D. Zimmerman, S. Triana, D. Lathrop
D. Lathrop
EY.02 Oscillatory surface patterns in EY.03 Influence of vibration on
a heated thin film of a binary mixture thermocapillary instability in a binary
mixture with Soret effect
M. Bestehorn
I. Fayzrakhmanova, S. Shklyaev,
A. Nepomnyashchy
17:02
17:15
EW.06 Sensitivity of Shock
Accelerated Multi-Component
Compressible Flows S. Shankar,
S. Lele
EY.05 Influence of Gas Rarefaction
on Thermocapillary Flow and Instability
in Confined Nanofilms N. Liu,
S. Troian
EZ.06 Enhanced Angular Momentum
Transport in Magnetized Spherical
Couette Flow M. Adams, D. Lathrop
EY.06 Thermocapillary convection in
a cylindrical liquid bridge – Effect of the
ambient gas M. Lukasser,
D. Lanzerstorfer, H. Kuhlmann
EX.05 Unsteady Aerodynamics on a EX.06 Stability Characteristics of
Pitching Plunging Flat Plate A. Hart, Low Reynolds Number, Low Aspect
L. Ukeiley
Ratio Wings M. Shields, K. Mohseni
EW.05 Modeling the
Richtmyer-Meshkov Instability through
Baroclinic Vorticity Production
C. Weber, R. Bonazza, A. Cook
EZ.04 Taylor–Couette–Poiseuille flow EZ.05 Precessional states in a
with a permeable inner cylinder
laboratory model of the Earth’s core
N. Tilton, D. Martinand, E. Serre,
S. Triana, D. Zimmerman, D. Lathrop
R. Lueptow
EY.04 Convection and evaporation
rate of planar liquid films subjected to
impulsive superheating J. Kimball,
J. Hermanson, J. Allen
EX.02 Low dimensional state-space EX.03 The Dynamics of Spanwise
EX.04 Flow Structure on Plates in
representations for classical unsteady Vorticity on a Rotating Blade in
Unsteady Motion T. Yilmaz,
aerodynamic models S. Brunton,
Unsteady Flow C. Wojcik, J. Buchholz D. Rockwell
C. Rowley
EW.02 Nonideal Effects in Single
Mode Richtmyer-Meshkov Instability
Shock Tube Experiments R. Morgan,
J. Jacobs, J. Greenough, W. Cabot
Session
17:28
17:41
ED.07 Development and Assessment ED.08 Coherent turbulent motions in
of Proper Orthogonal Decomposition a Mach 3 boundary layer I. Beekman,
for Analysis of Turbulent Flow in Piston Y. Kan, S. Priebe, P. Martin
Engines K. Liu, D. Haworth
ED. Turbulence Simulations I
Room: 102B
Chair: C. Lee, Yonsei U.
EC.09 The Role of the Algorithm in
the Design of LES to Capture
Law-of-the-Wall G. Vijayakumar,
J. Brasseur, M. Churchfield, A. Lavely,
P. Moriarty, M. Kinzel, E. Paterson
18:07
EK. Acoustics I: Shear Flows EK.07 Jet Noise Source
Parameterization Based on Far-Field
Room: 201B
Sound Intensity Distributions
Chair: M. Wang, U. of Notre Dame
D. Papamoschou
EJ.07 Feedback control of wall
turbulence for drag reduction with finite
spatial and temporal resolution
B. Frohnapfel, A. Stroh, Y. Hasegawa,
N. Kasagi
EJ. Flow Control III
Room: 201A
Chair: T. Bewley, U. of California, San
Diego
EJ.09 Control of vortex induced
vibrations by suction and blowing
K. Muralidharan, B. Patnaik
59
EK.08 Acoustics and Mean Flow of EK.09 The frequency spectrum of
Coaxial Jets with Variable Velocity and sound generated by turbulent shear
Area Ratios S. Rostamimonjezi,
flows G. He, X. Zhao, X. Zhang
D. Papamoschou
EJ.08 Direct simulation of a
separated boundary layer under the
influence of large-scale forcing.
A. Gungor, M. Simens, J. Jiménez
EK.10 Study of supersonic
components in high-speed turbulent
jets using wavenumber-frequency
domain filtering and POD J. Ryu,
S. Lele
EJ.10 Dissimilar control of
momentum and heat transfer in wall
turbulence with traveling wave-like wall
blowing and suction Y. Hasegawa,
N. Kasagi
EH.09 Experimental study of natural EH.10 Buoyancy-Induced Columnar
convection inside a differentially heated Vortices for Power Generation
enclosure with internal heat generation M. Simpson, A. Glezer
C. Butler, M. Geron, D. Newport
EH.07 Numerical Simulations of
Rapidly Rotating Convection with
Boundary Topography M. Calkins,
J. Noir, J. Eldredge, J. Aurnou
EH. Convection and
Buoyancy Driven Flows III
Room: 103C
Chair: R. Griffiths, The Australian
National U.
EH.08 Plumes and Fountains in a
Cross-Wind B. Sutherland,
A. Anderson-Frey, J. Ansong
EG.07 Response of a stable
EG.08 Bottom turbulence during
EG.09 Drift in sheared shallow water EG.10 Coherent structures in a
stratified jet to surface wind and
resonant generation of Internal waves waves W. Phillips, A. Dai, K. Tjan
stratified and rotating shear layer with
buoyancy forcing H. Pham, S. Sarkar at a critical slope B. Gayen, S. Sarkar
horizontal shear E. Arobone,
S. Sarkar
EG. GFD: Oceanography II
Room: 103B
Chair: J. Yu, North Carolina State U.
EF.10 Some Remarks on the flow of
Viscoelastic Fluids in Porous Media
P. Kaloni
EF.07 Pressure-driven flow in a
channel with porous walls Q. Liu,
A. Prosperetti
EF.08 Modeling Deformable Fibrous EF.09 Fingering Instabilities during
Media Using Direct Numerical
Capillary Imbibition into Paper
N. Young, B. Higgins, W. Ristenpart
Simulations I. Khan, C. Aidun
EC.10 Advances in the Design of
LES to Capture Law-of-the-Wall: Role
of the SFS Stress Model J. Brasseur,
S. Ramachandran, T. Wei
EB.10 Dynamic wall shear stress
measurements in a turbulent channel
flow O. Amili, J. Soria
EF. Porous Media III
Room: 103A
Chair: R. Juanes, Massachusetts
EE. Instability and
EE.07 Chaotic synchronization of the EE.08 Development of anisotropy in EE.09 A Critical Parameter of the
wall turbulence S. Tardu
a spanwise rotating channel S. Tardu, Transition to Localized Turbulence
Turbulence: Couette and
J. Baerenzung
J. Tao, H. Dou
Channel Flow
Room: 102C
Chair: M. Khashehchi, U. of Melbourne
EC.08 Modeling the convective and
pressure terms in finite-volume LES
with unresolved wall layers H. Chang,
R. Moser
EC.07 Simulation Wall-Bounded
Turbulent Flows with Linear Effective
Viscosity Models: Drag Reduction and
New Mechanistic Insight R. Wang,
C. Li, Y. Pan, B. Khomami
EC. Turbulence Modeling III
Room: 102A
Chair: O. Vasilyev, U. of Colorado
17:54
EA.05 Optical distortions by compressible turbulence: distortion measures
and importance of small-scale structures A. Mani
EB.08 Very large-scale motions in a EB.09 Multi-scale geometry of flow
turbulent boundary layer H. Sung,
structures in a flat-plate turbulent
J. Lee
boundary layer I. Bermejo-Moreno,
C. Atkinson, S. Chumakov, J. Soria,
X. Wu
EB.07 Transitional and turbulent
flat-plate boundary layers with heat
transfer X. Wu, P. Moin
EB. Turbulent Boundary
Layers III
Room: 101B
Chair: D. R. Dowling, U. of Michigan
EA. Mini-Symposium on
EA.04 Remote Sensing of Turbulence in Natural Fluids C. Gibson
Optical Effects of Turbulence
Room: 101A
Christi
19:00
18:20
Free Time, 18:20–19:00
F1. Reception, 19:00–22:00
Aquarium of the Pacific
EP.07 Contact line dynamics of
sessile nanofluid droplets under inert
and saturated atmospheres S. Jack,
K. Sefiane, P. Valluri, O. Matar
EQ.07 Oscillatory Flows Induced by
Swimming Microorganisms in
Two-dimensions J. Guasto,
K. Johnson, J. Gollub
ER.07 Sessile-drop oscillations fill a ER.08 Surface tension propulsion of ER.09 Spreading Dynamics of a
symmetry-breaking periodic table
fungal spores by use of microdroplets Droplet over a Superhydrophobic
J. Bostwick, P. Steen
X. Noblin, S. Yang, J. Dumais
Surface N. Bhole, C. Maldarelli
ES.07 Dynamic wetting and
hysteresis on superhydrophobic
surfaces: an experimental observation
of contact line motion A. Paxson,
K. Smyth, H. Kwon, K. Varanasi
EP. Nanofluids III
Room: 203A
Chair: X. Xuan, Clemson U.
EQ. Biolocomotion III:
Micro-swimming II
Room: 203B
Chair: P. Arratia, U. of Pennsylvania
ER. Drops IV
Room: 203C
Chair: A. Anilkumar, Vanderbilt U.
ES. Drops V
18:07
EL.10 Numerical Simulations of the
Propagation of a Liquid Plug through a
2D Airway Bifurcation B. Vaughan, Jr.,
J. Grotberg
60
EV.09 Tracking Rigid Spherical
Particles in Incompressible Flows via
Dissipative Hydrodynamics
B. Houchens, K. Davis, Y. Shi, A. Kim
EV.07 Particle Dispersal in Rapid
Expanding Gas Flow: Importance of
Unsteady Force and Heat Transfer
Y. Ling, A. Haselbacher,
S. Balachandar
EV. Particle Laden Flows:
Simulations I
Room: Regency B
Chair: A. Ferrante, U. of Washington
EV.08 Extension of
Basset-Boussinesq-Oseen and
Maxey-Riley Equations to
Compressible Flows M. Parmar,
A. Haselbacher, S. Balachandar
EU.08 Direct Numerical Simulation of EU.09 DNS of turbulent two-layer
Air Layer Drag Reduction over a
flows R. Zhvansky, P. Spelt
Backward-facing Step D. Kim, P. Moin
EU.07 Simulations of bubble
coalescence and breaking-up using
connectivity-free point-set front
tracking method with finite element
C. Wang, L. Zhang
EU. Multiphase Flows III
Room: Regency A
Chair: F. Toschi, Technische
Universiteit Eindhoven
ES.10 Deceleration-driven wetting
transition of “gently” deposited drops
on textured hydrophobic surfaces
K. Varanasi, H. Kwon, A. Paxson,
N. Patankar
EV.10 LBM Simulations of 3D
Peristaltic Transport with Particles
K. Connington, Q. Kang,
H. Viswanathan, S. Chen
EU.10 Interfacial flows in
micro-channels: flow regimes and
transitions M. Ahmadlouydarab,
P. Gao, J. Feng
ET.09 A Hydrodynamic Model of
ET.10 Flow Transport in Microtubes
Lateral Line of Fish for Vortex Sensing Inspired by Insect Respiratory Systems
Z. Ren
Y. Aboelkaasem, A. Staples
ET.08 Viscous to inertial pumping
transitions in a robotic gill plate array
M. Larson, K. Kiger
ES.09 Preferential Condensation of
Water Droplets Using Hybrid
Hydrophobic-Hydrophilic Surfaces
K. Varanasi, T. Deng, A. Paxson,
R. Dhiman
ER.10 High speed droplet
interactions with heated microtextured
surfaces M. Bergman, T. Kim,
C. Hidrovo
EQ.09 Numerical simulation of a
EQ.10 Is paramecium swimming
rotating elastic rod in a viscous fluid
autonomic? P. Bandyopadhyay,
using the immersed boundary method N. Toplosky, J. Hansen
R. Maniyeri, Y. Suh, S. Kang, M. Kim
EP.09 Separation of nanoparticles by EP.10 Spontaneous Imbibition
flow past a patterned substrate
Dynamics of an n-Alkane in
R. Zhang, J. Koplik
Nanopores: Evidence of Meniscus
Freezing and Monolayer Sticking
P. Huber, S. Gruener
ET. Biolocomotion IV:
ET.07 Why fishes have a fish shape
Morphology of Flying and
C. Eloy, L. Schouveiler
Swimming
Chair: J. Peng, U. of Alaska Fairbanks
ES.08 Droplet growth and
coalescence on nanostructured
surfaces during condensation
R. Enright, M. McCarthy, B. Hatton,
E. Wang
EQ.08 Swimming of a Microrobot
Actuated by a Clinical Magnetic
Resonance Imaging Apparatus
F. Gosselin, D. Zhou, V. Lalande,
M. Vonthron, S. Martel
EP.08 Optimization of Nanoparticle
Separation through Solid State
Nanopore P. Dutta, T. Jubery,
A. Prabhu, M. Kim
EN.08 Formation number of
EN.09 Vortex ring refraction at large EN.10 An experimental study on
positively and negatively buoyant
Froude numbers K. Kuehn,
merging of two co-axial co-rotating
vortex rings J. Satti, J. Peng
vortex rings J. RodrÍguez-RodrÍguez, M. Moeller, M. Schulz, D. Sanfelippo
C. Marugán-Cruz, C. MartÍnez-Bazán
EM.09 Effect of channel turn on the EM.10 Effect of surface condition on
trajectory of an electrophoretic particle the flow in segmented gas-liquid
D. House, H. Luo
microreactors S. Pouya,
M. Koochesfahani
EN.07 Vortex rings from Sphagnum
moss capsules D. Whitaker,
S. Strassman, J. Cha, E. Chang,
X. Guo, J. Edwards
EM.08 WITHDRAWN .
EN. Vortex Flows: Vortex
Rings
Room: 202C
Chair: P. Newton, U. of Southern
California
17:54
EL.09 Coughing and sneezing
L. Bourouiba, A. Tasissa, J. Bush
EM.07 Gas-flow animation by
unsteady boundary heating in a
microchannel N. Hadjiconstantinou,
G. Radtke, A. Manela
17:41
EL.08 Pulsatile flow past a single
oscillating cylinder R. Seda,
A. Qamar, J. Bull
EM. Microfluids: General III:
Microchannels
Room: 202B
Chair: E. Wang, Massachusetts
17:28
EL.07 Particle Deposition During
Airway Closure C. Tai, D. Halpern,
J. Grotberg
Session
EL. Biofluids: Physiological
Respiratory
Room: 202A
Chair: M. Plesniak, George
Washington U.
19:00
18:20
Free Time, 18:20–19:00
F1. Reception, 19:00–22:00
EY.07 Influence of adsorption
kinetics on the Marangoni convection
in a binary liquid layer with a soluble
surfactant A. Nepomnyashchy,
S. Shklyaev
EZ.07 Drag Measurements over
Embedded Cavities in a Low Reynolds
Number Couette Flow C. Gilmer,
A. Lang, R. Jones
EY. Instability: Interfacial and
Thin Film III
Room: Regency E
Chair: G. M. Homsy, U. of British
Columbia
EZ. Couette and Swirling
Flows
Room: Regency F
Chair: R. Lueptow, Northwestern U.
17:54
EX.09 Vortex Formation vs.
Aerodynamic Force Coefficient
Variations for Rapidly-Pitching Flat
Plates M. Ol, K. Granlund
EW.09 Modeling a
Shock-Accelerated Fluid - Multiphase
Fluid Interface M. Anderson,
J. Conroy, C. Truman, P. Vorobieff,
S. Kumar
EZ.08 Computational Analysis of
Low Reynolds Number Couette Flow
Over Embedded Cavities
C. Leibenguth, A. Lang, W. Schreiber
61
EZ.09 Slow dynamics in a highly
turbulent von Kármán swirling flow
M. Lopez, J. Burguete
EY.08 Thermocapillary fluid pumping EY.09 On the unsteady Benard –
using traveling thermal waves
Marangoni problem I. Frankel,
A. Oron, W. Mao, A. Alexeev
M. Weidenfeld
EX.08 Unsteady force measurement
of SD7003 foil under pitch-up, hold and
pitch-down motion at Re = 1x104 for
Micro Aerial Vehicle applications
S. Srigrarom, W. Chai
EX.07 Surface Visualization of Low
Re Flow over Low Aspect Ratio Flat
Plate Wings B. Farley, J. Hubner
17:41
EX. Aerodynamics III
Room: Regency D
Chair: J. Bayandor, Virginia
Polytechnic Institute and State U.
17:28
EW.08 Experimental Study of a
Shock-Accelerated Gas Flow
Non-Uniformly Seeded With Droplets
J. Conroy, M. Anderson, R. White,
P. Vorobieff, C. Truman, S. Kumar
Session
EW. Instability: RichtmyerEW.07 Effects of Initial Conditions on
Meshkov/Rayleigh-Taylor III
the Planar Richtmyer-Meshkov
Instability F. Grinstein, A. Gowardhan
Room: Regency C
Chair: D. Livescu, Los Alamos National
Laboratory
18:07
EZ.10 Turbulent counterflow driven
by swirl decay A. Borissov, V. Shtern
EX.10 Lift generation of an
impulsively started flat wing from the
perspective of a diagnostic vorticity
force theory C. Hsieh, J. Lee, C. Kao,
C. Chang, C. Chu
EW.10 Effect of multi-mode initial
conditions in shock-driven flows
S. Balasubramanian, K. Prestridge,
B. Balakumar, G. Orlicz, G. Friedman
19:00
18:20
Free Time, 18:20–19:00
F1. Reception, 19:00–22:00
62
63
Monday, 22 November 2010
Sessions G – L
08:13
GD.02 High-Order Finite-Difference
Solution of the Poisson Equation with
Interface Jump Conditions II
A. Marques, J. Nave, R. Rosales
GD.01 Effect of Rough Moving
Boundaries on Plane Poiseuille Flow
D. Cotrell, B. Alder
GE.01 Bifurcation and stability
analysis of a jet in crossflow at low
velocity ratios M. Ilak, P. Schlatter,
S. Bagheri, D. Henningson
GF.01 Wake modes of rotationally
oscillating cylinders P. Sellappan,
T. Pottebaum
GD. CFD I: Immersed
Boundary and Interface
Methods
Room: 102B
Chair: E. Serre, Aix-Marseille
Universite
GE. Instability: Jets and
Wakes I
Room: 102C
Chair: A. Ekmekci, U. of Toronto
GF. Separated Flows I
Room: 103A
Chair: S. Kumar, The U. of Texas at
Brownsville
08:26
08:39
GD.04 A new compressible and
incompressible immersed interface
method based on analytic continuation,
level sets and smooth extension
techniques H. Uddin, R. Kramer,
C. Pantano
GC.04 Variance and Skewness
Evolution in Transient Taylor Dispersion
K. Mertens, R. Camassa,
R. McLaughlin, N. Moore,
M. Hernandez, W. Milliken
GB.04 Combined Roughness and
Favorable Pressure Gradient Effects in
a Turbulent Boundary Layer D. Min,
K. Christensen
GK.01 Transient rheological behavior GK.02 Granular collapse in a fluid: GK.03 The effect of volume fraction GK.04 Terminal velocity of a heavy GK.05 A two dimensional silo of
of suspensions near the jamming
Role of the initial volume fraction
on granular slope stability N. Gravish, object in a superlight granular medium granular materials under gravity
transition E. Brown, H. Jaeger
L. Rondon, O. Pouliquen, P. Aussillous N. Ward, D. Goldman
G. Caballero-Robledo,
J. Zhang, R. Ecke
F. Pacheco-Vazquez, J. Ruiz-Suarez
GK. Granular Flows I
Room: 201B
Chair: I. Christov, Northwestern U.
64
GJ.02 Bluff Body Separation Control GJ.03 Interaction of a Finite-span
using Pulsed Actuation G. Woo,
Synthetic-jet and Cross-flow over a
T. Crittenden, A. Glezer
Swept Wing J. Vasile, Y. Elimelech,
M. Amitay
GJ.04 Hybrid Manipulation of
Streamwise Vorticity in a Diffuser
Boundary Layer A. Gissen,
B. Vukasinovic, J. Culp, A. Glezer
GJ.05 Experimental study of airfoil
separation control using synthetic jets
X. Xia, K. Mohseni
GH.05 Transient buoyancy-driven
flow in a vertical cylindrical enclosure
with wavy-sidewall due to thermal and
concentration gradients F. Sanchez,
S. Martinez, H. Ramirez, A. Medina
GJ.01 Flow Structures and
Interactions of a Fail-Safe Actuator
W. Khan, Y. Elimelech, M. Amitay
GH.04 Viscous and Thermal
Boundary Layers in Simulated
Turbulent Rayleigh-Bénard Convection
J. Scheel, E. Kim
GJ. Flow Control IV
Room: 201A
Chair: D. Rempfer, Illinois Institute of
Technology
GH.03 Dependence of the Nusselt
number on the Rayleigh number for
Prandtl numbers near 0.7 J. Hogg,
G. Ahlers
GH.02 Viscous boundary layers in
high Rayleigh number convection: A
new insight from 3d velocity
measurements R. du Puits, L. Li,
A. Thess
GH.01 Homogeneous purely
buoyancy driven turbulent flow
J. Arakeri, M. Cholemari, S. Pawar
GG.05 Large-eddy Simulation of
Turbulent Flows in an Urban Street
Canyon J. Hwang, B. Kim, C. Lee
GF.05 Characteristics of the flow
over a sphere at subcritical Reynolds
numbers J. Lee, K. Son, H. Choi
GE.05 Global modes of
compressible subsonic jets
X. Garnaud, L. Lesshafft, P. Schmid,
P. Huerre
GH. Convection and
Buoyancy Driven Flows IV
Room: 103C
Chair: A. Duggleby, Texas A&M U.
GG.04 Challenges in large-eddy
simulation of cumulus convection
G. Matheou, D. Chung, L. Nuijens,
B. Stevens, J. Teixeira
09:05
GC.06 Structure from the critical
layer framework in turbulent flow
A. Sharma, B. McKeon
GB.06 Structural Aspects of Wall
Turbulence Over Low-Order
Representations of Irregular
Roughness R. Mejia-Alvarez,
K. Christensen
GA.06 Scaling of the two-point
velocity difference along scalar
gradient trajectories M. Gampert,
P. Schaefer, J. Goebbert, N. Peters
GK.06 Stokes’ Cradle: Oblique
Collisions between Wetted Particles
C. Donahue, C. Hrenya, R. Davis,
W. Brewer
GJ.06 Performance Enhancement of
a Wind Turbine Blade using Synthetic
Jets K. Taylor, C. Leong, M. Amitay
GH.06 Natural convection in a
cylindrical cavity J. Nunez, M. Lopez,
E. Ramos, G. Hernandez, S. Cuevas,
M. Vargas
GG.06 Large-eddy simulation of the
stable atmospheric boundary layer with
explicit filtering and reconstruction
F. Chow, B. Zhou
GF.06 Turbulent Boundary Layer
Separation Induced over a Flat Plate by
a Rotating Cylinder F. Afroz, E. Jones,
D. Smith, J. Wheelus, A. Lang
GE.06 Analysis of time-resolved
tomographic PIV data of a transitional
jet P. Schmid, D. Violato, F. Scarano
GD.05 Level-set immersed boundary GD.06 The immersed interface
method for simulating 3D turbulent free method for 3D rigid objects in a flow
surface flows in arbitrarily complex
S. Xu
open channels S. Kang,
F. Sotiropoulos
GC.05 Passive scalar advection in
parallel shear flows: WKBJ mode
sorting on intermediate times
R. McLaughlin, R. Camassa, C. Viotti
GB.05 Studies of the Combined
Effects of Roughness and Reynolds
Number in Turbulent Boundary Layers
F. Mehdi, J. Klewicki
GG.02 A dynamic roughness model
for LES of flow over multiscale,
fractal-like surfaces: application to
synthetic and real topography
W. Anderson, C. Meneveau
GG.03 Applying renormalized
numerical simulation to model turbulent
flow over a fractal tree canopy
J. Graham, C. Meneveau
08:52
GA.05 Asymptotic analysis of
homogeneous isotropic decaying
turbulence with unknown initial
conditions P. Schaefer, M. Gampert,
J. Goebbert, M. Gauding, P. Norbert
GG. GFD: Atmospheric
GG.01 WITHDRAWN .
Flows I
Room: 103B
Chair: K. Venayagamoorthy, Colorado
State U.
GF.04 Secondary Instability in the
Flow past Two Aligned Square
Cylinders C. Choi, Y. Jang, K. Yang,
H. Jeon
GE.03 Low Density Transverse Jet GE.04 Sensitivity analysis of
Shear Layer Instabilities and their
low-density reacting jets G. Chandler,
Control D. Getsinger, C. Hendrickson, J. Nichols, M. Juniper, P. Schmid
A. Sung, O. Smith, A. Karagozian
GD.03 A New Method for the Level
Set Equation Using a
Hierarchical-Gradient Truncation and
Remapping Technique H. Kohno,
J. Nave
GC.03 Stochastic Modeling of
Turbulence-Driven Systems:
Application to Wind Energy P. Milan,
M. Waechter, J. Peinke
GB.03 Inner and Outer Flow
Interactions on Rough, Turbulent
Boundary Layers S. Torres-Nieves,
H. Kang, C. Meneveau, L. Castillo
GA.03 Conditional statistics near
GA.04 Decay of fractal-generated
strong thin shear layers in DNS of
homogeneous turbulence P. Valente,
isotropic turbulence at high Reynolds C. Vassilicos
number T. Ishihara, J. Hunt, Y. Kaneda
GF.02 The relationship between
GF.03 An experimental study of flow
Strouhal number and Reynolds number past two rotating cylinders S. Kumar,
for a heated cylinder in the shear layer B. Gonzalez, O. Probst
instability regime J. Laurienti,
T. Pottebaum
GE.02 Unsteady Simulation of an
ASME Venturi Flow in a Cross Flow
J. Bonifacio, H. Rahai
GC.02 Incompressible flow around
small obstacles M. Lopes Filho
GB.02 DNS of a Turbulent Boundary
Layer with Surface Roughness
Y. Chen, J. Cardillo, G. Araya,
L. Castillo, K. Jansen
GA.02 Signatures of non-universal
large scales in conditional structure
functions from eight different turbulent
flows G. Voth, D. Blum,
E. Bodenschatz, M. Gilbert, H. Xu,
L. Mydlarski, A. Gylfason, P. Yeung
GC. General Fluid Dynamics I GC.01 WITHDRAWN .
Room: 102A
Chair: C. Doering, U. of Michigan
GB.01 Modeling roughness effects in
turbulent boundary layers using elliptic
relaxation J. George, A. De Simone,
G. Iaccarino, J. Jimenez
GB. Turbulent Boundary
Layers IV
Room: 101B
Chair: H. Nagib, Illinois Institute of
Technology
08:00
GA.01 Public-database enabled
analysis of Lagrangian dynamics of
isotropic turbulence near the
Vieillefosse tail H. Yu, C. Meneveau
Session
GA. Turbulence Theory I
Room: 101A
Chair: S. Thangam, Stevens Institute
of Technology
Monday Morning, 22 November 2010
08:13
08:26
08:39
GQ.01 Interference between
vibrational modes in bubble break-up
S. Oberdick, L. Lai, W. Zhang
GR.01 Generation of micron-sized
bubbles at the entrance region of
PDMS microchannels J. Gordillo,
W. van Hoeve, D. Lohse, . de
Castro-Hernández
GS.01 Effect of neighboring particles GS.02 Coalescent coalescence
on drop coalescence at an interface
N. Bremond, H. Doméjean, J. Bibette
A. Bordoloi, D. Adhikari, E. Longmire
GT.01 Falling flexible sheets
S. Alben
GU.01 Two-phase PIV
measurements of particle suspension
in a forced impinging jet R. Mulinti,
K. Kiger
GV.01 Renormalized transport of
inertial particles M. Martins Afonso,
A. Celani, A. Mazzino, P. Olla
GQ. Bubbles I
Room: 203B
Chair: E. Johnsen, U. of Michigan
GR. Drops VI
Room: 203C
Chair: S. Anna, Carnegie Mellon U.
GS. Drops VII
Chair: J. Feng, U. of British Columbia
GT. Biolocomotion V:
Flapping and Flying I
Chair: A. Techet, Massachusetts
GU. Multiphase Flows IV
Room: Regency A
Chair: K. Kiger, U. of Maryland
GV. Particle Laden Flows:
Simulations II
Room: Regency B
Chair: E. Meiburg, U. of California,
Santa Barbara
GV.02 Particulate Flow over a
Backward Facing Step Preceding a
Filter Medium F. Chambers, K. Ravi
GU.02 Impingement of a Planar
Shock Wave on a Dense Field of
Particles J. Wagner, S. Beresh,
S. Kearney, W. Trott, J. Castaneda,
B. Pruett, M. Baer
GR.04 Scaling in two-fluid pinch-off
C. Pommer, M. Harris, O. Basaran
GQ.04 Numerical simulations of
single-bubble collapse in liquid metal
E. Johnsen
65
GV.03 WITHDRAWN .
GU.03 Multiphysics Simulations of
Hot-Spot Initiation in Shocked
Insensitive High-Explosive F. Najjar,
W. Howard, L. Fried
09:05
GM.06 Particles Dispersion on
Fluid-Liquid Interfaces P. Singh,
S. Gurupatham, B. Dalal, M. Hossain,
I. Fischer, D. Joseph
GS.06 Effects of small concentration
surfactants on the coalescence of
viscous drops C. Vannozzi
GR.06 Experimental and numerical
investigation of microjet breakup of
dilute polymer solutions W. van
Hoeve, V. Kamphorst, M. Versluis,
D. Lohse
GQ.06 Lattice Boltzmann
Simulations for High Density Ratio
Flows of Multiphase Fluids Y. Wei,
Y. Qian
GP.06 Continuous Electrokinetic
Separation of Particles and Cells in a
Serpentine Microchannel C. Canter,
J. Zhu, T. Tzeng, X. Xuan
GV.06 Eulerian-Lagrangian
Simulations of Three-Dimensional
Turbulent Riser Flows J. Capecelatro,
P. Pepiot, O. Desjardins
GU.05 Evaporation of thin liquid films GU.06 Confined two-phase flows in
into air V. Ajaev, D. Brutin, L. Tadrist the presence of evaporation and
condensation R. Grigoriev, T. Qin
GT.05 Thrust performance and wake GT.06 Efficient flapping flight using
structure of a pitching flexible plate at flexible wings oscillating at resonance
low aspect ratio P. Ferreira de Sousa, A. Alexeev, H. Masoud
H. Dai, H. Luo, J. Doyle
GS.05 Modeling of droplet
coalescence on non-uniform surfaces
with the lattice Boltzmann method
K. Kubiak, M. Wilson, J. Summers,
N. Kapur, K. Hood
GR.05 A method to generate
picoliter droplets out of a microliter
drop, on-demand using satellite
formation D. Moon, D. Im, I. Kang
GQ.05 Surface stability of an
encapsulated bubble subjected to an
ultrasonic pressure wave Y. Liu,
K. Sugiyama, S. Takagi, Y. Matsumoto
GP.05 Continuous separation of
micropaticles by size in ridged
microchannels W. Mao, G. Wang,
T. Sulchek, A. Alexeev
GN.05 The motion of singularities in GN.06 An accurate and efficient
potential flow S. Llewellyn Smith
method to compute steady uniform
vortices P. Luzzatto-Fegiz,
C. Williamson
GV.04 Numerical simulation of
GV.05 A-priori reconstruction of ideal
particle laden coaxial turbulent jet flows stochastic forcing for particle motion in
K. Kannaiyan, R. Sadr
turbulent flow M. Salvetti, S. Chibbaro,
F. Bianco, C. Marchioli, A. Soldati
GU.04 A high-resolution numerical
method for supercritical flows
H. Terashima, S. Kawai, N. Yamanishi
GT.04 Effect of mass ratio for a
flexible flapping wing during forward
flight H. Luo, F. Tian, X. Lu
GS.03 Viscous to Inertial Crossover GS.04 Mass-spring-damper dynamic
in Liquid Drop Coalescence
system modeling for predicting
J. Paulsen, J. Burton, S. Nagel
drop-pair interaction outcomes P. Van
Noordt, M. Bergman, C. Hidrovo
GR.03 The onset of microscale
tipstreaming with soluble nonionic
surfactants S. Anna, N. Alvarez,
W. Lee, L. Walker
GQ.03 Stability of surface
nanobubbles D. Lohse, J. Weijs,
H. Gelderblom, J. Snoeijer
GT.02 Fluttering dynamics of passive GT.03 Falling with Style - Bat flight
flexible wings D. Tam, J. Bush
maneuvers A. Bergou, D. Riskin,
G. Taubin, S. Swartz, K. Breuer
GR.02 Velocimetry techniques on
Newtonian droplets and jets
J. Castrejon-Pita, G. Martin,
I. Hutchings
GQ.02 Shape instability of a
collapsing bubble A. Tiwari,
C. Pantano, J. Freund
GP.04 Modeling the electrophoretic
separation of short biological
molecules in nanofluidic devices
G. Fayad, N. Hadjiconstantinou
GP.01 Continuous Size-Based
Particle Separation in a Microfluidic
Device B. Shaparenko, H. Chuang,
H. Hu, H. Bau, G. Worthen
GP. Microfluids: Fluidic
Devices I
Room: 203A
Chair: P. Dutta, Washington State U.
GP.03 Long Chain DNA Separation
in a Sparse Nanopost Array J. Ou,
M. Joswiak, K. Dorfman
GN.01 Relative equilibria of point
GN.02 Hamiltonian-Dirac Simulated GN.03 Mathematical modeling of
GN.04 Stability of icosahedral
vortices and the fundamental theorem Annealing: Application to the
“2P” mode vortex wakes S. Basu,
configurations of point vortices on a
of algebra H. Aref
Calculation of Vortex States
M. Stremler, T. Schnipper, A. Andersen sphere V. Ostrovskyi, P. Newton
P. Morrison, G. Flierl
GP.02 Numerical simulations of the
separation of deformable particles in
deterministic lateral displacement
devices K. Chiam, R. Quek, D. Le
08:52
GL.05 Particulate Tracer Sensors for GL.06 Magnetic Localization of
X-ray Flow Imaging S. Ahn, S. Jung, Maghemite Nanoparticles in Simulated
H. Kim, S. Lee
Blood Vessels for Focused Therapy
N. Lapp, C. Brazel
GM.04 Droplet flows through
GM.05 Patterning of non-spherical
periodic loop networks R. Jeanneret, particles onto electrode surface: Study
of orientation behavior under viscous
M. Schindler, D. Bartolo
fluid and AC electrokinetic forces
R. Thakur, S. Williams, R. Cohn,
J. Rathfon, J. Berret, M. Yan,
S. Wereley
GL.04 Optimization of a BT-Shunt
Geometry for the Norwood Operation
M. Esmaily Moghadam, J. Feinstein,
I. Vignon-Clementel, F. Migliavacca,
A. Marsden
GN. Vortex Flows: Inviscid
Room: 202C
Chair: H. Aref, Technical U. of
Denmark and Virginia Polytechnic
Institute and State University
GM.03 The Microfluidic
Thunderstorm A. Marin, W. van
Hoeve, L. Shui, J. Eijkel, A. van den
Berg, D. Lohse
GL.02 Non-homogeneous
GL.03 A dynamic model of human
concentration of suspensions in
physiology M. Green, C. Kaplan,
micro-capillary networks: particles in a E. Oran, J. Boris
bifurcation T. Podgorski, V. Doyeux,
S. Peponas, M. Ismail, G. Coupier
GM. Microfluids: General IV: GM.01 Wettability dependent bubble GM.02 Flow field inside a stationary
Bubbles, Drops and Particles dynamics in microfluidic networks
microdroplet in a Hele-Shaw cell
P. Parthiban, S. Khan, M. Kreutzer
S. Lee, C. Baroud
Room: 202B
Chair: G. Soni, U. of California, Santa
Barbara
08:00
GL.01 Stability of two-dimensional
collapsible-channel flow to inviscid
perturbations T. Pedley, R. Kudenatti
Session
GL. Biofluids: Physiological
Circulatory I
Room: 202A
Chair: R. Braun, U. of Delaware
GZ. Instability: General I
Room: Regency F
Chair: T. M. Schneider, Harvard U.
66
GZ.03 Edge formation in
low-dimensional models of shear
transition N. Lebovitz
GY.02 Thin films: instabilities, waves, GY.03 Experimental Analysis of the
and dewetting T. Lin, L. Kondic
Instability and Breakup of an Annular
Liquid Sheet with Axial Co-flow
D. Duke, J. Soria, D. Honnery
GZ.01 Onset of sustained turbulence GZ.02 Towards uniformly turbulent
in pipe flow K. Avila, A. de Lozar,
pipe flow? M. Avila, B. Hof
B. Hof
GY. Instability: Interfacial and GY.01 An Energy Approach to
Capillary-Driven Thin Film Folding
Thin Film IV
H. Li, K. Hsia, S. Hilgenfeldt
Room: Regency E
Chair: M. Mishra, Indian Institute of
Technology
08:26
08:39
08:52
GX.05 Energy-Pressure-Velocity
Filtered Mass Density Function
M. Nik, P. Givi, C. Madnia, S. Pope
09:05
GX.06 A PIV Study of
Compressibility in a Turbulent Subsonic
Axisymmetric Jet I. Choutapalli
GW.06 Long term stability of
immiscible ferrofluid/water interfaces
B. Malouin, D. Posada, A. Hirsa
GZ.04 Spatially localized solutions of GZ.05 A Search for Exact Coherent GZ.06 On the geometry of coexisting
plane Couette flow J. Gibson,
Structures in Transitional Taylor-Coutte edge states for plane Couette flow
T. Schneider, J. Burke
Flow D. Borrero-Echeverry,
L. Kim, J. Moehlis
D. Webster, R. Tagg, M. Schatz
GY.04 Wavy regimes of a film flow
GY.05 Wavy regime of a viscoplastic GY.06 Rupture of thin liquid films
down a slip inclined plane
film flow S. Chakraborty,
with Plateau borders L. Brush,
A. Samanta, C. Ruyer-Quil, B. Goyeau C. Ruyer-Quil, B. Dandapat
A. McIntyre, S. Roper
GX.04 Compressibility effects in
planar wakes J. Hickey, F. Hussain,
X. Wu
GW.03 Vapor stabilizing surfaces for GW.04 Dynamic surface tension
GW.05 The Dynamics of Droplets
superhydrophobicity N. Patankar
effects from molecular dynamics
and Holes in Thin Surfactant Films
simulations A. Lukyanov, A. Likhtman K. Daniels, K. Allison, J. Claridge,
R. Levy, E. Peterson, M. Shearer,
W. Vonnegut, J. Wong
GX.02 Observable Divergence and GX.03 A Numerical Study of the
Observable Euler Equations for Shocks unstart event in a supersonic engine
and Turbulence K. Mohseni
I. Jang, R. Pecnik, P. Moin
GX.01 A Priori Analysis of Closures
for the Turbulent Kinetic Energy,
Dissipation Rate, and Enstrophy
Transport Equations in
Shock–Turbulence Interaction
S. Plucinski, O. Schilling
08:13
GX. Compressible Flows I
Room: Regency D
Chair: M. I. Radulescu, U. of Ottawa
08:00
GW.01 Capillary wrinkling of elastic GW.02 A Computational Study of
membranes D. Vella, M. Adda-Bedia, Surfactant Effects in the Bretherton
E. Cerda
Problem M. Muradoglu, U. Olgac,
G. Gursel
Session
GW. Surface Tension I
Room: Regency C
Chair: H. Kim, Seoul National U.
GB.07 Roughness effects on fully
developed pipe flow at high Reynolds
numbers M. Hultmark, M. Vallikivi,
A. Smits
GB. Turbulent Boundary
Layers IV
Room: 101B
Chair: H. Nagib, Illinois Institute of
Technology
09:31
09:44
GF.07 Flow Instability in Baffled
Channel Flow C. Kang, K. Yang,
K. Lee
GG.07 Sensitivity Study of Contrail
Development: Large Eddy Simulation
and Parameterized Model A. Naiman,
S. Lele, M. Jacobson
GH.07 Axially periodic
Rayleigh-Bénard convection in a
cylindrical cell L. Schmidt, F. Toschi,
R. Verzicco, D. Lohse
GJ.07 Controlled Dynamic Stall
using Pulsed Fluidic Actuation
G. Woo, A. Glezer
GK.07 Macroscopic Characteristics GK.08 A comparison of the granular GK.09 Cutting and shuffling—Mixing
of Unsteady Granular Flows in Rotating flow of glass spheres and sands
in Spherical Tumblers R. Lueptow,
Tumblers D. Paprocki, N. Pohlman
S. Meier, K. Barteau, D. Ertas, H. King I. Christov, G. Juarez, J. Ottino,
R. Sturman, S. Wiggins
GF. Separated Flows I
Room: 103A
Chair: S. Kumar, The U. of Texas at
Brownsville
GG. GFD: Atmospheric
Flows I
Room: 103B
Chair: K. Venayagamoorthy, Colorado
State U.
GH. Convection and
Buoyancy Driven Flows IV
Room: 103C
Chair: A. Duggleby, Texas A&M U.
GJ. Flow Control IV
Room: 201A
Chair: D. Rempfer, Illinois Institute of
Technology
GK. Granular Flows I
Room: 201B
Chair: I. Christov, Northwestern U.
GF.09 Investigating Separated Shear
Layer Development over an Airfoil with
an Imbedded Microphone Array
S. Yarusevych, R. Gerakopulos
GJ.08 Stall Control Simulation with
an Impulse Jet S. Jee, R. Moser,
O. Lopez
67
GJ.09 Numerical investigation of the
interaction between a finite-span
synthetic jet and a cross flow over a
swept wing M. Rasquin, N. Mati,
O. Sahni, K. Jansen
GH.08 The boundary layer structure GH.09 3D pattern flow in a
in Rayleigh-Bénard convection in a
right-angled triangular cavity
cylindrical cell N. Shi, J. Schumacher R. Chavez, F. Solorio
GG.08 Modeling the Influence of
GG.09 Visualizing the effects due to
Wind Characteristics and the
a wind turbine in a stratified turbulent
Atmospheric Stability on Wind Turbine boundary layer N. Hamilton, R. Cal
Performances D. Koracin, R. Belu
GF.08 An Experimental Study of
Flow Separation over a Flat Plate with
2D Transverse Grooves E. Jones,
A. Lang, F. Afroz, J. Wheelus, D. Smith
GE.09 Acoustic-gravity waves
generated by wake flows C. Millet,
S. Le Dizès
GE.07 Swirling Turbulent Jet
Structure Characterization Using
Proper Orthogonal Decomposition of
Flow Visualization Images
J. Naughton, R. Semaan
GD.09 A Direct-Forcing Immersed
Boundary Method with Dynamic
Velocity Interpolation R. McDermott
GC.09 Optimal Mixing, Part II
Z. Lin, J. Thiffeault, C. Doering
GE. Instability: Jets and
Wakes I
Room: 102C
Chair: A. Ekmekci, U. of Toronto
GE.08 Self excited oscillations in
swirling jets: Stability analysis and
empirical mode construction
K. Oberleithner, M. Sieber, C. Nayeri,
C. Paschereit, C. Petz, H. Hege,
B. Noack, I. Wygnanski
09:57
GA.10 Life at high Reynolds number
P. Perlekar, R. Benzi, D. Nelson,
F. Toschi
GK.10 Particle Tracking Velocimetry
and Granular Flow Correlations in
Triangular Tumblers J. Szalko,
N. Pohlman
GH.10 Numerical simulation of the
convective flow patterns within a
rotating concentric annulus with radial
gravity A. Cabello, R. Avila
GG.10 Insight on Turbulence
Characteristics of an Urban-type
Boundary Layer B. Monnier,
J. Swanson, C. Wark
GF.10 Experimental study of
unsteady turbulent boundary layer
separation under conditions relevant to
dynamic stall D. Schatzman,
F. Thomas
GE.10 Evolution of the
turbulent/non-turbulent interface of an
axisymmetric turbulent jet
M. Khashehchi, A. Ooi, I. Marusic,
J. Soria
GD.10 A new immersed interface
method applied to hydrodynamics of a
fusion chamber R. Kramer,
C. Pantano, G. Loosmore, A. Cook
GB.09 Frictional drag measurements GB.10 Turbulent boundary layer
for pitted surface roughness K. Flack, structure over sparsely-distributed
M. Schultz
roughness M. Schultz,
B. Ganapathisubramani
GA.09 Compressible Turbulence:
Cascade, Locality, and Scaling
H. Aluie
GD.07 Optical Flow-Based Modeling GD.08 The Immersed Interface
and Velocimetry S. Dillard,
Method for Two-Fluid Flows M. Uh
J. Buchholz, H. Udaykumar
GC.08 Optimal Mixing, Part I
C. Doering, Z. Lin, J. Thiffeault
GB.08 An analytical framework for
the study of rough-wall turbulent
boundary layer K. Bhaganagar,
R. Leighton
GA.08 Effects of Mach number and
compressibility on vorticity and
strain-rate turbulence dynamics
S. Suman, S. Girimaji
GD. CFD I: Immersed
Boundary and Interface
Methods
Room: 102B
Chair: E. Serre, Aix-Marseille
Universite
GC. General Fluid Dynamics I GC.07 A topological approach to
three-dimensional laminar mixing
Room: 102A
M. Finn, N. Jewell
Chair: C. Doering, U. of Michigan
09:18
GA.07 DNS and Rapid Distortion
Theory investigations of Mach number
effects on velocity- pressure field
interactions in strongly sheared flows
G. Kumar, S. Girimaji, R. Bertsch
Session
GA. Turbulence Theory I
Room: 101A
Chair: S. Thangam, Stevens Institute
of Technology
10:10
Promenade Ballroom
GN.07 A Framework for Linear
Stability Analysis of Finite–Area
Vortices B. Protas, A. Elcrat
GP.07 Electrokinetic Transport and GP.08 Optoelectrofluidic field
GP.09 Deterministic Particle Trapping GP.10 Anchors and rails: trapping
Manipulation of Particles in Microfluidic separation based on light-intensity
in Laminar Microvortices A. Mach,
and guiding drops in 2D R. Dangla,
Reservoirs J. Zhu, X. Xuan
gradients and its applications J. Yoon, D. Di Carlo
S. Lee, C. Baroud
S. Lee, K. Kang
GQ.07 Microjet formation in a
capillary by laser-induced cavitation
I. Peters, Y. Tagawa, D. van der Meer,
A. Prosperetti, C. Sun, D. Lohse
GR.07 A model for predicting drop
size distribution in effervescent jet
breakup by bubble-bursting H. Gadgil,
B. Raghunandan
GS.07 Analysis of the formation of
drops of a Bingham fluid H. Gao,
S. Appathurai, P. Mcgough, M. Harris,
O. Basaran
GT.07 On passive wing response in
hovering kinematics at low Reynolds
number A. Medina, J. Eldredge
GU.07 The effects of fluid turbulence GU.08 Full-Eulerian fluid-structure
on metal vapor nucleation J. Liu,
coupling simulation of hyperelastic
S. Garrick
channel flow N. Nagano,
K. Sugiyama, S. Takeuchi, S. Ii,
S. Takagi, Y. Matsumoto
GV.07 Numerical prediction of
pollutant dispersion into ABL; a
Lagrangian approach using LES
M. Morikone, S. Llewellyn Smith, M. Ilie
GN. Vortex Flows: Inviscid
Room: 202C
Chair: H. Aref, Technical U. of
Denmark and Virginia Polytechnic
Institute and State University
GP. Microfluids: Fluidic
Devices I
Room: 203A
Chair: P. Dutta, Washington State U.
GQ. Bubbles I
Room: 203B
Chair: E. Johnsen, U. of Michigan
GR. Drops VI
Room: 203C
Chair: S. Anna, Carnegie Mellon U.
GS. Drops VII
Chair: J. Feng, U. of British Columbia
GT. Biolocomotion V:
Flapping and Flying I
Chair: A. Techet, Massachusetts
GU. Multiphase Flows IV
Room: Regency A
Chair: K. Kiger, U. of Maryland
GV. Particle Laden Flows:
Simulations II
Room: Regency B
Chair: E. Meiburg, U. of California,
Santa Barbara
09:57
GN.09 Lagrangian trajectories in
Lissajous vortices S. Cuevas,
A. Figueroa, E. Ramos
GM.09 3D inertial migration of
microspheres in a microchannel flow:
transition from radial to angular
focusing Y. Choi, S. Lee
GV.08 Coherent vortex interaction
with a particle-laden boundary layer
F. Morales, I. Naqavi, K. Squires,
U. Piomelli
GT.08 The effect of chordwise
flexibility on flapping foil propulsion in
quiescent fluid S. Shinde, J. Arakeri
GS.08 Analysis of the formation of
drops of a Herschel-Bulkley fluid
P. McGough, S. Appathurai, H. Gao,
O. Basaran
GR.08 Exploring the effect of liquid
crystalline phase on droplet breakup
I. Cohen, J. Savage, D. Porter,
M. Caggioni, P. Spicer
GQ.10 Modeling bubbles and
dissolved gases after a breaking-wave
J. Liang, J. McWilliams, P. Sullivan,
B. Baschek
GN.10 A Robust Numerical Method
for Integration of Point-Vortex
Trajectories in Two Dimensions
S. Smith, B. Boghosian
GM.10 Arrangement of high-viscosity
droplets in diverging/converging
microchannels B. Jose, T. Cubaud
GU.10 Material point method to
fluid-structure interactions D. Zhang,
X. Ma, P. Giguere
68
GV.09 Large-eddy simulation of
GV.10 Effects of Inter-Particle
turbulent collision of heavy particles in Collisions and Two-Way Coupling on
isotropic turbulence G. Jin, G. He
Particle Deposition Velocity in a
Turbulent Channel Flow H. Nasr,
G. Ahmadi, J. McLaughlin
GU.09 Distribution Coefficient
Algorithm for Small Mass Nodes in
Material Point Method for Multi-Phase
Flow X. Ma, B. Jayaraman,
P. Giguere, D. Zhang
GT.09 Flexible Flapping Foils
GT.10 Bendable ring flapping in a
C. Marais, R. Godoy-Diana, J. Wesfreid uniform flow B. Kim, S. Shin, H. Sung
GS.09 Probing Interfacial Emulsion GS.10 Stirring a Cahn-Hilliard fluid in
Stability Controls using Electrorheology moving microdroplets S. Khan,
X. Wang, A. Brandvik, V. Alvarado
S. Lee, P. Wang, S. Yap
GR.09 Breakup of double emulsions GR.10 Evolution, Pinch-off, and
in wedge-shaped microfluidic channels Classification of the Steady-State
J. Li, H. Chen, H. Stone
Solutions of an Axisymmetric Drop in
Stokes Flow S. Naderi, M. Nitsche
GQ.08 Cavitation damage in blood GQ.09 Modeling bubble clusters in
clots under HIFU H. Weiss, G. Ahadi, compressible liquids D. Fuster,
T. Hoelscher, A. Szeri
T. Colonius
GN.08 Instability of Point Vortex
Leapfrogging L. TophØj, H. Aref
GM.08 Transport and separation of
micron sized particles at
isotachophoresis zone boundaries
S. Hardt, G. Goet, T. Baier
GL.10 Evaluation of RBC
aggregation using synchrotron X-ray
speckles H. Ha, K. Nam, S. Lee
GM.07 Microfluidic enhanced
conductive polymer microspheres for
sensor applications J. Snyder, D. Lu,
A. Shen
09:44
GL.09 Hydrodynamic forces on a
wall-bound leukocyte in small vessels
due to red cells A. G. Isfahani,
J. Freund
GM. Microfluids: General IV:
Bubbles, Drops and Particles
Room: 202B
Chair: G. Soni, U. of California, Santa
Barbara
09:31
GL.08 Blood flow and blood cell
interactions and migration in
microvessels D. Fedosov,
J. Fornleitner, G. Gompper
09:18
GL.07 Numerical simulation of the
motion of superparamagnetic
nanoparticle clusters in a
pressure-driven channel flow with an
external magnet P. Yue, S. Lee,
S. Afkhami, Y. Renardy
Session
GL. Biofluids: Physiological
Circulatory I
Room: 202A
Chair: R. Braun, U. of Delaware
10:10
Promenade Ballroom
GZ.08 Eckhaus instability and
GZ.09 WITHDRAWN .
homoclinic snaking in plane Couette
flow J. Burke, J. Gibson, T. Schneider
GZ. Instability: General I
Room: Regency F
Chair: T. M. Schneider, Harvard U.
GZ.07 Experimental observation of
the edge state in pipe flow A. de
Lozar, F. Mellibovsky, B. Hof
GY.08 Instability and rupture of thin
liquid films on structured surfaces
E. Gatapova, V. Ajaev, O. Kabov
GY. Instability: Interfacial and GY.07 An ADI Scheme for
Thin Film IV
Particle-Laden Thin Film Flow in 2D
M. Mata
Room: Regency E
Chair: M. Mishra, Indian Institute of
Technology
69
GY.09 Rupture Limit of Thin Moving
Films J. Padrino, D. Joseph, H. Kim
GX.09 Shock Waves in Dense
Fluids: An Anisotropic Temperature
Theory with Delays F. Uribe,
W. Hoover, C. Hoover
GX.08 Shock wave dynamics in a
water-filled log-spiral duct C. Wang,
V. Eliasson
09:44
GW.09 The hydrodynamics of ink
writing J. Kim, H. Kim
GX.07 Shock waves in dense hard
disk media: molecular dynamic and
continuum descriptions N. Sirmas,
M. Tudorache, M. Radulescu
09:31
GW.08 Filtration by eyelashes
K. Vistarakula, M. Bergin, D. Hu
GX. Compressible Flows I
Room: Regency D
Chair: M. I. Radulescu, U. of Ottawa
09:18
GW.07 Forces to Dislodge Rotating
Sessile and Pendant Annular Rivulets
P. Weidman, C. Malhotra
GW. Surface Tension I
Room: Regency C
Chair: H. Kim, Seoul National U.
Session
09:57
GZ.10 A homoclinic tangle at the
edge of shear turbulence L. van Veen,
G. Kawahara
GY.10 Interplay between phase
separation and surface deformations in
thin films of binary mixtures
S. Madruga, F. Bribesh, U. Thiele
GX.10 The Structure of Weak Shock
Waves in Water R. Baty, D. Tucker,
C. Hagelberg
GW.10 Marangoni patterns
N. Thyagu, E. Strombom, D. Palumbo,
C. Caicedo, T. Shinbrot
10:10
Promenade Ballroom
HC.01 A regularization by
stratification of the Stokes flow
divergences by translating spheres
R. Camassa, C. Falcon, J. Lin,
R. McLaughlin, A. Miller, K. Valchar
HD.01 WITHDRAWN .
HE.01 Experimental Test of the
Fluctuation Theorem in a Driven
System Z. Greguric, M. Cervoni,
J. Cressman
HF.01 Experimental study of the flow HF.02 Forcing the shear layer of a
over a backward-facing rounded ramp backward-facing step flow using DBD
T. Duriez, J. Aider, J. Wesfreid
plasma actuator J. Aider, T. Duriez,
J. Wesfreid, G. Artana
HG.01 Microscale Measurement in
the Atmospheric Boundary Layer:
Collapse of Turbulence H. Fernando,
E. Kit, A. Dallman
HH.01 Lagrangian particle tracking in HH.02 An Experimental Study of
turbulent convection V. Lavezzo,
Lagrangian Statistics in
F. Toschi, H. Clercx
Rayleigh-Bénard Convection R. Ni,
S. Huang, S. Zhou, K. Xia
HJ.01 High-Speed Jet Noise Source HJ.02 Shear Layer Excitation of a
Identification by Wavelet Filtering
High Speed Turbulent Jet K. Low,
J. Lewalle, Z. Berger, K. Low,
B. El Hadidi, M. Glauser, Z. Berger
M. Glauser
HC. General Fluid Dynamics II
Room: 102A
Chair: O. Schilling, Lawrence
Livermore National Laboratory
HD. CFD II: Immersed
Boundary Methods and
Room: 102B
Chair: J. Yang, U. of Iowa
HE. Instability: Jets and
Wakes II
Room: 102C
Chair: V. Sharma, Massachusetts
HF. Separated Flows II
Room: 103A
Chair: F. Najjar, Lawrence Livermore
National Laboratory
HG. GFD: Atmospheric
Flows II
Room: 103B
Chair: G. Matheou, Jet Propulsion
Laboratory/NASA
HH. Convection and
Buoyancy Driven Flows V
Room: 103C
Chair: S. Zhou, South China Sea
Institute of Oceanology
HJ. Flow Control V
Room: 201A
Chair: T. Colonius, California Institute
of Technology
10:56
HA.03 Statistics of the Energy
Dissipation Rate and Local Enstrophy
in Turbulent Channel Flow
J. Schumacher, P. Hamlington,
D. Krasnov, T. Boeck
11:09
HC.04 Swelling-Induced Dynamic
Responses of Soft Materials: Bending,
Buckling, and Twisting T. Sinha,
D. Holmes, M. Roche, A. Saint-Jalmes,
G. Maurdev, H. Stone
HB.04 Roughness Signature in the
Outer Layer of a Turbulent Boundary
Layer J. Hong, J. Katz, M. Schultz
HA.04 On a self-sustaining process
at large scale in the turbulent channel
flow Y. Hwang, C. Cossu
HF.03 Sensitivity of an Asymmetric
3D Diffuser to Vortex Generator
Induced Inlet Condition Perturbations
E. Sayles, S. Grundmann, C. Elkins,
J. Eaton
HE.03 Experimental investigation of
the influence of inlet conditions to a
bluff body wake B. Fallenius,
J. Fransson
70
11:22
HJ.04 Eliminating turbulence in
spatially intermittent flows B. Hof,
A. de Lozar, M. Avila, T. Schneider
11:35
HA.06 The log layer in
incompressible and compressible
turbulence R. Rubinstein
HG.05 Stable stratification in
turbulent Ekman layers O. Flores,
J. Riley, N. Malaya, R. Moser
HF.05 Global stability analysis of
supersonic shock/turbulent boundary
layer interactions M. Bernardini,
S. Pirozzoli, J. Nichols, J. Larsson,
B. Morgan, S. Lele
HE.05 Stability effects of a base
cavity on the wake of axisymmetric
bluff bodies E. Sanmiguel-Rojas,
P. Bohorquez, J. Jiménez-González,
C. MartÍnez-Bazán
HD.05 Simulations of the Motion of
Arbitrarily Shaped Fibers in a Linear
Shear Flow A. Roshchenko, W. Finlay,
P. Minev
HC.05 Study of Thermo-Acoustic
Instabilities in a Rijke Tube Without and
With Porous Inert Medium C. Osmer,
A. Agrawal
HK.05 Liquid effect on the vibration HK.06 High-speed x-ray tomographic
of granular media in cylindrical cavities imaging of a ball impacting on sand
E. Guzman, R. Zenit
T. Homan, E. Wagner, R. Mudde,
D. Lohse, D. van der Meer
HJ.05 Separation control in a conical HJ.06 Experimental Investigation of
diffuser with an annular inlet K. Lo,
Actuators for Flow Control in Inlet
C. Elkins, J. Eaton
Ducts J. Vaccaro, Y. Elimelech,
M. Amitay
HH.06 Natural convection in a
square cavity with participating
medium M. RamÍrez Cabrera,
E. Ramos
HG.06 Stability of a stratified
boundary layer flow when shear and
stratification are not aligned
J. Candelier, S. Le Dizes, C. Millet
HF.06 DNS of Turbulent Boundary
Layer Subject Strong Adverse
Pressure Gradient G. Araya,
L. Castillo
HE.06 The influence of shear layer
thickness in the stability of confined 2D
wakes L. Biancofiore, F. Gallaire,
R. Pasquetti
HD.06 Fluid-Solid Interactive
Methodology for Prognosis of
Passenger Jet Structural Damage in
Water Crash Landing J. Bayandor
HC.06 Effect of Leading Edge
Tubercles on Marine Tidal Turbine
Blades M. Murray, T. Gruber,
D. Fredriksson
HB.05 Turbulence Structure in
HB.06 Analysis of Velocity
Oscillating Channel Flow S. Kearney, Measurements on a Towed, Flexible
Cylinder B. Amaral, K. Cipolla
J. Roberts, J. Gailani
HA.05 An analytical formulation for
the 1D energy spectra in equilibrium
wall-bounded turbulence Y. Tang,
R. Akhavan
HH.04 A variational principle for
HH.05 The Steepling of Mushy
solute fluxes in mushy-layer convection Layers A. Anderson, G. Worster
A. Wells, J. Wettlaufer, S. Orszag
HK. Granular Flows II
HK.01 Anomalous stress profile in a HK.02 Shear-driven segregation of HK.03 Local Dynamics of Granular HK.04 Density Fluctuations in
sheared granular column P. Nott,
dense granular mixtures Y. Fan, K. Hill Size Segregation A. Keith, J. Puckett, Vibrating Granular Monolayers
Room: 201B
K. Daniels
G. Castillo, N. Mujica, P. Gutierrez,
Chair: N. Pohlman, Northern Illinois U. V. Mehandia
L. Oyarte, S. Waitukaitis, R. Soto
HJ.03 Three Dimensional Vortex
Formation of a Finite-Span Synthetic
Jet T. Van Buren, M. Amitay
HH.03 An alternative Lagrangian
approach to laminar heat transfer
M. Speetjens
HG.04 Lagrangian coherent
structures and transport in hurricanes
D. Lipinski, K. Mohseni
HF.04 Low-frequency dynamics in
supersonic shock turbulent boundary
layer interactions J. Larsson,
J. Nichols, M. Bernardini, S. Pirozzoli,
B. Morgan, S. Lele
HE.04 Parametric study of the
transition in the wake of oblate
spheroids and flat cylinders
M. Chrust, G. Bouchet, J. Dusek
HD.03 A Simple and Efficient Sharp HD.04 Three-dimensional simulation
Interface Immersed Boundary Method of a valveless pump S. Shin, H. Sung
for Fluid-Structure Interaction with
Complex Rigid Bodies J. Yang,
F. Stern
HG.02 Jupiter’s Zonal Winds: Are
HG.03 Rigid lid modes in
They Bands of Homogenized Potential semi-infinite atmosphere
Vorticity and Do They Form a
L. Chumakova, E. Tabak, R. Rosales
Monotonic Staircase? P. Marcus,
S. Shetty
HE.02 Flow instabilities in the wake
of a thin disk S. Goujon-Durand,
P. Szaltys, J. Wesfreid
HD.02 Curvilinear Immersed
Boundary Method for Simulating
Sediment Transport and Scour in Open
Channel Flows A. Khosronejad,
S. Kang, I. Borazjani, F. Sotiropoulos
HC.02 Super free fall for a container HC.03 Ratcheting Fluid using
composed of diverging flat plates
Geometric Anisotropy B. Thiria,
A. Medina, A. Torres, S. Peralta,
J. Zhang
P. Weidman
HB.02 Mean profile of a
HB.03 Turbulence in Favorable
high-Reynolds-number
pressure gradient (FPG) boundary
smooth-flat-plate turbulent boundary
layers P. Joshi, J. Katz
layer D. Dowling, G. Oweis, E. Winkel,
J. Cutbirth, S. Ceccio, M. Perlin
HB.01 Investigation of Turbulent Wall
Pressure Fluctuations over a wide
Reynolds Number Range of Turbulent
Pipe Flows I. Cook, W. Keith, A. Foley,
K. Cipolla
10:43
HB. Turbulent Boundary
Layers V
Room: 101B
Chair: J. Wallace, U. of Maryland
10:30
HA.01 Effect of polymer additives on HA.02 de Gennes’s theory of
bulk turbulence H. Xi, H. Xu,
polymer drag reduction revisited
E. Bodenschatz
D. Lee, R. Akhavan
Session
HA. Turbulence Theory II
Room: 101A
Chair: R. Rubinstein, NASA Langley
HM.01 Manipulating bacteria with
opto-electrokinetic methods
S. Wereley, J. Kwon, S. Ravindranath,
J. Irudayaraj
HN.01 Long flexible cylinders subject
to vortex-induced vibrations in shear
flow exhibit preferentially
counter-clockwise figure-eight
trajectories at lock-in R. Bourguet,
Y. Modarres-Sadeghi, M. Triantafyllou
HP.01 Use of a porous membrane for
gas bubble removal in microfluidic
channels: physical mechanisms and
design criteria J. Xu, R. Vaillant,
D. Attinger
HQ.01 Tip vortex cavitation
suppression by water ejection from
wing tip M. Farhat, M. Reclari
HM. Microfluids: General V:
Particle Manipulation
Room: 202B
Chair: M. Muradoglu, Koc U. , Turkey
HN. Vortex Flows:
Vortex-Induced Vibrations
and Unsteady Flows
Room: 202C
Chair: D. Bohl, Clarkson U.
HP. Microfluids: Fluidic
Devices II
Room: 203A
Chair: A. Guenther, U. of Toronto
HQ. Bubbles II
Room: 203B
Chair: P. Yue, Virginia Polytechnic
10:43
HU.02 Stability Analysis of
Superhydrophobic Friction Reduction
Polymeric Microchannels T. Kim,
C. Hidrovo
HV.02 Dynamics in reactive bubbly
flow P. Sundararajan, D. Koch,
A. Stroock
HU. Multiphase Flows V
HU.01 Perturbed Partial Cavity Drag
Reduction at High Reynolds Numbers
Room: Regency A
Chair: V. Ajaev, Southern Methodist U. S. Makiharju, B. Elbing, A. Wiggins,
D. Dowling, M. Perlin, S. Ceccio
HV. Reacting Flows I
Room: Regency B
Chair: M. Ihme, U. of Michigan
HT.01 Optimization of Kinematics of HT.02 Aerodynamic tricks for pitching
a Flapping Wing Mechanism
oscillation and visual stabilization in a
R. George, S. Thomson, C. Mattson, hovering bird J. Su, S. Ting, J. Yang
M. Colton, M. Tree
HT. Biolocomotion VI:
Flapping and Flying II
Chair: H. Fu, U. of Nevada Reno
HR.02 Impact of Microdrops on
Solids: Modelling and Simulation
J. Sprittles, Y. Shikhmurzaev
HQ.02 Tip vortex cavitation
suppression by mass injection
H. Ganesh, N. Chang, S. Ceccio
HP.02 High-speed µ-PTV study of
microbubble generation in microfluidic
T-junction R. Miyazaki, T. Ogasawara,
M. Ichiyanagi, S. Takagi, Y. Matsumoto
HN.02 Influence of flexibility and
corner shape on three-dimensional
vortex structures in translating plates
D. Kim, M. Gahrib
HS.01 Beneath a splash:
HS.02 Experimental and theoretical
interference imaging of the air below a study of pattern identification in
spreading drop M. Driscoll, S. Nagel physical systems on circular domains
R. Hartong-Redden, R. Krechetnikov
HV.01 High-Order Quasi-Steady
State Assumption for Chemistry
Reduction A. Ibrahim, S. Girimaji
10:56
HL.03 Wall shear stress as a
stimulus for carotid atherosclerotic
plaque progression: An MRI-based
CFD pilot study G. Canton, B. Chiu,
T. Hatsukami, W. Kerwin, C. Yuan
11:09
HM.04 Ciliar fluid propulsion in a
non-Newtonian liquid M. Baltussen,
P. Anderson, J. den Toonder
71
HV.03 An ODT-Based Multiscale
Radiative Transport Model in
Participating (absorbing-emitting) gray
media Y. Shekhawat, T. Echekki
HU.03 Heating Effects In Very Rough
Polymeric Microchannels P. Glass,
A. Chhabra, R. Kanapuram, T. Kim,
C. Hidrovo
HT.03 Optimal frequency for flow
energy harvesting using flapping foils
and its relation with wake instability
Q. Zhu
HV.04 Simulation of Compressible
Reacting Flow using the Parallel
Wavelet Adaptive Multiresolution
Representation Z. Zikoski,
S. Paolucci, J. Powers
HU.04 Micro-PIV Measurements
near a Moving Contact Line
J. Zimmerman, M. Weislogel,
D. Tretheway
HT.04 The advantage of wing-wing
interaction in unsteady motion T. Le,
D. Byun, S. Park, J. Ko, H. Park
HS.04 Qualitative Observations of
Droplet Impact on Superhydrophobic
Surfaces with Micro-ribs for Three
Fluids J. Pearson, D. Maynes,
B. Webb
HR.03 Droplet Impact on Inclined,
HR.04 An experimental study of
Planar Surfaces G. Neitzel, P. Carroll Mesler entrainment in silicone oil
J. Saylor, G. Bounds
HS.03 The Generation of Secondary
Droplets due to Drop Impact on a
Water Surface in the Presence of Wind
and Surfactants R. Liu, X. Liu
HN.05 Self-Excited Energy
Harvesting in Uniform Fluid Flows
Using Piezoelectric Generators
D. Akaydin, N. Elvin, Y. Andreopoulos
HM.05 Trapping, focusing, and
sorting of microparticles through
bubble streaming C. Wang, S. Jalikop,
S. Hilgenfeldt
HV.05 An ODT-Based
Flame-Embedding Approach for
Turbulent Non-Premixed Combustion
S. Sedhai, T. Echekki
HU.05 Film Deposition in the
Presence of a Moving Contact Line
A. Herescu, J. Allen
HT.05 Lift generation by a
two-dimensional symmetric flapping
wing T. Inamuro, K. Ota, K. Suzuki
HS.05 Analogies between a drop
impacting a solid surface, an oscillating
sessile drop, and two coalescing drops
S. Appathurai, M. Harris, O. Basaran
HR.05 Singularity and jet formation
for drop impact on a dry surface
L. Duchemin, C. Josserand
HQ.05 Collisions between a rising
bubble and a rigid sphere
A. Belmonte, S. Thoroddsen
HP.04 Melt Crystallization in
HP.05 Charge Transport Behavior in
Microfluidics for Sample Concentration Microfluidic Microbial Energy
P. Sharif-Kashani, H. Kavehpour
Conversion Devices A. Kumar,
P. Mukherjee, A. Borole, M. Doktycz
HQ.03 Inviscid Partial Coalescence HQ.04 Contact time of a pair of
from Bubbles to Drops F. Zhang,
bubbles in an acoustic field
P. Taborek, J. Burton, B. Khoo, K. Lim, M. Shirota, H. Miyamae
S. Thoroddsen
HP.03 Reaction Kinetics in
Micro/Nanofluidic Devices: Effect of
Confinement and AC Voltage
V. Nandigana, N. Aluru
11:22
11:35
HV.06 A dynamic approach for
nonequilibrium modeling of subfilter
scalar dissipation rate in combustion
LES C. Kaul, V. Raman
HU.06 Optical characterization of
fibers suspensions in turbulent pipe
flow S. Dearing, A. Soldati
HT.06 Low-order Modeling of
Bio-inspired Pitching and Perching at
Low Reynolds Number C. Wang,
J. Eldredge
HS.06 Capillary waves on a
periodically supported liquid cylinder in
low gravity D. Thiessen,
F. Chandurwala, L. Zhang
HR.06 On air entrapment and
splashing treshold in drop impacts
C. Josserand, P. Ray, S. Zaleski
HQ.06 The rupture dynamics of
ultra-viscous bubbles J. Bird,
H. Stone, J. Bush
HP.06 Transporting Microparticles
Using a Conveyor Belt of Artificial Cilia
A. Bhattacharya, G. Buxton,
A. Alexeev, O. Usta, A. Balazs
HN.06 The dynamics of vortex
shedding of flow past a vertical flat
plate; LES studies C. Velez, M. Ilie
HM.06 Controlling particle
trajectories using oscillating
microbubbles S. Jalikop, C. Wang,
S. Hilgenfeldt
HL.04 Mass Transport and Shear
HL.05 Hemodynamic Simulations in HL.06 Hemodynamics in stenotic
Stress in the Carotid Artery Bifurcation Dialysis Access Fistulae P. McGah,
vessels: synthesis of CFD and PIV
R. Gorder, A. Aliseda
D. Leotta, K. Beach, J. Riley, A. Aliseda results J. Rossmann
HN.03 A study of vortex-induced
HN.04 Physics behind
vibration using hybrid cyber-physical
vortex-induced vibration reduction
supports A. Mackowski, C. Williamson using an oblique trailing edge hydrofoil
A. Zobeiri, F. Avellan, M. Farhat
HM.02 The Diffusiophoretic
HM.03 Control of Biologically
Self-Propulsion of Patchy Particles
Inspired Robotic Microswimmers
Driven By a Catalytic Reaction on the U. Cheang, J. Lee, D. Roy, M. Kim
Particle Surface N. Sharifi Mood,
C. Maldarelli, J. Koplik, I. Kretzschmar,
A. Pawar
HL.02 Secondary flow structure from
stent-induced perturbations in a bent
pipe model for curved arteries F. Shu,
A. Glenn, K. Bulusu, M. Plesniak
HS. Drops IX: Impact
Chair: M. Herrmann, Arizona State U.
HR. Drops VIII: Impact
HR.01 Instant capillary origami
M. Rivetti, B. Audoly, S. Neukirch,
Room: 203C
Chair: S. Afkhami, New Jersey Institute C. Josserand, A. Antkowiak
of Technology
10:30
HL.01 Subharmonic response from
ultrasound contrast microbubbles for
noninvasive blood pressure estimation
A. Katiyar, K. Sarkar, F. Forsberg
Session
HL. Biofluids: Physiological
Circulatory II
Room: 202A
Chair: P. Vlahovska, Dartmouth U.
HZ.01 Dynamics of Coherent
HZ.02 Spatiotemporal chaos and
HZ.03 Global instabilities of the flow HZ.04 Structural changes of laminar
Structures in Localized Turbulence in a infinite-lifetime turbulence in pipes and over a backward-facing step
separation bubbles induced by global
Pipe J. Westerweel, D. Kuik
channels D. Barkley, D. Moxey
linear instability D. Rodriguez,
D. Lanzerstorfer, H. Kuhlmann
V. Theofilis
72
HY.04 Experimental Confirmation of
Pillar Array Formation in Polymer
Nanofilms by Thermocapillary
Instability E. McLeod, Y. Liu, S. Troian
HX.04 Upstream Boundary Condition
Sensitivity of the Shock-Boundary
Layer Interaction L. Campo,
D. Helmer, T. Chantrasmi, G. Iaccarino,
J. Eaton
HZ. Instability: General II
Room: Regency F
Chair: L. Kondic, New Jersey Institute
of Technology
HX.02 Shock Wave–Boundary Layer HX.03 Techniques for PIV-CFD
Interaction in Reflecting Detonations
Comparison in a Shock-boundary
Layer Interaction D. Helmer, J. Eaton
J. Damazo, J. Zeigler, J. Karnesky,
J. Shepherd
HY.01 Marangoni-Bénard instability HY.02 Experimental analysis of
HY.03 Suppressing van der Waals
in microgravity: PTV-analysis of the
evaporation-driven Bénard instabilities driven rupture through shear
velocimetry data generated during the F. Chauvet, S. Dehaeck, P. Colinet
M. Davis, M. Gratton, S. Davis
BAMBI - FOTON-M2 experiment
S. Dehaeck, S. Talvy, A. Rednikov,
P. Queeckers, P. Colinet
11:09
HW.04 Wicking flow through
microfluidic channels H. Mehrabian,
P. Gao, J. Feng
HY. Instability: Interfacial and
Thin Film V
Room: Regency E
Chair: Y. Young, New Jersey Institute
of Technology
10:56
HW.03 Using Convective Flow to
Reach the Kinetic Limit of Surfactant
Transport to a Stationary Microbubble
N. Alvarez, D. Vogus, L. Walker,
S. Anna
HX.01 Low-order stochastic model
for the low-frequency shock motions in
shock/boundary-layer interactions
E. Touber, N. Sandham
10:43
HX. Compressible Flows II
Room: Regency D
Chair: G. Settles, The Pennsylvania
State U.
10:30
HW.01 Elastocapillary snapping
HW.02 Capillary bond between
A. Antkowiak, A. Fargette, S. Neukirch rod-like microparticles at interfaces
L. Botto, K. Stebe
HW. Surface Tension II
Room: Regency C
Chair: I. Akhatov, North Dakota State
U.
Session
11:22
11:35
HX.06 Influence of wall heating on a
shock-wave / turbulent boundary layer
interaction L. Larcheveque,
J. Dussauge
HW.06 On the structure of
Marangoni-driven singularities
R. Krechetnikov
HZ.05 Pinning of rotating waves in
systems with imperfect SO(2)
symmetry F. Marques, A. Meseguer,
J. Lopez, R. Pacheco
HZ.06 The attractor manifold of the
flow past a circular cylinder for
Re = 100 I. Barbeiro,
J. Meneghini, J. Aranha
HY.05 Viscous dispersion effects on HY.06 Fingering instability down the
bound-state formation in falling liquid outside of a vertical cylinder
films M. Pradas, D. Tseluiko,
L. Smolka, M. SeGall
S. Kalliadasis
HX.05 Zones of Influence and Low
Frequency Shock Motion in a Shock
Boundary Layer Interaction
L. Agostini, L. Larcheveque, P. Dupont,
J. Debieve, J. Dussauge
HW.05 Migration of droplets driven
by thermocapillary stress J. Gomba,
G. Homsy
HD.07 A discrete-forcing immersed HD.08 Effects of mass ratio to
boundary method for the fluid-structure flexible flapping-wing propulsion
interaction of an elastic slender body M. Xu, M. Wei, T. Yang, T. Burton
I. Lee, H. Choi
HE.07 Numerical and experimental
analysis of the near wake flow over a
square cylinder E. Serre, M. Minguez,
C. Brun, R. Pasquetti
HF.07 DNS study of a separation
bubble in a turbulent boundary layer
H. Abe, Y. Mizobuchi, Y. Matsuo
HG.07 Internal waves crossing an
interface J. McHugh
HH.07 Time-periodic traveling
solutions of localized convection cells
and their collision in binary fluid
mixture T. Watanabe, K. Toyabe,
M. Iima, Y. Nishiura
HJ.07 On the lower bound of net
driving power in controlled duct flows
K. Fukagata, K. Sugiyama, N. Kasagi
HD. CFD II: Immersed
Boundary Methods and
Room: 102B
Chair: J. Yang, U. of Iowa
HE. Instability: Jets and
Wakes II
Room: 102C
Chair: V. Sharma, Massachusetts
HF. Separated Flows II
Room: 103A
Chair: F. Najjar, Lawrence Livermore
National Laboratory
HG. GFD: Atmospheric
Flows II
Room: 103B
Chair: G. Matheou, Jet Propulsion
Laboratory/NASA
HH. Convection and
Buoyancy Driven Flows V
Room: 103C
Chair: S. Zhou, South China Sea
Institute of Oceanology
HJ. Flow Control V
Room: 201A
Chair: T. Colonius, California Institute
of Technology
HK. Granular Flows II
HK.07 Measuring the effect of air
during granular impact events D. van
Room: 201B
Chair: N. Pohlman, Northern Illinois U. der Meer, T. Homan, S. Joubaud,
D. Lohse
HC.07 Evaporation and impact of
water droplet on superhydrophobic
surfaces P. Tsai, M. Hendrix,
R. Dijkstra, R. Lammertink,
M. Wessling, D. Lohse
HC. General Fluid Dynamics II
Room: 102A
Chair: O. Schilling, Lawrence
12:14
HF.09 PIV Measurements of the
Near-Wake behind a Fractal Tree
K. Bai, C. Meneveau, J. Katz
HE.09 Low-Reynolds numbers
vortex-induced vibrations by means of
asymptotic methods J. Chomaz,
P. Meliga
HD.09 A fully-coupled approach to
simulate three-dimensional flexible
flapping wings T. Yang, M. Wei
HC.09 Experiments on Spray from a
Rolling Tire C. Radovich, F. Browand
HB.09 The Drag of 2D
Single-Roughness Elements Immersed
in Turbulent Boundary Layers B. Tee,
T. Nickels
HA.09 Measuring anisotropy of
conditional structure functions in
turbulence using real-time image
compression S. Wijesinghe, D. Blum,
G. Voth
HH.09 Dynamical behavior of lean
swirling premixed flame generated by
change in gravitational orientation
H. Gotoda, T. Miyano, I. Shepherd
HK.08 Emergence of fluid-like
granular ejectas generated by sphere
impact J. Marston, S. Thoroddsen
12:27
HH.10 Three-dimensional
simulations of burning thermals
A. Aspden, J. Bell, S. Woosley
HG.10 Temporal behavior and vortex
topology of topographic wave-breaking
O. Eiff, N. Boulanger, K. Leroux,
A. Paci
HF.10 PIV Analysis Comparing
Aerodynamic Downforce Devices on
Race Car in Water Tunnel S. Hellman,
P. Tkacik, M. Uddin, S. Kelly
HE.10 Energy extraction from a low
Reynolds-number-flow using
vortex-induced vibrations and optimal
control P. Meliga, J. Chomaz
HB.10 Turbulence characteristics
around a staggered wind farm
configuration: A wind tunnel study
L. Chamorro, R. Arndt, F. Sotiropoulos
HA.10 On Multiscale Geometrical
Statistics of Anisotropic Homogeneous
Turbulence F. Jacobitz, K. Schneider,
W. Bos, M. Farge
73
HK.09 Cooperative penetration in a HK.10 Electrostatics in sandstorms
light granular medium J. Ruiz-Suarez, and earthquakes T. Shinbrot,
F. Pacheco-Vazquez
N. Thyagu, T. Paehtz, H. Herrmann
HJ.08 Optimal localized control of
HJ.09 Pumping or drag reduction?
the onset of turbulence in a channel
J. Hoepffner, K. Fukagata
flow R. Moarref, B. Lieu, M. Jovanovic
HH.08 Convective instabilities in a
ferrofluid with a viscoelastic carrier fluid
H. Pleiner, J. Martinez-Mardones,
L. Perez, D. Laroze
HG.08 Synchronization of modulated HG.09 Radiative instability in
travelling baroclinic waves in thermally stratified rotating flows S. Le Dizes,
driven rotating annulus flows
X. Riedinger, P. Meunier
A. Castrejon Pita, P. Read
HF.08 Study of interacting shear
layers in the formation of grid
turbulence J. Cardesa-Duenas,
T. Nickels
HE.08 Design of an End Plate to
Promote Quasi-Two-Dimensionality in
the Near-Wake of a Circular Cylinder
T. Aydin, A. Blackmore, A. Ekmekci
HC.08 Spray From a Rolling Tire:
Mechanics of Droplet Formation
D. Plocher, F. Browand
HB.08 Effect of wall-mounted
cylinders on a turbulent boundary
layer: V3V measurements M. Ryan,
C. Ortiz-Dueñas, E. Longmire,
D. Troolin
HB.07 Effect of wall-mounted
cylinders on a turbulent boundary
layer: hot wire measurements
C. Ortiz-Dueñas, M. Ryan, E. Longmire
12:01
HA.08 Small-scale intermittency in
anisotropic stably stratified turbulence
S. Almalkie, S. de Bruyn Kops
HB. Turbulent Boundary
Layers V
Room: 101B
Chair: J. Wallace, U. of Maryland
11:48
HA.07 Quantifying the Effects of
Large Scale Intermittency in
Turbulence D. Blum, G. Voth
HA. Turbulence Theory II
Room: 101A
Chair: R. Rubinstein, NASA Langley
Session
12:40
Lunch Break, 12:40–14:00
HM.07 Capillary threads and
HM.08 Inertially Stabilized
droplet-decorated streams in
Microfluidic Crystals: Self-assembly
microchannels S. Darvishi, T. Cubaud and Spatial Frequency Tuning W. Lee,
H. Amini, H. Stone, D. Di Carlo
HN.07 Oscillatory vortex formation
behind a movable plat M. Vukicevic,
G. Pedrizzetti
HP.07 Induced-Charge
Electro-Osmosis Micropumps for
Portable Microfluidics: theory and
experiment J. Paustian, T. Squires
HQ.07 Singular jets in the formation HQ.08 Marginal Pinching in a Bubble HQ.09 Explosion-Induced
of bubbles in viscous fluids T. Seon, Sitting on a Solid Surface
Implosions of Cylindrical Shell
V. Duclaux, A. Antkowiak
G. Berteloot, P. Kavehpour,
Structures C. Ikeda, J. Duncan
P. Sharif-Kashani
HN. Vortex Flows:
Vortex-Induced Vibrations
and Unsteady Flows
Room: 202C
Chair: D. Bohl, Clarkson U.
HP. Microfluids: Fluidic
Devices II
Room: 203A
Chair: A. Guenther, U. of Toronto
HQ. Bubbles II
Room: 203B
Chair: P. Yue, Virginia Polytechnic
12:14
HM. Microfluids: General V:
Particle Manipulation
Room: 202B
Chair: M. Muradoglu, Koc U. , Turkey
12:01
HN.09 Fluid flow over an elliptical
cylinder undergoing a
rotationally-oscillating motion
E. Alawadhi
74
HV.09 Experimental study on
intensity of change in viscosity by a
chemical reaction on a liquid flow
S. Iwata, Y. Nagatsu, Y. Kato, Y. Tada
HV.08 Ex vivo Characterization of
Blast Wave Impact and Spinal Cord
Tissue Deformation J. Chen, J. Gao,
S. Connell, R. Shi
HV. Reacting Flows I
Room: Regency B
Chair: M. Ihme, U. of Michigan
HV.07 Quantitative Visualization of
transverse annular jets B. Ventura,
K. Chow-Yee, J. Damazo, P. Boettcher,
J. Shepherd, I. Mikellides, D. Vaughan
HU.09 Oil filaments produced by an
impeller in a water stirred tank
R. Sanjuan-Galindo, E. Soto,
G. Ascanio, R. Zenit
HU. Multiphase Flows V
HU.07 On the periodic motion of a
HU.08 Stretching of flexible
disk falling freely in a tube N. Brosse, molecules inside fluid threads
Room: Regency A
P. Arratia, G. Juarez
Chair: V. Ajaev, Southern Methodist U. P. Ern
HT.09 Analysis of the Flapping
Dynamics of a Slender Within a
Soap-Film Flow Tunnel R. Portaro,
M. Fayed, H. Ait Abderrahmane, H. Ng
HT.07 Experimental study of the
wing-rotation mechanism using a
mechanical flapper operating at high
Reynolds numbers (105 ∼106 )
Y. Chang, S. Ting, J. Yang
HT. Biolocomotion VI:
Flapping and Flying II
Chair: H. Fu, U. of Nevada Reno
HT.08 Elasticity Estimation of Thin
Flap Using Optical PIV Velocity Fields
J. Westerdale, M. Belohlavek,
E. McMahon, P. Jiamsripong, J. Heys,
M. Milano
HS.08 Viscous drop collisions on
HS.09 Drop fragmentation due to
surfaces of varying wettability
hole nucleation during Leidenfrost
D. Bolleddula, A. Berchielli, A. Aliseda impact C. Pirat, A. Biance, C. Ybert
HS.07 Thermal Boundary Layer
Dynamics in Multiple Droplet
Impingement M. Trujillo, S. Lewis,
E. Gehring
HS. Drops IX: Impact
Chair: M. Herrmann, Arizona State U.
HQ.10 Single cavitation bubble
dynamics in micro-channels near free
and rigid boundaries O. Enriquez,
D. van der Meer, D. Lohse, C. Ohl
HN.10 Vortex shedding interactions
between an oscillating wing and a
D-shaped cylinder C. Finkel, K. von
Ellenrieder
HM.10 Droplets and stratifications in
square microchannels T. Cubaud,
R. Sun
12:27
HV.10 Buoyancy-driven instabilities
of acid-base fronts C. Almarcha,
Y. R’Honi, P. Trevelyan, A. De Wit
HU.10 Improved flying hot-film
anemometry in liquid-gas flows
S. Mendez-Diaz, R. Zenit,
J. Hernandez-Cordero
HT.10 Wing compliance in
self-propelled flapping flyers
S. Ramananarivo, B. Thiria,
R. Godoy-Diana
HR.09 Dynamics of the ejecta sheets HR.10 Rosace patterns in drop
generated by a drop impact
impact G. Lagubeau, M. Fontelos,
M. Thoraval, S. Thoroddsen
C. Josserand, A. Maurel, V. Pagneux,
P. Petitjeans
HR.08 Impact and bouncing of a
liquid onto an inclined wet surface
T. Gilet, J. Bush
HR. Drops VIII: Impact
HR.07 Direct Numerical Simulation
of Cell Printing R. Qiao, P. He
Room: 203C
Chair: S. Afkhami, New Jersey Institute
of Technology
HP.08 Regulating flow with substrate HP.09 Pumping of Dielectric Liquids
shape in capillary micropumps
Using Non-Uniform-Field Induced
M. Hancock, J. Bush
Electrohydrodynamic Flow J. Ryu,
W. Kim, K. Kang
HN.08 Computational Analysis of
Vortex Formation Over a Plunge
Oscillating Flat Plate with Various Slip
Conditions J. Palmore, M. Sharif,
A. Lang
HM.09 Modification of inertial
focusing position by the restriction
effect E. Sollier, H. Amini, J. Achard,
D. Di Carlo
HL.08 Secondary flow structures
HL.09 Relationship between
under simple harmonic inflow in a bent potential platelet activation and LCS
pipe model for curved arteries
S. Shadden
A. Glenn, P. Seagrave, F. Shu,
K. Bulusu, M. Plesniak
11:48
HL.07 Three-dimensional Particle
Image Velocimetry of Optically Opaque
Flows using Ultrasound Contrast
Agents H. Gelshorn, A. Medina,
D. Lotz, D. Fisher,
J. Rodriguez-Rodriguez, J. del Alamo,
T. Hoelscher
Session
HL. Biofluids: Physiological
Circulatory II
Room: 202A
12:40
HZ.07 Experiments in the stability of HZ.08 Measurement Techniques:
basic two-dimensional flows
Viscosity and Surface Drag in
P. Fontana, E. Titmus, A. Kirn
Quasi-Two-Dimensional Flows
E. Titmus, A. Kirn, P. Fontana
HZ. Instability: General II
Room: Regency F
Chair: L. Kondic, New Jersey Institute
of Technology
12:27
HW.10 Colloidal dynamics near an
interface M. Mani, V. Manoharan,
M. Brenner, D. Kaz, R. Mcgorty
75
HZ.09 Experimental Exploration of
the Dispersion Relation of
Rayleigh-Taylor Instability M. Renoult,
C. Chen, S. Ferjani, P. Carlès,
C. Rosenblatt
HY.09 Gravity-driven propagation of HY.10 Effect of Variable Viscosity on
thin non-isoviscous rivulets on vertical Stabilization in Hele-Shaw Flows
and inclined planes A. Filippov,
P. Daripa
G. Peng
HX.09 DNS of shock-turbulent
HX.10 Similarity scaling in
boundary layer interaction S. Muppidi, shock-turbulence interactions
K. Mahesh
D. Donzis
HY.07 Transverse Fracture Bands
HY.08 Influence of Inertia, Gravity
during Rapid Peeling of Adhesive Tape and Thermal Conditions on the Draw
S. Thoroddsen, H. Nguyen,
Resonance Z. Zheng, O. Boratav
K. Takehara, T. Etoh
HX.08 A-priori and a-posteriori
assessment of SGS models for
shock-boundary layer interactions
A. Jammalamadaka, Z. Li, F. Jaberi
HY. Instability: Interfacial and
Thin Film V
Room: Regency E
Chair: Y. Young, New Jersey Institute
of Technology
12:14
HX.07 Direct Numerical Simulation
of Mach 3 Compression Ramp Flow
S. Priebe, P. Martin
12:01
HX. Compressible Flows II
Room: Regency D
Chair: G. Settles, The Pennsylvania
State U.
11:48
HW.07 On the true nature of
HW.08 A VOF-based method for the HW.09 Capillary interactions
chemical reaction-driven tip-streaming simulation of thermocapillary flow
between elongated microparticles: A
H. Mayer, R. Krechetnikov
C. Ma, D. Bothe
Pair Potential K. Stebe,
E. Lewandowski, L. Botto
HW. Surface Tension II
Room: Regency C
Chair: I. Akhatov, North Dakota State
U.
Session
12:40
Refreshment Break
15:15 – 15:35, Promenade Ballroom
76
Invited Session KT
Chair: Pirouz Kavehpour, University of California, Los Angeles
Dynamics Of Suspended Colloidal Particles Near A Wall: Electrokinetic Effects And Implications For Particle-based Velocimetry Minami
Yoda, Georgia Institute of Technology
Invited Session KS
Chair: Colm-cille Caulfield, Cambridge University
Ocean Circulation And Surface Buoyancy Fluxes: Dynamics And Energetics Ross Griffiths, The Australian National University
Mini Break
14:35 – 14:40
Invited Session JT
Chair: Paul Ronney, University of Southern California
Splashes Christophe Clanet, LadHyX, Ecole Polytechnique, France
Invited Session JS
Chair: Parviz Moin, Stanford University
Dynamics Of Electrically Conducting Fluids Daniele Carati, Universite Libre de Bruxelles, Belgium
Monday Afternoon, 22 November 2010
LD.02 An hybrid a priori/a posteriori
method for assessing LES models
D. Carati, B. Cassart, B. Teaca
LE.02 Effect of carbon content on
hypersonic shear layer instability
L. Massa
LH.02 Transient growth on horizontal LH.03 Internal bores: An improved
shear with vertical stratification
model via a detailed analysis of the
C. Arratia, J. Chomaz, S. Ortiz
energy budget Z. Borden, T. Koblitz,
E. Meiburg
LJ.02 Direct Numerical Simulation of LJ.03 Sound generated by a vortex
Three Dimensional Honeycomb Liner convected past an elastic sheet
with Circular Apertures Q. Zhang,
A. Manela
D. Bodony
LK.02 Effects of Fibrinogen on RBC
Aggregation and Rouleux Formation
D. Fedosov, W. Pan, B. Caswell,
G. Gompper, G. Karniadakis
LD. Turbulence Simulations II LD.01 Fully adaptive LES of
homogeneous turbulent flows G. De
Room: 102B
Stefano, O. Vasilyev
Chair: P. Yeung, Georgia Institute of
Technology
LE.01 Linear stability analysis of
planar reacting shear layers Y. See,
M. Ihme
LF.01 On the atmosphere of a
moving body J. Roenby, H. Aref
LG.01 Cross-equatorial flow of
Antarctic Bottom Water and the
complete Coriolis force A. Stewart,
P. Dellar
LH.01 Absolute instability of gravity
waves M. Ahmed, J. Chomaz
LE. Instability and
Turbulence: Shear Layers
Room: 102C
Chair: C. da Silva, IST/Technical U. of
Lisbon
LF. Chaos and Fractals
Room: 103A
Chair: J. Thiffeault, U. of
Wisconsin-Madison
LG. GFD: Oceanography III
Room: 103B
Christi
LH. GFD: General I
Room: 103C
Chair: P. Linden, U. of Cambridge
LJ. Acoustics II
LJ.01 Acoustic-structure interaction
of a plate in a duct with flow
Room: 201A
Chair: M. Krane, Pennsylvania State U. M. Sucheendran, D. Bodony,
P. Geubelle
LK. Biofluids: Cellular I
Room: 201B
Chair: C. Min Leong, Rensselaer
LK.01 A Comparison of Multi-scale
and Low-Dimensional Models of Red
Blood Cells W. Pan, D. Fedosov,
B. Caswell, G. Karniadakis
LC.02 Stereo-PIV study of turbulent
flow downstream of a bend in a round
pipe J. Sakakibara, A. Hashimoto
LG.02 Generation of a jet by a
sphere descending in stratified fluids
H. Hanazaki, H. Yoshikawa,
T. Okamura
77
LK.03 Effect of the natural state of
an elastic cellular membrane on
tank-treading and tumbling motions of
a single red blood cell K. Tsubota,
S. Wada, H. Liu
LG.03 Boundary Layer Effects on
Internal Wave Generation in a Stably
Stratified Fluid L. Eberly,
J. Vanderhoff
LF.02 The phase portrait of aperiodic LF.03 On the cost-effectiveness of
non-autonomous dynamical systems mixing optimization O. Gubanov,
A. Mancho, C. Mendoza
L. Cortelezzi
LE.03 Evolution of the mean
dynamics of a shear-wake flow
M. Bamberger, J. Klewicki
LD.03 A Subgrid Scale Estimation
Model for Large Eddy Simulation
K. Mahesh, R. Sau
LC.03 Simultaneous DDPIV of the
elastic wall and working fluid near the
reflection sight of a valveless
impedance pump J. Meier,
D. Rinderknecht, M. Gharib
LB.03 Analysis of the Mean
Momentum Balance in Polymer Drag
Reduced Turbulent Boundary Layers
C. White, M. Blake, J. Klewicki,
Y. Dubief
LC.01 Stereo PIV Measurements in
the Wall-Normal-Spanwise Plane of
Turbulent Channel Flow J. Barros,
K. Christensen
LB.02 Characteristics of Turbulent
flow over Superhydrophobic Surfaces
J. Franck, C. Peguero, C. Henoch,
K. Breuer
LC. Experimental
Techniques I
Room: 102A
Chair: D. Troolin, TSI Incorporated
16:01
LB.01 Boundary layer flow over
streamwise grooves C. Martel,
J. MartÍn
15:48
LB. Turbulent Boundary
Layers VI
Room: 101B
Chair: R. J. Adrian, Arizona State U.
15:35
LA.01 Regularization mechanism of LA.02 Vortex interactions and mixing LA.03 Transport, dispersion and
Rayleigh-Taylor turbulent mixing
in large Atwood number
mixing in quasi-two-dimensional steady
S. Abarzhi
two-dimensional turbulence L. Joly,
jets J. Landel, C. Caulfield, A. Woods
J. Reinaud, J. Fontane
LA. Turbulent Mixing III
Room: 101A
Chair: D. H. Kelley, Yale U.
Session
16:14
16:27
16:40
LC.06 Reduction in the divergence of
Tomographic P.I.V. results, using the
method of Projection Onto Convex
Sets T. Clark, T. Nickels
LB.06 The coherent structure of
atmospheric surface layers
K. Chauhan, N. Hutchins, I. Marusic,
J. Monty
LA.06 Experimental Study of Mixing
dynamics in Stratified Jet D. Xu,
J. Chen
LH.05 A Lagrangian description of
the energetics of stably stratified
turbulence S. Jo, K. Nomura,
J. Rottman
LG.05 Turbidity Currents in
Meandering Channels
M. Nasr-Azadani, M. Zoellner,
E. Meiburg
LF.05 Trapping of Swimming
Particles in Chaotic Fluid Flow
N. Khurana, J. Blawzdziewicz,
N. Ouellette
LE.05 Similarity in 2-D spatially
developing and long shear layers
C. Carton de Wiart, G. Winckelmans,
C. Bailly, P. Chatelain, F. Thirifay,
A. Rhosko
LH.06 Regimes of Turbulent Rotating
COnvection E. King, J. Aurnou
LG.06 Double-Diffusive and
Gravitational Instabilities in
Particle-laden River Outflows
P. Burns, E. Meiburg
LF.06 Rayleigh-Taylor unstable,
premixed flames: the transition to
turbulence E. Hicks, R. Rosner
LE.06 Identification of the Viscous
Superlayer on the Low-Speed Side of a
Single-Stream Shear Layer J. Foss,
J. Peabody
LD.05 Dynamic Lagrangian model
LD.06 Assessment of SGS models in
and wall model for LES on unstructured an Reτ = 2000 channel flow
grids A. Verma, K. Mahesh
S. Bose, P. Moin
LC.05 Scalable Tomographic PIV
using a Reprojection Reconstruction
Technique R. La Foy, S. Raben,
P. Vlachos
LB.05 Local suppression of turbulent
noise by passively inducing
relaminarization R. Kirkman,
M. Metzger
LA.05 Influence of flow topology on
Lagrangian statistics in forced 2-D
turbulence B. Kadoch,
D. del-Castillo-Negrete, W. Bos,
K. Schneider
LK.04 The Contribution of Red Blood
Cell Dynamics to Intrinsic Viscosity and
Functional ATP Release A. Forsyth,
M. Abkarian, J. Wan, H. Stone
LK.05 Occlusion of Small Vessels by LK.06 Molecular-detailed simulation
Malaria-Infected Red Blood Cells
of red blood cells in Stokes flows
H. Lei, D. Fedosov, B. Caswell,
Z. Peng, Q. Zhu
G. Karniadakis
LJ.04 Implementation of Active
LJ.05 Aero-acoustic performance of LJ.06 Investigation and Control of
Noise Control in a Closed-Circuit Wind Fractal Spoilers J. Nedic,
Flow-Induced Helmholtz Resonance
Tunnel M. Kuester, E. White
B. Ganapathisubramani, C. Vassilicos, R. Ma, S. Morris, B. Castello
J. Boree, L. Brizzi, A. Spohn
LH.04 Stability of isolated Barchan
dunes A. Fourrière, F. Charru
LG.04 Direct numerical simulations
of flow over ridges in presence of
waves and current L. Chau,
K. Bhaganagar
LF.04 Coupled Droplet Oscillators
and Symmetry Detectives D. Slater,
P. Steen
LE.04 Is the growth rate of a
turbulent mixing layer universal ?
S. Suryanarayanan, R. Narasimha
LD.04 Quantification of
Sub-Grid-Scale Terms in Plasma
Turbulence T. Rao, R. Samtaney,
D. Keyes
LC.04 PIV measurement of flow
around an arbitrarily moving body
Y. Jeon, H. Sung
LB.04 Air-Induced Drag Reduction at
High Reynolds Numbers: Velocity and
Void Fraction Profiles B. Elbing,
S. Mäkiharju, A. Wiggins, D. Dowling,
M. Perlin, S. Ceccio
LA.04 Shape Dynamics of
Lagrangian Clusters in
Two-dimensional Flow A. de
Chaumont Quitry, D. Kelley,
S. Merrifield, N. Ouellette
Session
15:35
15:48
16:01
LN.01 On the spanwise variation of LN.02 The Effect of Relative
vortex shedding in the wake of slender Submergence and Shape on the Wake
cones C. Jagadeesh, M. Gaster
of a Low-Aspect-Ratio Wall-Mounted
body S. Hajimirzaie, C. Wojcik,
J. Buchholz
LP.01 Temperature-Controlled
Free-Surface Microfluidic Devices
M. Barmi, B. Piorek, C. Andreou,
C. Meinhart
LQ.01 Nonlinear instability in
LQ.02 Nature’s Helical Propeller
flagellar dynamics: a novel modulation S. Spagnolie, E. Lauga
mechanism in sperm migration?
H. Gadelha, E. Gaffney, D. Smith,
J. Kirkman-Brown
LR.01 Strain-softening elasticity
model of the encapsulation of an
ultrasound contrast microbubble
S. Paul, K. Sarkar, F. Forsberg
LS.01 Effect of contact line dynamics
on capillary wave scattering by an
infinitesimal barrier L. Zhang,
D. Thiessen
LT.01 Effect of low-amplitude
LT.02 Investigation of vortex
vibrations on impulsively-started wings saturation for a simultaneously rotating
J. Shang, H. Babinsky
and pitching wing P. Mahajan,
M. Ringuette, J. Trzakos, J. Sisti
LU.01 Large Eddy Simulations Of A
Turbulent Auto-Igniting C2H4 Flame
DNS E. Knudsen, . Shashank,
H. Pitsch, E. Richardson, J. Chen
LV.01 3D Flame and Eddy Structures
of Turbulent Plane Jet Premixed Flame
M. Shimura, K. Yamawaki,
N. Fukushima, Y. Shim, M. Tanahashi,
T. Miyauchi
LN. Vortex Flows: Bluff
Bodies
Room: 202C
Chair: B. Shivamoggi, U. of Central
Florida
LP. Microfluids: Fluidic
Devices III
Room: 203A
Chair: A. Alexeev, Georgia Institute of
Technology
LQ. Biolocomotion VII:
Micro-Swimming III
Room: 203B
Chair: S. Alben, Georgia Institute of
Technology
LR. Bubbles III
Room: 203C
LS. Drops X
Chair: O. Basaran, Purdue U.
LT. Biolocomotion VIII:
Flapping and Flying III
Chair: H. Luo, Vanderbilt U.
LU. Reacting Flows II
Room: Regency A
Chair: L. Su, Johns Hopkins U.
LV. Reacting Flows III
Room: Regency B
Chair: D. Haworth, Pennsylvania State
U.
LV.02 Three-dimensional DNS of
turbulent premixed flames in a constant
volume vessel N. Fukushima,
A. Tsunemi, M. Shimura, Y. Shim,
M. Tanahashi, T. Miyauchi
78
LV.03 Analysis of Turbulent Premixed
Flames using Gradient Trajectories
J. Goebbert, M. Gauding, M. Gampert,
P. Schaefer, N. Peters
LM.05 Interaction of two magnetic
particles in a rotating magnetic field
T. Kang, M. Hulsen, J. den Toonder,
P. Anderson, H. Meijer
LQ.04 Hydrodynamics of insect
spermatozoa O. Pak, E. Lauga
LV.04 Mixture fraction and its
Dissipation in a turbulent flame by
using Krypton PLIF
V. Narayanaswamy, A. Hsu,
N. Clemens, J. Frank
LU.04 Effects of turbulence on
syngas ignition in rapid compression
machines M. Ihme, A. Soimakallio
LT.04 Three-Dimensional Wing
Kinematics and Aerodynamic
Characteristics of a Beetle in Free
Flight T. Truong, D. Byun, H. Tran,
T. Le, H. Park, M. Kim
16:40
LS.06 Theoretical investigation of the
motion of two-dimensional droplets on
inclined substrates N. Savva,
S. Kalliadasis
LR.06 Direct numerical simulation of
confined drops and bubbles at low
capillary numbers S. Afkhami,
A. Leshansky, Y. Renardy
LQ.06 “Corkscrew” vs.
“tank-treading” propulsion of
spirochetes. A. Leshansky,
O. Kenneth
LP.06 Microfluidic waves for flow
control H. Haj-Hariri, M. Utz,
M. Begley
LN.06 Leading Edge Vortex
Detection Using On-Body Pressure
Sensing J. Dusek, J. Dahl,
M. Triantafyllou
LM.06 Electric-field-induced pattern
formation in colloidal suspensions
J. Park, D. Saintillan
LV.05 PDF-Based Simulations of
Nonpremixed Turbulent Jet Flames
With Advanced Radiation Models
G. Pal, M. Modest, A. Gupta,
D. Haworth
LU.05 Simulation of Electron and Ion
Transport in Methane-Air Counterflow
Diffusion Flames S. Choi, F. Bisetti,
S. Chung
LV.06 Large-eddy
simulation/probability density function
modeling of local extinction and
re-ignition in Sandia Flame E
H. Wang, P. Popov, V. Hiremath,
S. Lantz, S. Viswanathan, S. Pope
LU.06 Direct Numerical Simulation of
electrochemical reactions in a turbulent
electrolyte O. Doche, F. Bauer,
S. Tardu
LT.05 Wing Flexion and
LT.06 Two- and three-dimensional
Aerodynamics Performance of Insect numerical simulations of
Free Flights H. Dong, Z. Liang, Y. Ren clap-fling-sweep of hovering insects
M. Farge, D. Kolomenskiy, K. Moffatt,
K. Schneider
LS.05 Optical characteristics and
nonlinear dynamics of a pinned-contact
double droplet system J. Olles,
A. Hirsa, M. Vogel
LR.05 Single bubble bouncing on a
free surface and effect of the rising
velocity and surface tension
T. Oyama, S. Takeuchi, S. Takagi,
Y. Matsumoto
LQ.05 The dependence of the
swimming efficiency of multi-flagellated
bacteria on the geometric arrangement
of flagella N. Watari, R. Larson
LP.04 Numerical analysis of a fluidic LP.05 Microfluidic strategy to
oscillator S. Hoettges, T. Schenkel,
investigate dynamics of small blood
H. Oertel
vessel function S. Yasotharan,
S. Bolz, A. Guenther
LS.03 A simple feedback algorithm to LS.04 Contact angle hysteresis at
predict the contact angle with contact the nanometer scale T. Ondarcuhu,
angle hysteresis J. Park, K. Kang
M. Delmas, M. Monthioux
LT.03 Lift, Drag and Flow-field
Measurements around a
Single-degree-of-freedom Toy
Ornithopter R. Chavez Alarcon,
B. Balakumar, J. Allen
16:27
LL.03 Single vesicle dynamics in various flows: Experiment versus theory
V. Steinberg
LN.04 Horseshoe Vortex Dynamics LN.05 Secondary Vortex Structures
in Cylinder-Wall and Cylinder-Endplate in Vortex Generator Induced Flow
Junctions A. Blackmore, T. Aydin,
C. Velte, V. Okulov, M. Hansen
A. Ekmekci
LM.04 Effectiveness of
Magnetohydrodynamics in
Microdevices for Fluid Flow Y. Panta,
W. Lin
LR.03 Evolution of an elastic capsule LR.04 Numerical Study of Taylor
in two-dimensional Stokes flow
Bubble Dynamics J. Lou, S. Quan,
M. Higley, M. Booty, M. Siegel
C. Kang
LU.02 Spark Ignition: Effects of Fluid LU.03 Critical ignition in rapidly
Dynamics and Electrode Geometry
expanding self-similar flows
S. Bane, J. Ziegler, J. Shepherd
M. Radulescu, B. Maxwell
LS.02 Contact-line pinning of a
perfectly wetting volatile liquid
overfilling a square hole with a tiny
triangular groove along its perimeter:
experiments and theoretical static
shapes Y. Tsoumpas, S. Dehaeck,
A. Rednikov, P. Colinet
LR.02 Bubble dynamics in a
Hele-Shaw cell S. Piedra, E. Ramos
LQ.03 Flagellar propulsion near
walls A. Evans, E. Lauga
LP.03 Nanoaquarium for Imaging
Processes in Liquids with Electrons
J. Grogan, H. Bau
LN.03 Experimental Investigations of
the Flow past Circular Cylinders with
Stepwise Discontinuities C. Morton,
S. Yarusevych
LM.01 Topology Optimization of
LM.02 Numerical Simulation on the LM.03 Three-dimensional rotational
Regenerators for Magnetic
Liquid Bridge Formation by the Applied dynamics of superparamagnetic
Refrigeration F. Okkels, G. Panagakos Electric Pulse J. Hong, I. Kang
microrods M. Fermigier, N. Coq,
S. Ngo, O. du roure, D. Bartolo
LP.02 Detection of Yeast Cells;
Microfluidic Impedance Sensor
K. Hulea, N. Matune, B. Mabbott,
Y. Panta
16:14
LL.02 Composition dynamics in lipid bilayer membranes over long length
and time scales F. Brown
LM. Microfluids: General VI:
Magnetic and Electric Fields
Room: 202B
Chair: A. Kumar, Oak Ridge National
Laboratory
LL. Mini-Symposium on
LL.01 Dynamic Coarse-grained Modeling of Lipid Bilayer Membranes
Microhydrodynamics of Lipid P. Atzberger
Bi-layer Membranes
Room: 202A
LZ.02 Global Instability and Transient LZ.03 A new analysis of the
Growth in a Model Fusifom Aneurysm Rayleigh-Bènard instability
with Steady Inflow G. Sheard,
A. Prosperetti
H. Blackburn
LZ. Instability: General III
Room: Regency F
Chair: M. Bestehorn,
Brandenburgische Technische
Universitaet Cottbus
LZ.01 The Jeffery–Hamel similarity
solution and its relation to symmetry
breaking in two-dimensional,
diverging-channel flow P. Haines,
R. Hewitt, A. Hazel
LY.02 A New Theory of Oscillating
Flows V. Vladimirov
LY. Viscous Flows
LY.01 Exchange flow of two
immiscible fluids and the principle of
Room: Regency E
Chair: C. D. Mitescu, Pomona College maximum flux R. Kerswell
16:14
LX.04 A computational study of
golfball aerodynamics: effects of
rotation N. Beratlis, K. Squires,
E. Balaras
LW.04 A Numerical Method for
Variable Surface Tension Effects in
Non-Isothermal Atomization with
Overset Grids P. Brady, J. Lopez,
M. Herrmann
79
16:27
16:40
LX.06 Simulation of a Plunging Airfoil
with a Flexible Tail A. Lai, F. Liu
LZ.06 Magnetic Fields Applied to
Paramagnetic Suspensions: The
Hump-Jet Transition S. Tsai, Z. Li,
P. Kim, H. Stone
LY.05 Shape dynamics of a thin loop LY.06 Slender soft-magnetic body in
sedimenting in a viscous fluid
highly viscous flows J. Martindale,
J. Hanna, C. Santangelo
R. Camassa, R. McLaughlin, L. Vicci,
L. Zhao
LX.05 A Panel-Particle Method for
Studies of Maneuvering Aircraft
Formations M. Hemati, J. Eldredge
LW.05 An Experimental Investigation LW.06 Ant Tower N. Mlot,
of the Theory of Electrostatic
S. Shinotsuka, D. Hu
Deflections J. Siddique, R. Deaton,
E. Sabo, J. Pelesko
LZ.04 Comparison of Linear Stability LZ.05 Convection onset in colloidal
and 3-D Time Integration for Predicting suspensions of particles L. Hadji
Instabilities in a Thermocapillary
Driven Liquid Bridge with Magnetic
Stabilization K. Davis, Y. Huang,
B. Houchens
LY.03 The asymptotic structure of a LY.04 The shape of an elastic
slender coiling fluid thread M. Blount, filament in a two-dimensional corner
flow L. Guglielmini, N. Autrusson,
J. Lister
S. Lecuyer, R. Rusconi, H. Stone
LX.03 Aerodynamics of a Dimpled
Vehicle J. Ortega, K. Salari
LX.02 Aerodynamic pitching
damping of vehicle-inspired bluff
bodies M. Tsubokura, S. Cheng,
T. Nakashima, T. Nouzawa, Y. Okada
LX.01 Aerodynamic shape
optimization of Airfoils in 2-D
incompressible flow S. Rangasamy,
H. Upadhyay, S. Somasekaran,
S. Raghunath
16:01
LW.03 Transition Regimes of Jet
Impingement on Rib and Cavity
Superhydrophobic Surfaces
M. Johnson, D. Maynes, B. Webb
LX. Aerodynamics IV
Room: Regency D
Chair: J. Little, U. of Arizona
15:48
LW.02 Delayed Coalescence of
Sessile Droplets with Different but
Miscible Liquids S. Karpitschka,
H. Riegler
15:35
LW. Surface Tension III
LW.01 Capillary rise in wedges
A. Ponomarenko, C. Clanet, D. Quere
Room: Regency C
Chair: A. Lukyanov, U. of Reading, UK
Session
LF.07 Characterizing changes in
topological entropy via break up of
almost-invariant sets P. Grover,
M. Stremler, S. Ross, P. Kumar
LF. Chaos and Fractals
Room: 103A
Chair: J. Thiffeault, U. of
Wisconsin-Madison
LE.09 Dynamic mode decomposition
of turbulent cavity flows for
self-sustained oscillation A. Seena,
H. Sung
80
LK.09 Numerical simulation of
cell/cell and cell/particle interaction in
microchannels T. Pan, L. Shi,
R. Glowinski
LK. Biofluids: Cellular I
Room: 201B
Chair: C. Min Leong, Rensselaer
LK.08 A symplectic integration
algorithm for red blood cells
U. Schiller
LJ.09 Application of Conformal
Transformations to Velocity Sources in
Cavity Aeroacoustics N. Murray,
L. Ukeiley
LJ. Acoustics II
LJ.07 Diffraction of an acoustic wave LJ.08 Modeling of the Flow Field
by a cavitating hydrofoil Y. Antipov
from Turbofan Nozzles with Porous Fan
Room: 201A
Flow Deflectors A. Johnson, J. Xiong,
Chair: M. Krane, Pennsylvania State U.
F. Liu, D. Papamoschou
LK.07 Rheological characterization
of cellular blood via a hybrid
lattice-Boltzmann / coarse-grained
spectrin-link method D. Reasor,
J. Clausen, C. Aidun
LH.09 Tidal instability in
exoplanetary systems D. Cebron,
R. Fares, P. Maubert, C. Moutou, M. Le
Bars, P. Le Gal
LG.08 Investigation of internal wave LG.09 Numerical Simulations of an
amplitude estimates through
Asymptotically Reduced Model of
phase-space ray-tracing J. Vanderhoff Anisotropic Langmuir Turbulence
Z. Zhang, G. Chini, K. Julien,
E. Knobloch
LH.07 The Role of Viscosity Contrast LH.08 Tidal instability and magnetic
on the Plume Structure and Dynamics field generation P. Le Gal, D. Cébron,
in High Rayleigh Number Convection W. Herreman, M. Le Bars, S. Le Dizès
S. KR, V. Prakash, J. Arakeri
LH. GFD: General I
Room: 103C
Chair: P. Linden, U. of Cambridge
17:32
LK.10 Accelerated Boundary Integral
Method in Non-periodic Geometries
and Applications to Flowing Capsules
and Cells A. Kumar, M. Graham
LJ.10 Modification of Instability
Waves and Radiated Sound due to
Heating a Compressible Mixing Layer
D. Bodony
LH.10 Universal scaling law for the
aspect ratio of a pancake vortex in a
rotating stratified medium O. Aubert,
M. Le Bars, P. Le Gal, P. Marcus
LF.10 Diffusion of adiabatic
invariants and mixing in Stokes flows
A. Abudu, D. Vainchtein
LE.10 Time resolved measurements
of the pressure field generated by
vortex-corner interactions in a cavity
shear layer X. Liu, J. Katz
LC.10 Accurate measurement of
streamwise vortices in low speed
aerodynamic flows R. Waldman,
J. Kudo, K. Breuer
LB.09 Analysis of vortex populations LB.10 Coherent Structures in a
in turbulent boundary layers based on Thermally Stable Boundary Layer
tomographic PIV Q. Gao,
O. Williams, S. Bailey, A. Smits
C. Ortiz-Duenas, E. Longmire
LF.08 On the relationship between
LF.09 Eigenmode analysis of scalar
stretching and homogenization in
transport in distributive mixing
chaotic Stokes flows M. Gheisarieha, P. Anderson, M. Singh, M. Speetjes
M. Stremler
LE.08 Effects of resolution on the
fine scale features in the far field of a
turbulent planar mixing layer
O. Buxton, S. Lardeau, S. Laizet,
B. Ganapathisubramani
LE.07 On the thickness of the
turbulent/nonturbulent interface in
shear layers C. da Silva, R. Taveira
LE. Instability and
Turbulence: Shear Layers
Room: 102C
Chair: C. da Silva, IST/Technical U. of
Lisbon
LG. GFD: Oceanography III
LG.07 Exact solutions for scattering
by a patch of finite amplitude periodic
Room: 103B
Chair: D. Bogucki, Texas A&M Corpus bottom topography J. Yu, G. Zheng
Christi
17:19
LA.09 Experimental evidence of a
phase transition in a closed turbulent
flow F. Daviaud, P. Cortet,
A. Chiffaudel, B. Dubrulle
LC.08 Synchrotron X-Ray Three
LC.09 Development of 3D
Dimensional microPIV E. Voigt, R. La tomographic X-ray PIV technique
Foy, K. Fezzaa, W. Lee, P. Vlachos
S. Jung, S. Lee
LB.08 Vortex convection velocities in
wall parallel planes of a turbulent
boundary layer J. LeHew, M. Guala,
B. McKeon
LD.08 On the physics of turbulent
flows in natural meander bends:
Insights gained by LES
F. Sotiropoulos, S. Kang
LC.07 Measurement bias in
intensity-based near-surface particle
velocimetry due to tracer size
variations W. Wang, J. Guasto,
P. Huang
LC. Experimental
Techniques I
Room: 102A
Chair: D. Troolin, TSI Incorporated
17:06
LA.08 Separating stretching from
folding in fluid mixing D. Kelley,
N. Ouellette
LD. Turbulence Simulations II LD.07 A new dynamic eddy viscosity
model for LES R. Verstappen,
Room: 102B
S. Bose, J. Lee, H. Choi, P. Moin
Chair: P. Yeung, Georgia Institute of
Technology
LB.07 Very-Large-Scale Coherent
Structures in the Wall Pressure Field
Beneath a Supersonic Turbulent
Boundary Layer S. Beresh,
J. Henfling, R. Spillers, B. Pruett
LB. Turbulent Boundary
Layers VI
Room: 101B
Chair: R. J. Adrian, Arizona State U.
16:53
LA.07 Variational Theory of
Hyperbolic Lagrangian Coherent
Structures G. Haller
Session
LA. Turbulent Mixing III
Room: 101A
Chair: D. H. Kelley, Yale U.
LP.07 A Portable,
Air-Jet-Actuator-Based Device for
System Identification W. Staats,
J. Belden, A. Mazumdar, I. Hunter
LQ.07 Parametric Studies of
LQ.08 Dynamics of flagellar bundling LQ.09 An Integrative Model of
Swimming Filaments at Low Reynolds P. Janssen, M. Graham
Hyperactivated Sperm Motility
Numbers T. Spoor, S. Koehler,
S. Olson, S. Suarez, L. Fauci
E. Willisson
LR.07 Lattice-Boltzmann study on
LR.08 The Terminal Velocity of a
the drag coefficient dependence on
Bubble in an Oscillating Flow
gas volume fraction and Reynolds
L. Romero, A. Kraynik, J. Torczynski
number in buoyancy-driven
suspensions of spherical gas bubbles
J. Gillissen, S. Sundaresan, H. Van den
Akker
LS.07 Capillary-Based Liquid
Micro/Nano Droplet Deposition
I. Akhatov, A. Lutfurakhmanov,
G. Loken, D. Schulz
LT.07 A computational study of the LT.08 Gliding flight in snakes:
clap-and-fling aerodynamic mechanism non-equilibrium trajectory dynamics
M. Vanella, G. Panagakos, E. Balaras and kinematics J. Socha, K. Miklasz,
F. Jafari, P. Vlachos
LU.07 A CFD model for biomass fast LU.08 Condensed Phase
LU.09 LES Subfilter Modeling of
pyrolysis in fluidized-bed reactors
Combustion in the Presence of Altered Soot-Turbulence Interactions
Q. Xue, T. Heindel, R. Fox
Acoustic Disturbances J. Wegener,
M. Mueller, H. Pitsch
J. Smolke, C. Sevilla, S. Teshome,
O. Smith, A. Karagozian
LV.07 Lagrangian and Eulerian PDF
Simulations of Nonpremixed Turbulent
Flames with Moderate-to-Strong
Turbulence/Chemistry Interactions
J. Jaishree, D. Haworth
LP. Microfluids: Fluidic
Devices III
Room: 203A
Chair: A. Alexeev, Georgia Institute of
Technology
LQ. Biolocomotion VII:
Micro-Swimming III
Room: 203B
Chair: S. Alben, Georgia Institute of
Technology
LR. Bubbles III
Room: 203C
LS. Drops X
Chair: O. Basaran, Purdue U.
LT. Biolocomotion VIII:
Flapping and Flying III
Chair: H. Luo, Vanderbilt U.
LU. Reacting Flows II
Room: Regency A
Chair: L. Su, Johns Hopkins U.
LV. Reacting Flows III
Room: Regency B
Chair: D. Haworth, Pennsylvania State
U.
LV.08 Simulations of Turbulent Spray
Combustion in a Constant-Volume
Chamber for Diesel-Engine-Like
Conditions H. Zhang, D. Haworth
LS.08 Rapid wetting dynamics
A. Carlson, G. Bellani, G. Amberg
LP.08 A hybrid molecular dynamics
study of the translocation of DNA
through entropic traps P. Hotmar
LN.08 Dynamic Wind Loads and
Vortex Structures in the Wake of a
Wind Turbine H. Hu, Z. Yang,
P. Sarkar
LQ.10 Elastic symmetry-breaking in
synchronizing cells G. Elfring,
E. Lauga
LP.10 Free-surface digital
microfluidic systems for optimized
SERS analysis in gas chromatography
B. Piorek, C. Andreou, S. Lee,
M. Moskovits, C. Meinhart
LN.10 Influence of Slip on the Flow
Past Superhydrophobic Circular
Cylinders J. Rothstein, R. Daniello,
N. Ferrer, P. Muralidhar
81
LV.09 Mechanism for AC Electric
Field Deflection of Flames
M. Chemama, K. Bishop,
L. Cademartiri, M. Brenner,
G. Whitesides
LT.09 Flying Snake Flight
Performance: Role of Cross-sectional
Shape and Orientation of Tandem
Body Segments D. Holden,
P. Vlachos, J. Socha
LS.09 Investigation of Contact Angle
Behavior and Tilting Stability of Drops
on Rough Surfaces J. Schmucker,
E. White, J. Osterhout
LV.10 Wildfire simulation using a
chemically-reacting plume in a
crossflow R. Breidenthal, T. Alvarado,
B. Potter
LU.10 On the formation and early
evolution of soot in turbulent
nonpremixed flames F. Bisetti,
G. Blanquart, M. Mueller, H. Pitsch
LT.10 Numerical investigation of
wake structures of slow-flying bats
S. Wang, X. Zhang, G. He
LS.10 Dissipative particle dynamics
simulations of manipulation of droplet
by gradients of wettability G. Hu, Z. Li,
Z. Zhou
LR.09 Simulations of Bubble Motion LR.10 Multiscale modeling of
in an Oscillating Liquid A. Kraynik,
bubbles rising in non-Newtonian fluids
L. Romero, J. Torczynski
A. Fernandez
LP.09 Microfluidic assembly of
multiscale soft materials L. Leng,
A. Guenther
LN.09 Flow over Superhydrophobic
Hydrofoils R. Daniello, J. Sullivan,
J. Rothstein
LN.07 Experimental evidence of 3D
flows around corners at low Reynolds
number J. Sznitman, D. Clifton,
D. Scobee, H. Stone, A. Smits
LM.10 An efficient discretization of
the Poisson-Boltzmann equation with
applications to electrostatic force
calculation M. Mirzadeh, T. Squires,
F. Gibou
LN. Vortex Flows: Bluff
Bodies
Room: 202C
Chair: B. Shivamoggi, U. of Central
Florida
LM.08 Electrothermal Flow in
Microfluidic Reservoirs X. Xuan,
J. Zhu, S. Sridharan, G. Hu
LM.09 Electrospinning of a
viscous-capillary jet within dielectric
liquid bath G. Riboux
17:32
LM.07 Stretching Tethered Polymer
by Traveling Wave Electric Fields
H. Wei, Y. Li, T. Wen
17:19
LM. Microfluids: General VI:
Magnetic and Electric Fields
Room: 202B
Chair: A. Kumar, Oak Ridge National
Laboratory
17:06
LL.05 Deformation and stability of lipid membranes in electric fields
P. Vlahovska
16:53
LL. Mini-Symposium on
LL.04 Vesicles in a shear and Poiseuille flows C. Misbah
Microhydrodynamics of Lipid
Bi-layer Membranes
Room: 202A
Session
LX.08 Flow Structure on a Rotating
Plate C. Ozen, D. Rockwell
LZ. Instability: General III
Room: Regency F
Chair: M. Bestehorn,
Brandenburgische Technische
Universitaet Cottbus
LZ.07 Linear stability analysis of
capillary instabilities for concentric
cylindrical shells X. Liang, D. Deng,
J. Nave, S. Johnson
LY.09 Viscous gravity currents on a
plane with leaks J. Lister, J. Neufeld,
D. Vella, H. Huppert
17:32
LY.10 Binary solidification in confined
geometries: Towards efficient solar
cells T. Schneider, M. Brenner
LW.10 Boiling Phenomena of
Capillary Flow in Heat Pipe
Applications C. Zhang, D. Jursic,
K. Hunt, C. Hidrovo
82
LZ.08 Generalized Rayleigh-Taylor LZ.09 Mixing two miscible liquids
LZ.10 Buoyancy-driven instabilities
and Richtmyer-Meshkov instabilities in with Faraday instabilty F. Zoueshtiagh, of miscible two-layer stratifications
particle-seeded flow P. Vorobieff,
S. Amiroudine, R. Narayanan
P. Trevelyan, C. Almarcha, A. De Wit
J. Conroy, M. Anderson, R. White,
C. Truman, S. Kumar
LY. Viscous Flows
LY.07 Pressures Losses in Grooved LY.08 Cavitation in a squeeze film
Channels M. Mohammadi, J. Floryan J. Seddon, M. Kok, E. Linnartz,
Room: Regency E
D. Lohse
Chair: C. D. Mitescu, Pomona College
LX.07 Aerodynamics and
Trajectories of Sports Flying Disk and
Flying Ring H. Higuchi, Y. Goto,
M. Nunos, F. Gomez
LX.09 An investigation of the
influence of freestream turbulence on
the laminar separation bubble of an
SD7003 airfoil at low Reynolds number
D. Olson, A. Katz, A. Naguib,
M. Koochesfahani, D. Rizzetta,
M. Visbal
17:19
LX. Aerodynamics IV
Room: Regency D
Chair: J. Little, U. of Arizona
17:06
LW.09 Capillary rafts and their
destabilization S. Protiere,
M. Abkarian, J. Aristoff, H. Stone
16:53
LW. Surface Tension III
LW.07 Wet-dog shake A. Dickerson, LW.08 Elastocapillary imbibition
Z. Mills, D. Hu
C. Duprat, J. Aristoff, H. Stone
Room: Regency C
Chair: A. Lukyanov, U. of Reading, UK
Session
Using
Observable
Euler
L1.20
Hydrodynamic Simulations Of Density Inversion In Granular
Layers Veronica Policht, Jon Bougie, Jennifer Kreft Pearce
L1.21 Continuum Simulation Of Impact Into Granular Beds Eric Wilkinson,
Jon Bougie
L1.9 Behavior Of Contact Angles On Rough Solid Surfaces Yumiko Yoshitake, Ko Okumura
L1.10
Study Of Drop Coalescence Using The Lattice-Boltzmann
Method Ricardo Falla Avila, Andres Gonzalez-Mancera
L1.11 Modern Applications Of Shadowgraph Imaging Rafael Castrejón
GarcÍa, Jose Rafael Castrejón-Pita, Graham D. Martin, Ian M. Hutchings
83
L1.19 On Influence Of Microstructure On Granular Impact Xiaoni Fang,
Lou Kondic, Robert Behringer, Wolfgang Losert, Corey O’Hern
L1.8 The Safety Of A Cell In A Droplet Under High Electric Field Jihoon
Noh, Do Jin Im, In Seok Kang
L1.17 Nonlinear Stability Of Granular Shear Flow: Shear Banding Priyanka
Shukla, Meheboob Alam
L1.16 Estimated Overturning Of Internal Waves Due To Time-Dependent
Shear In The Ocean Leonardo Latorre, Julie Vanderhoff
L1.15 Numerical Study Of Water Flow In A System Of Two Basins
Connected By A Channel With Periodic Forcing Erick Javier Lopez Sanchez,
Gerardo Ruiz Chavarria
L1.14
Investigation Of Internal Wave Spectra Due To Observed
Interactions Benjamin Hillyard, Julie Vanderhoff
L1.13 Reduced-Order Models Of A Natural Convection Loop For Known
Heat Flux Conditions Via Karhunen-Loève Expansions Tobias Hummel, Arturo Pacheco-Vega
L1.12 PIV Measurements Of Flow Characteristics Induced By Mini
Plate-wing Plasma Actuators A.N.M. Mominul Islam Mukut, Hiroshi
Mizunuma, Takehiko Segawa, Obara Hiromichi
L1.18 Testing The Continuum mu(I) Rheology For 2D Granular Flows
On Avalanches And Collapse Of Columns Pierre-Yves Lagrée, Lydie Staron,
Stéphane Popinet
L1.7 Oscillatory Shear Induced Droplet Deformation And Breakup In
Immiscible Polymer Blend Anuvat Sirivat, Vitsarut Janpaen
L1.6 Transport Of An Active Scalar In A Chaotic Flow Field Himanshu Tiwari, Mark Paul
L1.5
Shock Turbulence Interaction
Equations Chang Xiao, Kamran Mohseni
L1.4 Effect Of The Interaction On Growing / Condensation Processes Of
Vapor Bubbles Injected In Subcooled Pool Ryota Hosoya, Ichiro Ueno
L1.3 Mechanical Response Of Solutions Of Phospholipids To Anisotropic
Compression Yves Dubief, Leonie Cowley
L1.2 Toroidal Lagrangian Flow Structues In Highly Viscous Fluids By Moving
Bent Rods Pavel Chtcheprov, Roberto Camassa, David Holz, David Marron,
James Martindale, Richard McLaughlin, Leandra Vicci, Longhua Zhao
L1.1 Particle Transport Near Arterial Stenosis Sahar Hendabadi, Shawn
Shadden
L1. Poster Session
(15:15–17:00, Foyer, Promenade Ballroom)
L1.32 Measurement Of Torque In Taylor-Couette Flow With A Stationary
Inner Cylinder T. Da Pron, C.J. Czarnocki, M.J. Burin
L1.31 Richtymyer-Meshkov Instability: Effects Of Mach Number And Initial
Conditions On Turbulent Mixing Gavin Friedman
L1.30 Rayleigh Taylor Instability In The Presence Of Non-uniform Flow S.
Sen
L1.29 Penetration Process And Instabilities Arisen On A Liquid Jet Impinged
To A Liquid Flowing In A Channel Kaoru Hattori, Ichiro Ueno
L1.28 Fourier Decomposition Of Periodic Flow Using DPIV Ivan Korkischko, Iago C. Barbeiro, Julio R. Meneghini, J.A.P. Aranha
L1.27 The Enhancement Of Streamwise Minus Modes During Evolution Of
A Subsonic Compressible Jet Flow Ho-Shuenn Huang
L1.26 A Low-speed Corona Jet For Internal Spot Cooling Of Tubes Majid
Molki, Reza Baghaei Lakeh
L1.25 Modeling Spreading Of Liquid Crystal Drops Linda Cummings, TeSheng Lin, Lou Kondic
L1.24 Coating Of A Cylindrical Fibre: Instability And Drop Formation Alejandro G. González, Javier A. Diez, Roberto Gratton, Diego Campana, Fernando Saita
L1.23 Direct Route To Turbulence In A Rotating Boundary Layer Bertrand
Viaud, Eric Serre, Jean-Marc Chomaz
L1.22 RNS Computations Of The Boundary Layer Flow Over Grooved
Plate Juan Martin, Carlos Martel
84
L1.42 WITHDRAWN
L1.41 Permeability Prediction Of Isotropic Fibrous Porous Media Sonia
Woudberg, J. Prieur Du Plessis
L1.40 Experimental Evaluation Of Simplified Theoretical Models For Fluid
Mud Gravity Current Propagation Firat Testik, Mijanur Chowdhury
L1.39 Atomistic Simulation Of Water Transport Through Graphene
Membrane Myung Eun Suk, Narayana Aluru
L1.38 Molecular Dynamics Simulations Of Janus Nanoparticle Assembly At
Interfaces Weikang Chen, Joel Koplik, Ilona Kretzschmar
L1.37 Role Of Bubble Velocity Fluctuations On The Energy Dissipation
Rates In Bubbly Rayleigh-Bénard Convection R. Lakkaraju, L. Schmidt, D.
Lohse, F. Toschi, P. Oresta, R. Verzicco, A. Prosperetti
L1.36 Numerical Simulation Of A Micropump With Step Electrodes Using
The Steric Effects Byoung Jae Kim, Seung-Hyun Lee, Soghra Rezazadeh,
Kyung Heon Lee, Hyung Jin Sung
L1.35 Development Of Ink Transfer Monitoring System For Roll-to-plate
Gravure Offset Printing Process Seung-Hyun Lee, Taik-Min Lee, Dong-Soo
Kim, Byoung Jae Kim, Seungwoo Lee
Multiphase Microfluidics And Surface Enhanced Raman
L1.34
Spectroscopy Chrysafis Andreou, Seung Joon Lee, Brian Piorek, Martin Moskovits, Carl Meinhart
L1.33 The Effects Of Varying Horizontal Boundary Conditions On
The Momentum Distribution And Subcritical Turbulent Transition Within
Taylor-Couette Flow K.R. McDonald, C.J. Czarnocki, M.J. Burin
L1.49 Internal Wave Attractors In Stratified Fluids, Robustness To
Perturbations Leo Maas, Jeroen Hazewinkel, Chrysanthi Tsimitri, Stuart
Dalziel
L1.48 On The Potential For Transport Due To Internal Tides In The Coastal
Ocean Goncalo Trigo Cabrita Gil, Oliver Fringer
L1.47 On The Potential For Transport Via Internal Tides Gonçalo Gil, Oliver
Fringer
L1.46 Viscous Flow Past A Semi-Infinite Plate Ling Xu, Monika Nitsche
L1.45 Lagrangian Particle Tracking In Strained Turbulence Dimitry Ivanov,
Róbert Grönqvist, Chung-min Lee, Ármann Gylfason
L1.44 Characterization Of Hydrophobic And Hydrophilic Coatings As
Deicing And Anti-icing Akihito Aoki, Katsuaki Morita, Akihisa Konno, Hirotaka
Sakaue
L1.43 Evolution Of Droplets Of Perfectly Wetting Liquid Under The
Influence Of Thermocapillary Forces Shomeek Mukhopadhyay, Nebojsa
Murisic, Robert P. Behringer, Lou Kondic
85
86
87
Tuesday, 23 November 2010
Sessions M – R
MB.01 Status Update of the Flow
Physics Facility at the University of
New Hampshire J. Forsythe,
J. Klewicki, C. White, M. Wosnik
MC.01 Simulation of Strong Shock
and Turbulence Interactions using
High-Order Shock-Fitting Algorithms
P. Rawat, X. Zhong
MD.01 LES one-way coupling of
nested grids using scale similarity
model K. Nozawa, T. Tamura
ME.01 Upstream Drafting of a
Flexible Body by its Downstream
Neighbor T. Schnipper, J. Zhang
MF.01 Hibernating turbulence, edge
states and the Virk asymptote in
channel flow of Newtonian and
polymeric fluids M. Graham, L. Xi
MG.01 A new anemometer for 2D
atmospheric flow measurements in
rough environments H. Heisselmann,
M. Hoelling, J. Peinke
MH.01 Non-cohesive, unimodal
sediment transport in non-hydrostatic
dam-break flow P. Bohorquez
MJ.01 The Effect of Shape Mode
Oscillations on the Particle Scavenging
Efficiency of Water Droplets Using
Acoustic Levitation J. Kizzee,
J. Saylor
MK.01 Rheology of capsule
suspension P. Bagchi, R. Kalluri
MB. Turbulent Boundary
Layers VIII
Room: 101B
Chair: K. Christensen, U. of Illinois at
Urbana-Champaign
MC. Turbulence
Simulations III
Room: 102A
Chair: D. Donzis, Texas A&M U.
MD. Turbulence
Simulations IV
Room: 102B
Chair: K. Knight, Bechtel Corporation
ME. General Fluid
Dynamics III
Room: 102C
Chair: H. Haj-Hariri, U. of Virginia
MF. Non-Newtonian Flows I
Room: 103A
Chair: P. Underhill, Rensselaer
MG. GFD: Atmospheric
Flows III
Room: 103B
Chair: J. J. Riley, U. of Washington
MH. GFD: General II
Room: 103C
Chair: S. Suman, Texas A&M U.
MJ. Acoustics III: Oscillatory
Excitations
Room: 201A
Chair: D. Bodony, U. of Illinois at
Urbana-Champaign
MK. Biofluids: Cellular II
Room: 201B
Chair: G. Wang, U. of South Carolina
08:00
MA.01 Overlap region in turbulent
boundary layer over a rough surface
N. Afzal
Session
MA. Turbulent Boundary
Layers VII: Theory
Room: 101A
Chair: E. Longmire, U. of Minnesota
08:13
08:26
MC.03 Large-eddy simulations of the
shock-turbulence interaction canonical
problem I. Bermejo-Moreno,
J. Larsson, S. Lele
MK.02 Capsule deformation and
orientation in general linear flows
A. Szatmary, C. Eggleton
MJ.02 Droplet actuation by surface
acoustic waves: an interplay between
acoustic streaming and radiation
pressure P. Brunet, M. Baudoin,
O. Bou Matar, F. Zoueshtiagh
MH.02 Gravity currents in stratified
fluids P. Linden
MG.02 Interaction of pollution
plumes and discontinuous fields in
atmospheric chemistry models
M. Santillana, M. Brenner,
Y. Rastigeyev, D. Jacob
MF.02 Turbulent Drag Reduction by
Polymers: A Theoretical Study on the
Effect of Polymer Concentration
C. Leung, E. Ching
ME.02 Cluster formation in traffic
models R. Velasco, P. Saavedra
88
MK.03 An integrated model of
microtubule-based pronuclear motion
in the single-celled C. elegans embryo
T. Shinar, M. Shelley
MJ.03 Finite-Element Modeling of
Forced Axisymmetric Sessile Drop
Oscillation Using a Moving Mesh
C. Forster, M. Smith, A. Glezer
MH.03 Initial lock ratio effects on the
dynamics of constant-volume density
currents T. Bonometti, M. Ungarish,
S. Balachandar
MG.03 Punctuated changes in plant
pathogen populations associated with
passage of atmospheric Lagrangian
coherent structures S. Ross,
P. Tallapragada, D. Schmale
MF.03 On the correspondence
between polymer-modified turbulence
states and transitional states in
Newtonian flows Y. Dubief, C. White
ME.03 Adaptive Control of the
Generalized Korteweg-de Vries
Burgers Equation N. Smaoui,
A. El-Kadri, M. Zribi
MD.02 Formulation of
MD.03 Turbulent modeling for low
smoothed-particle hydrodynamics
speed compressible flow C. Li,
method for turbulent free-surfaceflows J. Domaradzki, W. Fu
A. Nakayama, H. Inokuma, K. Ikenaga
MC.02 DNS of Shock / Isotropic
Turbulence Interaction N. Grube,
E. Taylor, P. MartÍn
08:39
08:52
MK.04 Monte Carlo Simulations of
Absolute Binding Free Energy of
Targeted Nanocarriers to Cell Surfaces
J. Liu, B. Zern, P. Ayyaswamy,
D. Eckmann, V. Muzykantov,
R. Radhakrishnan
MD.06 A buoyancy-adjusted
extension of the stretched-vortex
subgrid-scale model D. Chung,
G. Matheou
MH.05 Turbulent Mixing in Gravity
Currents with Transverse Shear
B. White, K. Helfrich, A. Scotti
MG.05 Analysis and numerical
simulation of a laboratory analog of
radiatively induced cloud-top
entrainment A. Kerstein, H. Schmidt,
R. Nedelec, S. Wunsch, B. Sayler
MK.05 Measurement of Cytoplasmic MK.06 Microrheology Using Optical
Streaming in Drosophila Melanogaster Tweezers at the Air-Water Interface
S. Ganguly, L. Williams, I. Palacios,
T. Boatwright, A. Levine, M. Dennin
R. Goldstein
MJ.06 Numerical simulation of
particle dispersion in an acoustic field
J. Cleckler, F. Liu, S. Elghobashi
MH.06 Numerical Simulations of
Two-layer Bores L. Brandt, K. Brucker,
J. Rottman, D. Dommermuth
MG.06 Laboratory simulations of
cumulus cloud flows explain the
entrainment anomaly R. Narasimha,
S. Diwan, D. Subrahmanyam,
K. Sreenivas, G. Bhat
MF.05 A viscoelastic drop falling
MF.06 Simulations of high Reynolds
through a viscous fluid M. Swarnajay, number wake transition in the presence
K. Sarkar
of viscoelasticity D. Richter,
G. Iaccarino, E. Shaqfeh
ME.05 On the increased decay of
ME.06 Physical Gelation of a
swirl after vortex breakdown B. Genc, Nano-Composite Soft Glass
O. Ertunc, H. Vaidya, C. Koeksoy,
H. Winter, K. Lania, F. Li, X. Wang
A. Delgado
MD.05 Wall-modeling for large-eddy
simulation of high Reynolds number
supersonic flows S. Kawai,
J. Larsson, S. Lele
MC.06 The decay of forced rescaling
modes in a Mach 3 turbulent boundary
layer Y. Kan, I. Beekman, S. Priebe,
P. Martin
MB.05 Comparison of Intermittency MB.06 Mean Dynamics of Channel
Detection Algorithms in a Transitional Flow Transition J. Klewicki, J. Elsnab,
Boundary Layer J. Null, M. McQuilling D. Maynes, T. Ameel
MJ.04 Mechanically-Excited Sessile MJ.05 Compressibility and Related
Drops C. Chang, J. Bostwick,
Thermal and Diffusional Effects in
S. Daniel, P. Steen
Acoustics Streaming S. Sadhal,
A. Rednikov
MH.04 The dam-break of
non-Boussinesq gravity currents of
various fractional depth: two-layer
shallow-water results M. Ungarish
MG.04 Statistical scale invariance in
satellite observations of water vapor
mixing ratio from the Atmospheric
Infrared Sounder K. Pressel,
W. Collins
MF.04 Parallel Large-Scale
Computation of an Oldroyd-B Fluid
Past a Confined Circular Cylinder in a
Rectangular Channel using an
Unstructured Finite Volume Method
M. Sahin
ME.04 Effect of orifice eccentricity on
the Vortex size downstream orifice
cascade in laminar duct flow A. Abou
El-Azm Aly, M. Metwally, H. Abdel
Kader
MD.04 Numerical computations of
turbulent flows; LES/SAS comparison
M. Ilie, S. Llewellyn Smith
09:05
MA.05 The turbulent mean-velocity MA.06 The viscous sublayer
profile: it is all in the spectrum
revisited P. Alfredsson, R. Oerlue,
G. Gioia, N. Guttenberg, N. Goldenfeld, P. Schlatter
P. Chakraborty
MC.04 Inflow Turbulence Generation MC.05 Simulations of High Speed
and Oblique Shock / Turbulent
Turbulent Jets in Crossflow X. Chai,
Boundary Layer Interaction
K. Mahesh
B. Morgan, S. Kawai, S. Lele
MB.04 Numerical simulation of
negative Magnus force on a rotating
sphere M. Muto, M. Tsubokura,
N. Oshima
MA.03 Macroscopic effects of the
MA.04 Mean velocity of a free
spectral structure in turbulent flows
fully-developed turbulent boundary
T. Tran, P. Chakraborty, N. Guttenberg, layer L. Xu, Z. Rusak, L. Castillo
A. Prescott, H. Kellay, W. Goldburg,
N. Goldenfeld, G. Gioia
MB.02 Large-eddy simulation of the MB.03 Combined Compact
zero pressure gradient, turbulent
Difference Numerical Method for
boundary layer M. Inoue, D. Pullin
Simulation of Boundary Layer
Turbulence Transition in the Non-Linear
Stage J. Chen, W. Chen
MA.02 Behavior of local dissipation
scales in turbulent pipe flow S. Bailey,
M. Hultmark, J. Schumacher, V. Yakhot,
A. Smits
Tuesday Morning, 23 November 2010
MM.01 Dynamics of desalination
shocks in microstructures A. Mani,
M. Bazant
MN.01 Quantum length scale to
distinguish between Kolmogorov and
Vinen forms of quantum turbulence
K. Sreenivasan, L. Skrbek
MP.01 Breakup of particle clumps on
liquid surfaces S. Gurupatham,
M. Hossain, B. Dalal, I. Fischer,
P. Singh, D. Joseph
MQ.01 Low Reynolds number
swimming in a stratified fluid
A. Ardekani, R. Stocker
MR.01 DNS of high speed boundary
layers over ablating surfaces
K. Braman, V. Raman, R. Upadhyay,
O. Ezekoye
MS.01 Numerical studies of the
deformation of an initially rotating
droplet E. Poon, A. Ooi, S. Quan,
J. Lou, M. Giacobello
MT.01 Passively pulsed propulsion of MT.02 Flapping modes of three
aquatic vehicles R. Whittlesey,
filaments placed side by side in a free
J. Dabiri
stream F. Tian, H. Luo, L. Zhu, X. Lu
MU.01 Magnetohydrodynamic
Augmentation of Pulse Detonation
Engines C. Zeineh, L. Cole,
A. Karagozian
MV.01 Microstructure in
Concentrated Sheared Dispersions
J. Morris, E. Nazockdast
MM. Microfluids: General VII
Room: 202B
Chair: R. Qiao, Clemson U.
MN. Quantized Vortices and
Vortex Dynamics
Room: 202C
Chair: D. Lathrop, U. of Maryland
MP. Microfluids: Mixing I
Room: 203A
Chair: J. Ou, U. of Minnesota
MQ. Biolocomotion IX:
Micro-Swimming IV
Room: 203B
Chair: D. Saintillan, U. of Illinois at
Urbana-Champaign
MR. Supersonic and
Hypersonic Flows I
Room: 203C
Chair: G. Bres, Exa Corporation
MS. Drops XI
Chair: G. Hu, Chinese Academy of
Sciences
MT. Biolocomotion X:
Macro-Swimming I
Chair: C. Henoch, Naval Undersea
Warfare Center
MU. Reacting Flows IV
Room: Regency A
Chair: D. Kassoy, U. of Colorado at
Boulder
MV. Suspensions I
Room: Regency B
Chair: A. Acrivos, City College of
CUNY
08:13
08:26
MM.03 Irreversible gelation of
wormlike micelle solutions under
microfluidic flow P. Cheung, J. Cardiel,
N. Dubash, A. Shen
MV.02 Bulk Rheology of Noncolloidal
Deformable Fiber Suspension
M. Khan, M. Do-Quang, G. Amberg,
J. Wu, C. Aidun
MU.02 Simulations of a Detonation
Wave in Transverse Magnetic Fields
L. Cole, A. Karagozian, J. Cambier
MS.02 The effect of surfactant
redistribution on interactions of
deformable drops in gravity and a
temperature gradient M. Rother
MR.02 Direct Numerical Simulation
of low-temperature ablation by
turbulent flows R. Crocker, Y. Dubief,
C. White
MQ.02 Locomotion by tangential
deformation in a polymeric fluid
L. Zhu, E. Lauga, L. Brandt
MP.02 Electro-osmotic flows in
rectangular cavities V. Meleshko,
A. Trofimchuk, A. Gourjii ,
E. Bezym’yana
08:39
89
MV.03 Normal stresses in
non-Brownian suspensions: bulk
rheology and particle migration
F. Boyer, O. Pouliquen, E. Guazzelli
MU.03 RANS Simulations of
Supersonic Combustion using a
Flamelet-based Model V. Terrapon,
R. Pecnik, F. Ham, H. Pitsch
08:52
ML.05 Mitigation of Shear-Induced
Blood Damage by Mechanical Bileaflet
Heart Valves B. Zakharin, S. Arjunon,
N. Saikrishnan, A. Yoganathan,
A. Glezer
MR.05 Shock-wave surfing and the
separation of meteoroid fragments in
the atmosphere S. Laurence,
R. Deiterding
MQ.05 Finite-length swimmer in a
nonlinearly viscoelastic fluid H. Fu
MP.05 Characterization on
performance of micromixer using
DC-biased AC electroosmosis
B. Park, S. Song
MV.04 Experimental study of
structure and rheology of concentrated
colloidal suspensions X. Cheng,
J. McCoy, J. Israelachvili, I. Cohen
MU.04 The Dynamics of Unsteady
Detonation with Diffusion C. Romick,
T. Aslam, J. Powers
09:05
MS.06 Effects of Deformation on
Drag and Lift Forces Acting on a
Droplet in a Shear Flow Y. Suh, C. Lee
MR.06 Experimental Investigation of
Shock Wave Surfing N. Parziale,
H. Hornung, J. Shepherd, S. Laurence
MQ.06 Marine ostracod swimming
behavior in the benthic boundary layer
under different field flow conditions
K. Sutherland, J. Dabiri, M. Koehl
MP.06 Coherent structures in 3D
viscous time-periodic flow J. Znaien,
M. Speetjens, R. Trieling, H. Clercx
MN.06 Motion of a Vortex Filament in
the Local Induction Approximation:
Reformulation of the Da Rios-Betchov
Equations in the Extrinsic Filament
Coordinate Space B. Shivamoggi,
G. van Heijst
MM.06 Micro-rheology of soft glassy
materials: Collective phenomena in
concentrated emulsions N. Bennani,
A. Colin
ML.06 Visualization of Simulated
Endothelial Shear Stress and Blood
Flow in Coronary Arteries M. Borkin,
C. Feldman, H. Pfister, S. Melchionna,
E. Kaxiras
MV.05 Irreversibility and Chaos: Role
of Long Range Hydrodynamic
Interactions in Sheared Suspensions
B. Metzger, J. Butler
MU.05 A multivariate quadrature
based approach for LES based
supersonic combustion modeling
P. Donde, H. Koo, V. Raman
MV.06 Direct measurement of a
normal stress in a sheared suspension
J. Martin, G. Gauthier, S. Garland,
A. Deboeuf, J. Morris
MU.06 Large Eddy Simulation of
Supersonic Combustion A. Saghafian,
V. Terrapon, F. Ham, H. Pitsch
MT.05 On Gray’s paradox and
MT.06 Modeling and numerical
efficiency measures for swimming
simulations of 3D flows past self
R. Bale, M. Hao, A. Bhalla, N. Patankar propelled fishes M. Bergmann, A. Iollo
MS.04 Effect of drop shape on
MS.05 Transient drop dynamics in
thermally-induced drop motion at the convergent-divergent tubes filled with
free interface of immiscible liquid layers liquids S. Quan
E. Yakhshi Tafti, H. Cho, R. Kumar
MR.04 Stochastic approach of
meteor-generated infrasounds
C. Millet, C. Haynes
MQ.04 Stokesian locomotion in
elastic fluids: Experiments R. Zenit,
E. Lauga
MP.04 Quantitative description of
mixing in non-perturbative flows
R. Mitchell, R. Grigoriev
MN.04 Visualization of the Quantized MN.05 Initial conditions for
reconnection calculations of quantized
Vortex Lattice Dynamics in 4 He
vortices C. Rorai, D. Lathrop,
K. Gaff, D. Lathrop
M. Fisher, K. Sreenivasan
MM.04 Temporally resolved 3D3C
MM.05 Self-consistent unstirred
velocity measurements using confocal layers in osmotically driven flows
volumetric scanning S. Klein,
H. Bruus, K. Jensen, T. Bohr
J. Posner
ML.04 Analysis of velocity
fluctuations downstream of a bileaflet
mechanical heart valve M. Forleo,
L. Dasi
MT.03 Interaction of pitching and
MT.04 Passive locomotion in
heaving flexible flags in a viscous flow unsteady flows B. Ghaemi Oskouei,
S. Kim, W. Huang, H. Sung
E. Kanso
MS.03 Inertial effects on the
dynamics of a drop in a shear flow and
the dispersed stresses R. Singh,
K. Sarkar
MR.03 Transport of Ablation
Products in a Mach 5 Boundary Layer
using Naphthalene PLIF C. Noel,
B. Lochman, Z. Murphree,
V. Narayanaswamy
MQ.03 Undulatory Swimming in
Viscoelastic Fluids at Low Reynolds
Number X. Shen, P. Arratia
MP.03 Targeting Complete Chaotic
Mixing by Destabilizing Key Periodic
Orbits in an Electro-osmotic Mixer
R. Chabreyrie, C. Chandre, P. Singh,
N. Aubry
MN.02 Particles for flow visualization MN.03 Reconnection of quantized
and velocimetry in liquid nitrogen
vortices and quantum turbulence
E. Fonda, M. Paoletti, K. Sreenivasan, D. Lathrop
D. Lathrop
MM.02 Microfluidic flow
characterized by light-induced local
viscosity distribution M. Motosuke,
S. Honami
ML.02 Aortic Wave Dynamics and Its ML.03 Leveraging theory from
Influence on Left Ventricular Workload cosmodynamics to study the the effect
N. Pahlevan, M. Gharib
of the pulsating heart on coronary
arteries in a large-scale Lattice
Boltzmann simulation A. Peters,
S. Melchionna, J. Latt, S. Succi,
E. Kaxiras
08:00
ML.01 High resolution simulation of
the left heart hemodynamics in
patient-specific anatomies T. Le,
I. Borazjani, F. Sotiropoulos
Session
ML. Biofluids: Physiological
Cardiovascular I
Room: 202A
Chair: C. Lin, U. of Iowa
MX.01 Aerodynamic stability of
blunted-cone heat shields for
atmospheric entry vehicles J. Sader,
E. Button, D. Ladiges, C. Lilley,
N. Mackenzie, E. Ross
MY.01 Instabilities of conducting fluid
flows in cylindrical shells under
external forcing J. Burguete,
M. Miranda
MZ.01 Joint Baroclinic and
Convective Instability K. Julien,
G. Vasil
MX. Industrial Applications I
Room: Regency D
Chair: A. Filippov, Corning Inc.
MY. Magnetohydrodynamics
Room: Regency E
Chair: Y. Panta, Youngstown State U.
MZ. Rotating Flows I
Room: Regency F
Chair: H. Aluie, Los Alamos National
Laboratory
08:00
MW.01 Laser imaging
measurements of flow dynamics and
mixing in gel-phase flows L. Su,
J. Leggett, M. Coil
Session
MW. Experimental
Techniques II
Room: Regency C
Chair: R. Menon, TSI Inc.
08:13
MZ.02 Rapidly Rotating Wall Mode
Convection G. Vasil, K. Julien
MY.02 An all-speed projection
method for magneto-hydrodynamics
R. Samtaney, M. Adams, P. Colella,
D. Graves, T. Ligocki, B. van Straalen
MX.02 An Experimental Investigation
of Compressible Dynamic Stall on a
2-D Airfoil Subjected to Non-Harmonic
Pitching Motion D. Coleman,
F. Thomas, T. Corke, P. Bowles,
K. Thorne
MW.02 Low Pressure Seeder
Development for PIV in Large Scale
Open Loop Wind Tunnels R. Schmit
08:39
90
MZ.03 An asymptotic model for
rotationally-constrained
non-penetrative thermal convection
A. Rubio, K. Julien
MY.03 Direct Numerical Simulation
for the MHD Homogeneous Shear
Turbulence with the Uniform Magnetic
Field M. Okamoto
MX.03 Compressibility effects on
dynamic stall attributes P. Bowles,
T. Corke, F. Thomas, K. Thorne,
D. Coleman
08:52
09:05
MW.06 A compact Self-Contained
Underwater Velocimetry Apparatus
(SCUVA) for in situ field measurements
in daytime M. Kinzel, J. Dabiri
MY.05 Direct numerical simulations
of turbulent MHD flow in a 2:1 aspect
ratio rectangular duct subjected to
transverse and span-wise magnetic
fields R. Chaudhary, A. Shinn,
B. Thomas, S. Vanka
MZ.06 Studies of Rossby waves and
hydrodynamic turbulence in a
Taylor-Couette device E. Edlund,
E. Schartman, E. Spence, A. Roach,
P. Sloboda, H. Ji
MY.06 Numerical simulation of
quasi-static magnetohydrodynamic
flow in a right-angle bend
S. Vantieghem, B. Knaepen
MX.05 Numerical flow simulation of a MX.06 Qualitative CFD for Rapid
reusable sounding rocket during
Learning in Industrial and Academic
nose-up rotation K. Kuzuu,
Applications E. Variano
K. Kitamura, K. Fujimoto, E. Shima
MW.05 A vision-based hybrid particle
tracking velocimetry (PTV) technique
using a modified cascade-correlation
peak-finding method W. Tien, Y. Lei,
J. Duncan, D. Dabiri, T. Rösgen,
J. Hove, M. Gharib
MZ.04 The dynamics of mercury flow MZ.05 Influence of the surface
in a curved pipe Y. Zhan, F. Ladeinde, tension and the viscosity on irregular
H. Kirk, K. McDonald
surface switching of rotating fluids
Y. Tasaka, M. Iima
MY.04 Transition in MHD duct flow
O. Zikanov, D. Krasnov, M. Rossi,
T. Boeck
MX.04 Linear Stability Analysis on
Multiple Solutions of Steady Transonic
Small Disturbance Equation Y. Liu,
F. Liu, S. Luo
MW.03 Large depth-of-field PIV in a MW.04 Particle shadow velocimetry
in a narrow channel D. Ehyaei,
vs. LDV: measurements of a turbulent
K. Kiger
pipe flow M. McPhail, J. Giordano,
A. Fontaine, M. Krane, L. Goss,
J. Crafton
08:26
MD.07 Scaling laws in helical
rotating turbulence: do they change
with Reynolds number? A. Pouquet,
J. Baerenzung, P. Mininni,
D. Rosenberg
ME.07 Lonely GPFUTV—-the
ME.08 Coherent structures in the
ME.09 Inclined interactions of vortex ME.10 Modifying intake flow to
movement of water under the action of free surface confined turbulent jet
couples with a density interface
increase EGR tolerance in an Internal
an unknown vacuum energy W. Lin
J. Tian, R. Balachandar, V. Roussinova J. Flor, I. Eames, A. Abiola-Ogedengbe Combustion Engine D. Rubio,
M. Drabo, P. Puzinauskas
MF.07 Evolution of vortical structures MF.08 Peristaltic pumping of solid
in Newtonian and viscoelastic turbulent particles immersed in a viscoelastic
flows K. Kim, R. Sureshkumar
fluid J. Chrispell, L. Fauci
MG.07 The evaporatively driven
cloud-top mixing layer J. Mellado
MH.07 Numerical Prediction of Wave MH.08 Alternative analysis of the
Forces on a Breakwater under
temperature distribution in the interior
Tsunami Loading K. Brucker,
ocean S. Zhou, K. Li, L. Qu
M. Oshnack, T. O’Shea, D. Cox,
D. Dommermuth
MJ.07 Vortex structures and heat
transfer in acoustic streaming flows
I. Sou, J. Allen, C. Layman, C. Ray
MK.07 Protein amyloid formation:
Effects of shear, advection and
interfaces D. Posada, A. Hirsa
ME. General Fluid
Dynamics III
Room: 102C
Chair: H. Haj-Hariri, U. of Virginia
MF. Non-Newtonian Flows I
Room: 103A
Chair: P. Underhill, Rensselaer
MG. GFD: Atmospheric
Flows III
Room: 103B
Chair: J. J. Riley, U. of Washington
MH. GFD: General II
Room: 103C
Chair: S. Suman, Texas A&M U.
MJ. Acoustics III: Oscillatory
Excitations
Room: 201A
Chair: D. Bodony, U. of Illinois at
Urbana-Champaign
MK. Biofluids: Cellular II
Room: 201B
Chair: G. Wang, U. of South Carolina
MK.08 Modelling Protein-induced
Membrane Deformation using Monte
Carlo and Langevin Dynamics
Simulations R. Radhakrishnan,
N. Agrawal, N. Ramakrishnan, P. Sunil
Kumar, J. Liu
MJ.08 Radiative heating of
acoustically levitated nano-silica
droplets: Internal flow pattern leading
to ring or bowl shaped structure
A. Saha, E. Tijerino, R. Kumar, S. Basu
MG.08 A study of the interactions
between turbulence and small inertial
droplets C. Bateson, A. Molina,
B. Rosa, L. Wang, A. Aliseda
MD.08 Analysis of Structure
Functions for the Turbulent Ekman
Layer Direct Simulation S. Waggy,
S. Biringen
MF.10 The dynamics of a simple
model for a yield stress fluid
Y. Renardy, K. Maki
91
MK.09 Effect of Reynolds number on
2-D protein crystallization at the
air/water interface J. Young,
D. Posada, A. Hirsa, J. Lopez
MJ.09 Effectiveness of Thin
Urethane Coatings for Attenuating
Flow Noise in SONAR Arrays
W. Keith, I. Cook, A. Foley, K. Cipolla
MH.09 Energy spectra of stably
stratified turbulence Y. Kimura,
J. Herring
MK.10 Quantification of
Electroporation-Mediated Propidium
Iodide Delivery into 3T3 Cells
M. Sadik, J. Li, J. Shan, D. Shreiber,
H. Lin
MH.10 Numerical simulations of the
transport of passive scalars around
obstacles in tidal flows H. Ku,
S. Venayagamoorthy
MG.09 Enhancement of coalescence MG.10 Experimental study of droplet
due to droplet inertia in turbulent
condensational growth in a wet/dry
clouds S. Krueger, A. Kerstein
turbulent mixing layer R. Keedy,
A. Aliseda
MF.09 Examining the coil-stretch
transition in flexible polymers
P. Underhill, R. Radhakrishnan
MB.10 Subgrid Scale (SGS) Flow
Structures and Energy Flux in a
Rough-wall Channel Flow J. Katz,
J. Hong, C. Meneveau, M. Schultz
MD. Turbulence
Simulations IV
Room: 102B
Chair: K. Knight, Bechtel Corporation
MB.08 Kelvin-Helmholtz-like
MB.09 The Role of Turbulent Scales
instability of turbulent flows over riblets in a Rough and Smooth Surface Wind
Turbine Blade V. Maldonado,
R. GarcÍa-Mayoral, J. Jiménez
S. Torres-Nieves, L. Castillo,
C. Meneveau
MC.07 DDES of shock wave/
turbulent boundary layer interaction
P. Coronado, M. Ilie
09:57
MA.10 Analytical solutions of a
quasilaminarized turbulent boundary
layer R. Hopkins, R. Cal
MC. Turbulence
Simulations III
Room: 102A
Chair: D. Donzis, Texas A&M U.
09:44
MA.09 Turbulence structure in
non-zero pressure gradient boundary
layers J. Monty, Z. Harun, I. Marusic
MB.07 Mean momentum balance
evolution in boundary layer transition
R. Ebner, X. Wu, J. Klewicki
09:31
MA.08 New insights into adverse
pressure gradient boundary layers
W. George, M. Stanislas, J. Laval
MB. Turbulent Boundary
Layers VIII
Room: 101B
Chair: K. Christensen, U. of Illinois at
Urbana-Champaign
09:18
MA.07 Relevant length scales in
wall-bounded turbulence
S. Venayagamoorthy, L. Dasi
MA. Turbulent Boundary
Layers VII: Theory
Room: 101A
Chair: E. Longmire, U. of Minnesota
Session
10:10
Promenade Ballroom
MM.07 Topology Optimization of
MM.08 Traffic jams and intermittent
Solid Oxide Fuel Cells G. Panagakos, flows in microfluidic networks
F. Okkels
N. Champagne, R. Vasseur,
A. Montourcy, D. Bartolo
MN.07 On Lagrangian and
MN.08 Quasi-steady linked vortices
vortex-surface fields in Taylor-Green
with chaotic streamlines O. Velasco
and Kida-Pelz flows D. Pullin, Y. Yang Fuentes, A. Romero Arteaga
MP.07 High-throughput continuous
millisecond solution exchange for
particle suspensions D. Gossett,
H. Tse, J. Dudani, D. Di Carlo
MQ.07 Escaping From Predation At
Low Reynolds Number: A
Compensatory Mechanism
B. Gemmell, J. Sheng, E. Buskey
MR.07 Shock Structure in a
Supersonic Jet C. Stern, C. Aguilar
MS.07 Effect of relative humidity on
contact angle of inkjet-printed
evaporating colloidal drops
V. Chhasatia, A. Joshi, Y. Sun
MT.07 Hydrodynamics of efficient
MT.08 Two-dimensional study of fluid MT.09 A Mechanical Fish to Emulate
propulsion in oscillating foils A. Eslam interaction with ray-strengthened fin
the Fast-Start Performance of Pike
Panah, J. Buchholz
using immersed boundary method
C. Feng, Y. Modarres-Sadeghi
K. Shoele, Q. Zhu
MU.07 The Interaction of
High-Speed Turbulence with Flames:
Turbulent Flame Speed
A. Poludnenko, E. Oran
MV.07 Rolling and resuspension of a MV.08 Instability of settling
particle for explanation of Shields
non-spherical particle in a vertical
diagram H. Lee, S. Balachandar
shear flow D. Qi, D. Koch,
G. Subramanian
MN. Quantized Vortices and
Vortex Dynamics
Room: 202C
Chair: D. Lathrop, U. of Maryland
MP. Microfluids: Mixing I
Room: 203A
Chair: J. Ou, U. of Minnesota
MQ. Biolocomotion IX:
Micro-Swimming IV
Room: 203B
Chair: D. Saintillan, U. of Illinois at
Urbana-Champaign
MR. Supersonic and
Hypersonic Flows I
Room: 203C
Chair: G. Bres, Exa Corporation
MS. Drops XI
Chair: G. Hu, Chinese Academy of
Sciences
MT. Biolocomotion X:
Macro-Swimming I
Chair: C. Henoch, Naval Undersea
Warfare Center
MU. Reacting Flows IV
Room: Regency A
Chair: D. Kassoy, U. of Colorado at
Boulder
MV. Suspensions I
Room: Regency B
Chair: A. Acrivos, City College of
CUNY
09:44
MM. Microfluids: General VII
Room: 202B
Chair: R. Qiao, Clemson U.
09:31
09:57
MR.10 Implementation and
Validation of a MILES Solver for the
Simulation of Supersonic Jet Flow
A. Corrigan, J. Liu, K. Kailasanath,
R. Ramamurti
MQ.10 Autonomous motion of
semipermeable colloidal particles via
chemical reactions: self-osmophoresis
M. Diaz, U. Cordova-Figueroa
MP.10 Mixing Enhancement in a
Very Low Reynolds Number Liquid
Shear Flow R. Nehe, H. Hu,
M. Koochesfahani
MN.10 Vortical structures in the
shallow flow past a magnetic obstacle
in an electrolytic layer A. Beltran,
S. Cuevas, E. Ramos, S. Smolentsev
MM.10 Compliant synthetic cilia
induce deposition of solid particles
J. Branscomb, A. Alexeev
ML.10 Investigating the Flow and
Biomechanics of the Embryonic
Zebrafish Heart B. Johnson,
D. Garrity, L. Dasi
92
MV.09 Anomalous diffusion of
non-colloidal suspensions in a Couette
flow K. Yeo, M. Maxey
MU.10 Hot Surface Ignition and
Flame Propagation of Hydrocarbon Air
Mixtures P. Boettcher, B. Ventura,
G. Blanquart, J. Shepherd
MS.09 Contact line dynamics of a
MS.10 Dynamics of Acoustically
liquid meniscus advancing into a
Vaporized Microdroplets A. Qamar,
microchannel with chemical
Z. Wong, J. Fowlkes, J. Bull
heterogeneities C. Wylock, M. Pradas,
B. Haut, P. Colinet, S. Kalliadasis
MR.09 Ignition, Flame Structure and
Near-Wall Burning in Transverse
Hydrogen Jets in Supersonic Crossflow
M. Gamba, M. Mungal, R. Hanson
MQ.09 Bacteria swimming in a
wall-bounded shear flow studied with
microfluidic-DHM H. Agarwal,
M. Barry, R. Stocker, J. Sheng
MP.09 Inertial Droplet Mixing in a
Confined Microchannel Gas Flow
B. Carroll, B. Robinson, C. Hidrovo
MU.08 Compressible, diffusive,
MU.09 Thermomechanical
reactive flow simulations of the double phenomena in rapidly heated inert and
Mach reflection phenomenon
reactive gases D. Kassoy
J. Ziegler, R. Deiterding, J. Shepherd,
D. Pullin
MS.08 The electro-hydrodynamic
flow about and the shape of strongly
deformed drops E. Yariv, D. Rhodes
MR.08 Large eddy simulation of an
underexpanded sonic jet C. Gorle,
M. Gamba, F. Ham
MQ.08 A High-Speed Tomographic
PIV System for Measuring
Plankton-Generated Flow D. Murphy,
D. Webster, J. Yen
MP.08 Spinning Convection:
Particle-induced Secondary Flow in
Straight Microchannels H. Amini,
E. Sollier, D. Di Carlo
MN.09 Dynamics of Oscillatory
Vortex Multipoles Generated by
Electromagnetic Forcing A. Figueroa,
S. Cuevas, E. Ramos
MM.09 Efficiency of a minimal
micro-pump in a viscoelastic fluid
F. De Lillo, G. Boffetta
ML.08 Computational fluid dynamics ML.09 A Mechanical System to
study of the early embryonic ventricle Reproduce Cardiovascular Flows
loop P. Menon Gopalakrishna,
T. Lindsey, P. Valsecchi
W. Kowalski, F. Sotiropoulos, K. Pekkan
09:18
ML.07 Hemodynamic simulations in
coronary aneurysms of a patient with
Kawasaki Disease D. Sengupta,
A. Marsden, J. Burns
Session
ML. Biofluids: Physiological
Cardiovascular I
Room: 202A
Chair: C. Lin, U. of Iowa
10:10
Promenade Ballroom
MZ.07 A Stereo-PIV Study of the
Taylor-Column Generated by a
Rotating Disk J. Vlaskamp,
P. Thomas, R. Hollerbach, R. Kerr
MZ. Rotating Flows I
Room: Regency F
Chair: H. Aluie, Los Alamos National
Laboratory
09:57
MX.10 Hydrophobic coating study for
anti-icing aircraft K. Morita, A. Aoki,
A. Konno, H. Sakaue
MW.10 Direct Measurement of
Turbulent Shear S. Stefanus,
S. Steers, W. Goldburg
MZ.08 Velocity profile measurements
in high Reynolds number
Taylor-Couette flow for pure
outer-cylinder rotation S. Huisman,
D. van Gils, C. Sun, G. van Heijst,
D. Lohse
93
MZ.09 Statistics of velocity
fluctuations in turbulent Couette-Taylor
flow C. Sun, S. Huisman, D. van Gils,
D. Lohse
MZ.10 Torque scaling between
independently rotating cylinders in
turbulent Taylor-Couette flow D. van
Gils, D. Narezo, S. Huisman, C. Sun,
D. Lohse
MY.08 Measuring and analyzing the MY.09 Magneto-Hydrodynamic Flow MY.10 Stability of mixed convection
magnetic field in (SERAJ system) theta of a Binary Electrolyte in a Concentric flows in poloidal ducts of DCLL blanket
pinch device using the Magnetic
Annulus M. Qin, H. Bau
N. Vetcha, S. Smolentsev, M. Abdou
probes H. Eshraee, E. Elshummakhi
MY.07 Gyroviscous effects in
channel flow with Braginskii
magnetohydrodynamics P. Dellar
MY. Magnetohydrodynamics
Room: Regency E
Chair: Y. Panta, Youngstown State U.
09:44
MX.07 Characterization of Synthetic MX.08 Coaxial twin-fluid atomization MX.09 Large eddy simulation on a
GTL Jet Fuel for use in Gas Turbine
with pattern air gas streams C. Ng,
pulverized coal combustion furnace
Engines R. Sadr, K. Kannaiyan
A. Aliseda
with a complex swirl burner
H. Watanabe, K. Tanno, R. Kurose,
S. Komori
09:31
MW.08 Modern quantitative schlieren MW.09 Megahertz rate Schlieren
techniques M. Hargather, G. Settles visualization of underexpanded,
impinging jet using pulsed high power
LED C. Willert, D. Mitchell, J. Soria
MX. Industrial Applications I
Room: Regency D
Chair: A. Filippov, Corning Inc.
09:18
MW.07 3D Synthetic Aperture
Imaging for Fluid Flows J. Belden,
T. Truscott, M. Axiak, A. Techet
MW. Experimental
Techniques II
Room: Regency C
Chair: R. Menon, TSI Inc.
Session
10:10
Promenade Ballroom
Lunch Break
11:30 – 12:50
94
Session PT: Francois Frenkiel Award Lecture
Chair: Kenneth Kiger, University of Maryland
Francois Frenkiel Award Lecture: Thermocapillary Migration Of Interfacial Droplets Edwin F. Greco, Georgia Institute of Technology
Session PS: Andreas Acrivos Dissertation Award Lecture
Chair: Andrea Prosperetti, Johns Hopkins University
Andreas Acrivos Dissertation Prize Lecture: Quantum Mechanics Meets Fluid Dynamics: Visualization Of Vortex Reconnection In Superfluid
Helium Matthew Paoletti, University of Maryland and University of Texas at Austin
Mini Break
11:05 – 11:10
Invited Session NT
Wetting, Spreading And Capillary Adhesion: Putting Shape-instability To Purpose Paul Steen, Cornell University
Invited Session NS
Chair: Geoffrey Spedding, University of Southern California
Turbulence In Strongly Stratified Flows James Riley, University of Washington
QB.04 Time-evolution and
time-scales of topological structures in
a turbulent boundary layer through
conditional mean trajectory analysis
C. Atkinson, S. Chumakov,
I. Bermejo-Moreno, X. Wu, J. Soria
QJ.02 Airfoil Leading Edge Flow
Separation Control using DBD Plasma
Actuators driven by Nanosecond
Pulses J. Little, C. Rethmel,
K. Takashima, C. Wiet, I. Adamovich,
M. Samimy
QK.02 Dynamics of a microsphere in
an anisotropic gel: a frontier in
intracellular microrheology
M. Gomez-Gonzalez, K. Osterday,
J. del Alamo
QJ.01 Numerical and Experimental
Investigation of Plasma Actuator
Control of Modified Flat-back Airfoil
B. Mertz, T. Corke
QJ. Flow Control VI
Room: 201A
Chair: M. Wei, New Mexico State U.
QK. Biofluids: Cellular III
QK.01 Stochastic Intravasation
Model for Cancer Metastasis A. Lee,
Room: 201B
Chair: J. C. del Alamo, U. of California, S. Liao, P. Newton
San Diego
95
QK.03 Probing the directional
structure and intracellular
microrheology of the eukaryotic
cytoplasm K. Osterday,
M. Gomez-Gonzalez, J. Li, G. Norwich,
J. Lasheras, S. Chien, J. del Alamo
QJ.03 Experimental study and
optimization of Plasma Actuators for
Flow control in subsonic regime
P. Moise, J. Mathew, K. Venkatraman,
J. Thomas
QH.03 Nonlinear spin-up of a
thermally stratified fluid in cylindrical
geometries J. Pacheco, R. Verzicco,
S. Smirnov
QH.01 Elastic response of ice
sheet-shelf system R. Sayag,
G. Worster
QH. GFD: General III
Room: 103C
Chair: J. Barranco, San Francisco
State U.
QH.02 Fracturing of rocks by ice
I. Vlahou, G. Worster
QG.02 Intrusive gravity currents and QG.03 Horizontal Convection
the solitary wave lifecycle in a
K. Matusik, S. Llewellyn Smith
cylindrical geometry J. McMillan,
B. Sutherland
QG.01 Interleaving intrusions
between adjacent layered
stratifications B. Maurer, P. Linden
QG. Stratified Flows I
Room: 103B
Chair: S. Sarkar, U. of California, San
Diego
13:42
QK.04 Do choanoflagellate cells
cooperate hydrodynamically to
increase feeding fluxes? M. Roper,
J. Wilkening, M. Koehl, R. Pepper,
M. Dayel, N. King
QJ.04 Pressure Dependence of
Plasma Actuated Flow Control
J. Valerioti, T. Corke
QH.04 Experimental study of
atmospheric wind and ocean surface
wave interaction A. Singha, R. Sadr
13:55
QE.06 Combined experimental and
computational investigation of sterile
air flows in surgical environments
J. McNeill, J. Hertzberg, Z. Zhai
QD.06 The LES of the channel flow
in a non aligned system of coordinates
M. Germano, A. Abbà
QC.06 A comparison study of planar
Richtmyer-Meshkov instability in
Mie-Grüneisen fluids and perfect gases
G. Ward, D. Pullin
QB.06 Identification of Lagrangian
Coherent Structures in a Turbulent
Boundary Layer Z. Wilson, M. Tutkun,
R. Cal
QK.05 WITHDRAWN .
QJ.05 Coherent Structures in a
Supersonic Jet Excited by Plasma
Actuators D. Gaitonde, M. Samimy
QH.05 Fluxes across
double-diffusive interfaces: a
one-dimensional-turbulence study
E. Gonzalez-Juez, A. Kerstein,
D. Lignell
QK.06 Cellular flow in a small blood
vessel J. Freund, M. Orescanin
QJ.06 Towards Feedback Control of
Bypass Transition: Experiments on
Laminar Boundary Layer Response to
Dynamically Actuated Roughness
K. Bade, A. Naguib, R. Hanson,
P. Lavoie
QH.06 Settling-induced heat
transport F. Blanchette, W. Douandju,
S. Montroy
QG.06 Turbulence-induced
secondary motion in a buoyancy-driven
flow in a circular pipe J. Maganudet,
Y. Hallez
QF.05 Effect of Polymer Additives on QF.06 Purely elastic instabilities in
Heat Transfer in a Laminar
parallel shear flows L. Pan, P. Arratia
Boundary-Layer Flow E. Ching,
R. Benzi, V. Chu
QE.05 Oscillatory motion of flat
square wall-hinged winglets inside a
turbulent boundary layer A. Elzawawy,
Y. Andreopoulos
QD.05 Optimization of turbine
spacing in the fully developed wind
turbine array boundary layer
C. Meneveau, J. Meyers
QC.05 DSMC Algorithms for
Moving-Boundary Problems
J. Torczynski, M. Gallis
QB.05 Geometrical structure and
topology of pressure Hessian in the
turbulent boundary layer
S. Chumakov, C. Atkinson,
I. Bermejo-Moreno, J. Soria, X. Wu
QA.05 Droplet deformation in shear QA.06 Fluctuating Lattice Boltzmann
flow: a comparison between
G. Kaehler, A. Wagner
multicomponent Lattice-Boltzmann
method (LBM) and Phase Field
method (PFM) A. Soldati, L. Scarbolo,
D. Molin, P. Perlekar, F. Toschi
QG.04 Lattice Boltzmann simulation QG.05 Generalized thermal theory
of buoyancy-driven flow of two
for gravity currents in the deceleration
immiscible fluids in an inclined channel phase A. Dai
S. Vanka, K. Sahu
QF.02 Symmetric factorization of the QF.03 Slow motion and deformation QF.04 Steady State Visco-Elastic
conformation tensor in viscoelastic fluid of a viscoplastic drop in a viscous fluid Rimming Flow A. Mazurenko,
models B. Thomases, N. Balci,
O. Lavrenteva, I. Smagin, A. Nir
S. Fomin, B. Nelson, J. Debrunner
M. Renardy, C. Doering
QE.04 New Ways of Teaching
Upper-division courses: Descriptions
and Results R. Pepper, S. Chasteen,
S. Pollock, M. Dubson, P. Beale,
K. Perkins
QD.04 Applying the v2f and the
algebraic structure-based Reynolds
stress closures to wind flow over
complex terrain J. O’Sullivan,
R. Pecnik, G. Iaccarino
QF. Non-Newtonian Flows II
QF.01 Peristalsis of a viscoelastic
fluid in a cavity with closed ends
Room: 103A
Chair: P. Singh, New Jersey Institute of S. Lukens, J. Chrispell, L. Fauci
Technology
QD.03 Large Eddy Simulation of
stable and unstable atmospheric
boundary layers over heterogeneous
terrain S. Shah, E. Bou-Zeid
QE.02 The mass, energy, space and QE.03 Seeing Fluid Physics:
time systemic theory-MEST-quantum Outcomes From a Course on Flow
gravitational field D. Cao
Visualization J. Hertzberg
QE.01 Light dragging phenomenon
and expanding wormholes H. Culetu
13:29
QA.04 A Diffuse Interface Method
with Adaptive Mesh Refinement for
Simulation of Incompressible
Multi-Phase Flows with Moving
Contact Lines Y. Sui, P. Spelt, H. Ding
QC.03 A Generalized Stochastic
QC.04 Improved-Efficiency DSMC
Solution Algorithm for Simulations of
Collision-Partner Selection Schemes
Rarefied Gas Flows M. Gorji, P. Jenny M. Gallis, J. Torczynski
QB.03 Markovian properties of
velocity increments in a high Reynolds
number turbulent boundary layer
M. Fredbo, M. Tutkun
QE. General Fluid
Dynamics IV
Room: 102C
Chair: B. Lyon, California Institute of
Technology
QC.02 Variance-reduced DSMC
simulations of low-signal flows
G. Radtke, H. Al-Mohssen, M. Gallis,
N. Hadjiconstantinou
QB.02 Coherent enstrophy
production and turbulent dissipation in
two-dimensional turbulence with and
without walls R. Nguyen Van Yen,
M. Farge, K. Schneider
13:16
QA.03 A Quadrature Free
Discontinuous Galerkin Conservative
Level Set Scheme M. Czajkowski,
O. Desjardins
QD.02 Conditional flow structures in
a Large Eddy Simulation of the fully
developed wind-turbine array boundary
layer C. Verhulst, C. Meneveau
QC.01 Importance sampling based
direct simulation Monte Carlo method
P. Vedula, D. Otten
QC. Rarefied Gases and
Compressible Flows
Room: 102A
Chair: X. Wang, U. of California, Los
Angeles
13:03
QA.02 Evaluation of CFD predictions
of mixing properties of hydrogen as a
fuel in a model premixer by
experimental and statistical tools
A. Akbari, V. McDonell, S. Samuelsen
QD. Turbulence Simulations V QD.01 Large-eddy simulation of flow
past wind turbine rotors I. Borazjani,
Room: 102B
F. Sotiropoulos
Chair: D. Lee Cotrell, Lawrence
QB.01 Scale-separation effects on
the mechanisms of turbulent inertia
C. Morrill-Winter, P. Priyadarshana,
J. Klewicki
QB. Turbulent Boundary
Layers IX
Room: 101B
Chair: D. Sabatino, Lafayette College
12:50
QA.01 A lattice Boltzmann code for
direct numerical simulation of
skin-friction drag reduction by
superhydrophobic surfaces in turbulent
channel flow A. Rastegari,
R. Akhavan
Session
QA. CFD: Multiphase and
Mixing Applications
Room: 101A
Chair: S. V. Apte, Oregon State U.
Tuesday Noon, 23 November 2010
QN.01 Granular materials: on
topology of force chains L. Kondic,
M. Tsukahara, M. Kramar,
K. Mischaikow, J. Zhang, R. Behringer,
C. O’Hern
QP.01 Optimal advective mixing by
two-dimensional chaotic Stokes flows
D. Saintillan, Q. Yan
QQ.01 Understanding the
QQ.02 Deformation of soap films
spontaneous brittle-to-ductile transition pushed through tubes at high velocity
in foam fracture S. Arif, J. Tsai,
I. Cantat, B. Dollet
S. Hilgenfeldt
QR.01 Fluid-thermal validation of a
high-fidelity multi-physics
computational tool C. Ostoich,
D. Bodony, P. Geubelle
QS.01 Collisional low velocity phase QS.02 Chemotaxis affects
of concentrated rod-shaped bacteria
hydrodynamics in suspensions of
L. Cisneros, J. Kessler, S. Ganguly,
micro-swimmers E. Lushi, M. Shelley
R. Goldstein
QN. Granular Flows III
Room: 202C
Chair: M. V. Papalexandris, Universite
Catholique de Louvain
QP. Microfluidics: Mixing II
Room: 203A
Chair: H. Zhao, U. of Nevada, Las
Vegas
QQ. Bubbles IV
Room: 203B
Chair: Y. Hong Qian, Shanghai U.
QR. Supersonic and
Hypersonic Flows II
Room: 203C
Chair: J. Hermanson, U. of Washington
QS. Biolocomotion XI:
Micro-Swimming Collective
Behavior
Chair: S. Spagnolie, U. of California,
San Diego
13:16
QL.03 Physiologic Simulation of the
Fontan Surgery with Variable Wall
Properties and Respiration C. Long,
Y. Bazilevs, J. Feinstein, A. Marsden
13:29
QL.04 Computational Modeling of
Blood Flow and Valve Dynamics in
Hearts with Hypertrophic
Cardiomyopathy X. Zheng, R. Mittal,
T. Abraham, A. Pinheiro
QV.01 Mixing and microstructure in
sedimenting suspensions
E. Guazzelli, L. Bergougnoux
QV. Suspensions II
Room: Regency B
Chair: J. Hinch, Cambridge U.
QV.02 Microrheology of colloidal
dispersions R. Zia, J. Brady
QU.01 Detonation propagation
QU.02 Fingering instability of forward
through methane-air mixtures with fuel smolder waves Z. Lu, Y. Dong
concentration gradients D. Kessler,
V. Gamezo, E. Oran
QT.02 Numerical investigation of the
3D flow field generated by a
self-propelling manta ray
J. Pederzani, H. Haj-Hariri
QR.02 Porous coatings for
hypersonic laminar flow control
M. Inkman, G. Bres, T. Colonius,
A. Fedorov
QP.02 Analysis of Mixing in a 2D
Drop with Time-Periodic Boundary
Forcing M. Davis, A. Clemm,
C. Keppel, D. Marriner, A. Bernoff,
A. Nadim
QN.02 Energy bursts in shallow
granular systems N. Mujica, N. Rivas,
S. Ponce, B. Gallet, D. Risso, R. Soto,
P. Cordero
QS.04 Oxygen transport and mixing
dynamics in thin films of aerotactic
bacteria A. Alizadeh Pahlavan,
D. Saintillan
QU.04 Pinning of reaction fronts by
moving vortices C. Williamson,
T. Solomon
96
13:55
QL.06 Particle Image Velocimetry
studies of bicuspid aortic valve
hemodynamics N. Saikrishnan,
C. Yap, A. Yoganathan
QP.05 A Two-Equation Model For
Mixing in Viscous-Fingering
Displacements B. Jha,
L. Cueto-Felgueroso, R. Juanes
QS.06 Modelization and numerical
simulations of a microswimmer
suspension. The impact on rheology.
P. Peyla, L. Jibuti, S. Rafai
QV.05 Long-time self-diffusivity of a
catalytic partcle in a dilute suspension
S. Shklyaev, J. Brady,
U. Cordova–Figueroa
QU.05 Burning manifolds and
burning lobes M. Kingsbury,
T. Solomon
QV.06 In Situ Observations of
Electric-Field Induced Nanoparticle
Aggregation T. Woehl, N. Browning,
W. Ristenpart
QU.06 Numerical Investigation of the
Hydrogen Jet Flammable Envelope
Extent with Account for Unsteady
Phenomena B. Chernyavsky,
P. Benard
QT.05 Characterization of the
QT.06 Hydrodynamics of jumping for
interaction between a rough boundary prey capture in Archer fish A. Techet,
layer and multiple cylinders wakes
A. Shih
A. Cotel, O. Eiff, P. Pradhan
QS.05 Turbulent unmixing: the
sorting of motile phytoplankton by flow
W. Durham, E. Climent, M. Barry,
R. Stocker
QR.06 Transition delay in
hypervelocity boundary layers via CO2
injection J. Jewell, I. Leyva,
N. Parziale, H. Hornung, J. Shepherd
QQ.06 Actively Enhanced Boiling
Heat Transfer using Acoustic Interfacial
Actuation T. Boziuk, M. Smith,
A. Glezer
QP.06 Lubrication Analysis of Flow
and Mixing in a 3D Translating Sessile
Drop C. Keppel, A. Clemm, M. Davis,
D. Marriner, A. Bernoff, A. Nadim
QN.05 Simulations of 2D granular jet QN.06 WITHDRAWN .
impact deadzone formation
N. Guttenberg, W. Zhang
QM.05 A Computational Analysis of QM.06 Eggs in milk T. Truscott,
Binary Collisions of shear-thinning
J. Belden, K. Langley
Droplets C. Focke, D. Bothe
QR.04 Estimation of Measurement QR.05 Transition of high-speed flow
Errors in Supersonic Wall-Bounded
induced by roughness elements
Flows using CFD-Based Simulated PIV P. Iyer, S. Muppidi, K. Mahesh
R. Burns, N. Clemens, H. Koo,
V. Raman
QV.03 Plugging of microchannels by QV.04 A Quantitative Study of Bulk
spherical particles E. Climent,
Stresses in Nonlinear Microrheology
C. Agbangla, P. Bacchin
R. DePuit, T. Squires
QU.03 The role of hydrodynamic
instability in the turbulent propagation
of premixed flames F. Creta,
M. Matalon, N. Fogla
13:42
QL.05 A Quantitative Study of
Simulated Bicuspid Aortic Valves
K. Szeto, T. Nguyen, J. Rodriguez,
P. Pastuszko, V. Nigam, J. Lasheras
QQ.04 Accurate detection of pierced QQ.05 Explosive boiling incipience
position/angle in bubble measurements on a thin wire J. Nardin, C. Poulain,
by a Single-Tip Optical fiber Probe
J. Duplat
Y. Mizushima, T. Saito
QP.04 Designing a Robust
Micromixer Based on Fluid Stretching
D. Mott, D. Gautam, G. Voth, E. Oran
QN.04 Derivation and numerical
treatment of the low-Mach number
equations for two-phase granular
mixtures C. Varsakelis,
M. Papalexandris
QT.03 Vortex Formation in the
QT.04 Vortical structures in the wake
Starting Flow of Rotating
of an undulating fin P. Dewey,
Low-Aspect-Ratio Plates A. DeVoria, A. Carriou, A. Smits
M. Ringuette
QS.03 Direct measurement of the
flow field around swimming
microorganisms M. Polin, K. Drescher,
R. Goldstein, N. Michel, I. Tuval
QR.03 A numerical study of
compressible turbulent boundary layers
M. Lagha, J. Kim, J. Eldredge,
X. Zhong
QQ.03 The micro-macro link for
liquid foam stability A. Biance,
A. Delbos, O. Pitois
QP.03 Low Reynolds number flow
over slanted grooves in a
micro-channel S. Yun, K. Kang
QN.03 3D aspects of mixing and
transport in tumbled granular flow
I. Christov, R. Lueptow, J. Ottino,
R. Sturman, S. Wiggins
QM.02 Atomization patterns of liquid QM.03 Vibration-Induced Gas-Liquid QM.04 Crumpled liquid sheet
sheets formed by two impinging jets
Interface Breakup T. O’Hern,
H. Lhuissier, E. Villermaux
D. Ma, X. Chen, V. Yang
J. Torczynski, E. Romero, B. Shelden
QU. Reacting Flows V
Room: Regency A
Chair: D. Kessler, Naval Research
Laboratory
QT. Biolocomotion XII:
QT.01 Maneuver of juvenile chinook
Macro-Swimming II
salmon during feeding in streams
J. Peng
Chair: J. Eldredge, U. of California, Los
Angeles
QM.01 Capillary retraction of liquid
sheet G. Agbaglah, C. Josserand,
S. Zaleski
QM. Free Surface Flows:
Droplets and Sheets
Room: 202B
Chair: T. Truscott, Brigham Young U.
13:03
QL.02 Impact of surgical shape on
blood flow pattern for patient specific
coronary artery bypass graft (CABG)
surgery S. Sankaran, A. Marsden
12:50
QL.01 Quantification of hepatic flow
distribution using particle tracking for
patient specific virtual Fontan surgery
W. Yang, I. Vignon-Clementel,
G. Troianowski, S. Shadden, V. Reddy,
J. Feinstein, A. Marsden
Session
QL. Biofluids: Physiological
Cardiovascular II
Room: 202A
Chair: J. Stroud Rossmann, Lafayette
College
13:03
13:16
QW.03 Two-dimensional
Laser-Cantilever-Anemometer with
re-designed cantilever chip measurements and characterization
M. Hoelling, J. Puczylowski, J. Peinke
QZ.02 Inertial waves in the channel
turbulence with system rotation
Y. Yang, J. Wu
QZ. Rotating Flows II
Room: Regency F
Chair: H. Clercx, Eindhoven U. of
Technology
QY.04 A network model for foam
dynamics P. Stewart, M. Gratton,
M. Davis, S. Davis
97
QZ.03 The motion and the forces on QZ.04 Viscous spreading of an
a cylinder and a sphere in rotating
inertial wave beam in a rotating fluid
shear flow Y. Tagawa, C. Sun,
P. Cortet, C. Lamriben, F. Moisy
T. Mullin, L. van Wijngaarden, D. Lohse
QY.02 On the breakup of nanoscale QY.03 Models for metallic foam
metalic rings melted via laser pulses
lamellae M. Gratton, S. Davis
J. Diez, L. Kondic, Y. Wu, J. Fowlkes,
P. Rack
QZ.01 Dynamics of a fluid inside a
precessing cylinder R. Lagrange,
P. Meunier, C. Eloy, F. Nadal
13:29
QW.04 Infrared quantum dots as
liquid temperature tracers for imaging
through silicon M. Kim, M. Yoda
QX.02 Ion Wind Generation and its QX.03 Numerical Simulations of a
QX.04 Evaluating Contributions of
Application to Cooling Device B. Kim, Roof-Top Wind Turbine S. Moayedian, Turbulent kinetic Energy Fluxes To
Streamtube Analysis of Wind Turbines
S. Lee, Y. Lee, K. Kang
H. Rahai
in an Array J. Lebron, L. Castillo,
C. Meneveau
QW.02 On the optimal number and
sensor arrangement of multi-sensor
hot-wire probes to measure the velocity
vector and the velocity gradient tensor
in turbulent boundary layers
P. Vukoslavcevic, J. Wallace,
N. Baratlis, E. Balaras
QY. Instability: Interfacial and QY.01 Fingering Patterns of
Thin Film VI
Ferrofluid Droplets In a Radial Field
C. Chen, W. Wu, Y. Yang, J. Miranda
Room: Regency E
Chair: M. Sellier, U. of Canterbury
QX.01 Numerical investigation for
design and critical performance
evaluation of a horizontal axis
hydrokinetic turbine S. Mukherji,
A. Banerjee
QX. Industrial Applications II
Room: Regency D
Chair: J. Tessendorf, Rhythm and
Hues Studios
12:50
QW.01 Spatial filtering and
end-conduction effects in turbulence
measurements using hot wires
A. Ashok, M. Hultmark, A. Smits
Session
QW. Experimental
Techniques III
Room: Regency C
Chair: S. Chhabra, Heat Transfer
Research Inc.
13:42
13:55
QX.06 Hydrodynamic Performance
of a Wave Energy Converter Y. Yang
QZ.05 Spin-Up and Spin-Down in a
Half Cone M. Patterson, L. Li,
K. Zang, R. Kerswell
QZ.06 Tilt-over mode in a precessing
triaxial ellipsoid D. Cebron, M. Le
Bars, P. Meunier
QY.05 Electrically Driven Motion of QY.06 Viscous fingering of a miscible
Thin Films of Dielectric Liquids P. Kim, reactive A+B→C interface with an
infinite Damköhler number: Nonlinear
C. Duprat, S. Tsai, H. Stone
simulations Y. Nagatsu, A. De Wit
QX.05 Numerical Modeling of
Hydrokinetic Turbines and their
Environmental Effects T. Javaherchi,
A. Aliseda
QW.05 Temperature characterization QW.06 Fluorescence thermometry
of CdSe/ZnS quantum-dots applied on measurements of wall surface and bulk
anodized-aluminum coating
fluid temperatures M. Kim, M. Yoda
A. Aikawa, H. Sakaue
QC.07 Multidimensional detonation
propagation modeled via nonlinear
shock wave superposition A. Higgins,
N. Mehrjoo
QD.07 Isogeometric Variational
Multiscale Large Eddy Simulation of
Turbulent Flow through Annulus
Channel Y. Ghaffari Motlagh, H. Ahn
QE.07 The incorporation of
computational fluid dynamics (CFD)
capabilities with RISK, an indoor air
quality zonal model developed by the
U.S. EPA D. Marr
QC. Rarefied Gases and
Compressible Flows
Room: 102A
Chair: X. Wang, U. of California, Los
Angeles
QD. Turbulence Simulations V
Room: 102B
Chair: D. Lee Cotrell, Lawrence
QE. General Fluid
Dynamics IV
Room: 102C
Chair: B. Lyon, California Institute of
Technology
14:34
QJ.07 Towards Feedback Control of
Bypass Transition: Experiments on
Laminar Boundary Layer Response to
a Pulsed Plasma Actuator P. Lavoie,
R. Hanson, A. Naguib
QJ. Flow Control VI
Room: 201A
Chair: M. Wei, New Mexico State U.
QK. Biofluids: Cellular III
QK.07 Cell Transport in
Microchannel A. Conlisk, Z. Peng,
Room: 201B
Chair: J. C. del Alamo, U. of California, D. Hoying
San Diego
QH.07 PSI of the oceanic internal
tide J. Hazewinkel, Y. Tsang,
K. Winters, W. Young
QH. GFD: General III
Room: 103C
Chair: J. Barranco, San Francisco
State U.
QH.09 The role of non-QG dynamics
in the formation and equilibration of
eddies in the ocean and atmosphere
J. Taylor, K. Smith, R. Ferrari
QK.08 Sticks in honey Motor-connected Microtubules at low
Reynolds number R. Berman,
A. Leshansky, J. Avron
98
QK.09 Time course of pH change in
plant epidermis using microscopic pH
imaging system R. Dan, M. Shimizu,
H. Kazama, H. Sakaue
QJ.08 Towards Feedback Control of QJ.09 Improving Wind Turbine
Bypass Transition: Numerical
Efficiency with Plasma Actuators
Simulations of Laminar Boundary
J. Cooney, T. Corke, R. Nelson
Layer Response to a Plamsa Actuator
B. Belson, C. Rowley
QH.08 Nonlinear effects associated
with harmonic forcing of the flow in a
rotating sphere A. Sauret, D. Cébron,
C. Morize, M. Le Bars, S. Le Dizès
QG.08 Mixing induced by exchange
flows in a confined volume of fluid
A. Kuesters, A. Woods
QG.07 Negatively buoyant fluid
projectiles O. Myrtroeen, G. Hunt
QG. Stratified Flows I
Room: 103B
Chair: S. Sarkar, U. of California, San
Diego
QG.09 Buoyancy-induced mixing
caused by a dense fluid in a narrow
vertical channel D. van Sommeren,
C. Caulfield, A. Woods
QF.08 Impact of a cylindrical rod on a QF.09 Pinch-off Dynamics of
concentrated particle suspension:
Non-Newtonian Fluids F. Huisman,
dynamics, crack growth and relaxation S. Gutman, P. Taborek
E. Myftiu, M. Roche, P. Kim, H. Stone
QE.09 Microfluidic Production of
Monodisperse Perfluorocarbon
Microdroplets D. Li, K. Schalte,
J. Fowlkes, J. Bull
QC.09 Shock-initiated Combustion of
a Spherical Density Inhomogeneity
N. Haehn, J. Oakley, D. Rothamer,
M. Anderson, D. Ranjan, R. Bonazza
QB.09 Bayesian Assessment of
Mean Velocity Profile Models in
Wall-Bounded Turbulence R. Moser,
T. Oliver
QA.09 A study on improving
numerical stability by applying filter
operation to concentration flux for
reverse simulation S. Abe, S. Kato
QF. Non-Newtonian Flows II
QF.07 Rinsing Flows of
Non-Newtonian Fluids G. Fuller,
Room: 103A
Chair: P. Singh, New Jersey Institute of T. Walker, T. Hsu, P. Anderson
Technology
QE.08 Flow-Induced Stress
Distribution in Porous Scaffolds
D. Papavassiliou, R. Voronov,
S. VanGordon, V. Sikavitsas
QC.08 Unsteady numerical
simulations over the BLOODHOUND
supersonic car G. Araya, B. Evans,
O. Hassan, K. Morgan
QB.07 The parametric mechanism QB.08 Classification of critical points
maintaining the roll/streak/turbulence in a turbulent boundary layer
complex in boundary layers B. Farrell M. Gibson, A. Helgeland, M. Tutkun,
R. Cal
14:21
QA.08 Performance Limitation by
Reactant Crossover in a
Membraneless Fuel Cell I. Sprague,
P. Dutta
QB. Turbulent Boundary
Layers IX
Room: 101B
Chair: D. Sabatino, Lafayette College
14:08
QA.07 Lattice Boltzmann modeling
for energy conversion systems
N. Prasianakis, J. Mantzaras
QA. CFD: Multiphase and
Mixing Applications
Room: 101A
Chair: S. V. Apte, Oregon State U.
Session
14:47
QG.10 Inertia versus gravity
V. Shevtsova
QF.10 Buckling of cornstarch
solutions after pinch-off: evidence for a
jamming transition at high extensional
rates M. Roche, O. Akkaya, H. Kellay,
H. Stone
QE.10 The Effect of Nonuniform Inlet
Conditions on Annular Diffusers
A. Padilla, C. Elkins, J. Eaton
QB.10 Forced Solutions of
Streamwise Constant Plane Couette
Flow D. Gayme, B. McKeon,
B. Bamieh, J. Doyle,
A. Papachristodoulou
QA.10 Coarse Grid CFD for
underresolved simulation A. Class,
M. Viellieber, S. Himmel
15:00
Mini Break, 15:00–15:05
QN.07 Rheology of simple shear
flows of dense granular assemblies in
different regimes S. Chialvo, J. Sun,
S. Sundaresan
QP.07 Optimizing Chaotic Mixing in a QP.08 Passive scalar separation
Two-Inlet Microfluidic Channel by
using chaotic advection A. Duggleby,
Out-of-Phase Pulsing. D. Chang,
P. Rao, P. Kumar, M. Stremler
R. Chabreyrie, N. Aubry
QQ.07 Infrared Visualisation of
Nucleate Boiling from an Isolated Site
in a Hele-Shaw Cell J. Barber,
D. Brutin, L. Tadrist
QR.07 Laser-Induced Fluorescence
Imaging of Droplet Vaporization and
Fuel Dispersion in Supersonic Flow
Y. Kim, R. Cerff, J. Hermanson
QS.07 Random flow induced by
swimming algae V. Kantsler,
I. Rushkin, R. Goldstein
QT.07 The effect of a variable
diameter nozzle on starting jet
formation and separation dynamics
M. Krieg, K. Mohseni
QU.07 Water Mist Interaction with
Flame Spreading Against Gravity
C. Kumar, A. Kumar
QV.07 Numerical Simulations of
Electrostatically Induced Aggregation
and Coalescence in Polydisperse
Emulsions G. Magill, W. Ristenpart
QN. Granular Flows III
Room: 202C
Chair: M. V. Papalexandris, Universite
Catholique de Louvain
QP. Microfluidics: Mixing II
Room: 203A
Chair: H. Zhao, U. of Nevada, Las
Vegas
QQ. Bubbles IV
Room: 203B
Chair: Y. Hong Qian, Shanghai U.
QR. Supersonic and
Hypersonic Flows II
Room: 203C
Chair: J. Hermanson, U. of Washington
QS. Biolocomotion XI:
Micro-Swimming Collective
Behavior
Chair: S. Spagnolie, U. of California,
San Diego
QT. Biolocomotion XII:
Macro-Swimming II
Chair: J. Eldredge, U. of California, Los
Angeles
QU. Reacting Flows V
Room: Regency A
Chair: D. Kessler, Naval Research
Laboratory
QV. Suspensions II
Room: Regency B
Chair: J. Hinch, Cambridge U.
QQ.09 Conditions for microthread
formation in viscous coflows E. de
Castro Hernandez, J. Gordillo
QP.09 Evidence of streaming-related
irreversibility and mixing in low
Reynolds number acinar flows
H. Kumar, C. Lin, M. Tawhai,
E. Hoffman
QN.09 Rheology of dense granular
mixtures: Particle size distributions,
boundary conditions, and collisional
time scales K. Hill, B. Yohannes
QM.09 A mesoscale analysis of the
Rayleigh-Plateau instability M. Arienti,
L. Xiaoyi, M. Soteriou, W. Pan,
G. Karniadakis
14:34
QT.09 Effect of Noise and Flow Field
Resolution on the Evaluation of Fluid
Dynamic Forces on Bodies Using only
the Velocity Field and its Derivatives
M. Breda, P. Krueger
QS.09 Taylor-Aris dispersion of
swimming algae in pipe flow:
predictions and experimental tests
O. Croze, M. Bees, R. Bearon
QV.08 Magnetically Guided
Propulsion of Osmotic Motors
G. Vidal, C. Rinaldi,
U. Córdova-Figueroa
99
QV.09 The Rheology and
Microstructure of Dense Suspensions
of Elastic Capsules J. Clausen,
D. Reasor, C. Aidun
QU.08 Vorticity, Strain Rate, and
QU.09 Characteristics of Edge
Scalar Gradient Dynamics in Premixed Flames in Microcombustors J. Bieri,
Reacting Flows P. Hamlington,
M. Matalon
A. Poludnenko, E. Oran
QT.08 Caltech’s Fish-inspired Wind
Farm: Results from the first summer
J. Dabiri
QS.08 Effective viscosity of actively
swimming algae suspensions
R. Ewoldt, L. Caretta, A. Chengala,
J. Sheng
QR.08 Experimental investigation of QR.09 A study of entropy rise across
compressibility effects in a separated supersonic pressure exchange
boundary layer in supersonic flow
enhancing rotors K. Bulusu, C. Garris
J. Dussauge, S. Piponniau, P. Dupont
QQ.08 Drag force acting on an
ellipsoidal bubble with fore-aft
asymmetry T. Sanada, M. Shirota
QN.08 Rheology of Granular
Mixtures Differing in Size and/or
Density A. Tripathi, D. Khakhar
QM.08 Inviscid Breakup of Bubbles
and Drops With and Without Surface
Charge J. Burton, P. Taborek
QM.07 The Tibetan singing bowl
J. Bush, D. Terwagne
14:21
QL.08 A numerical investigation of
blood damage in the hinge area of
bileaflet mechanical heart valves
M. Yun, J. Wu, H. Simon,
F. Sotiropoulos, C. Aidun,
A. Yoganathan
QM. Free Surface Flows:
Droplets and Sheets
Room: 202B
Chair: T. Truscott, Brigham Young U.
14:08
QL.07 The Effects of Magnetic
Nanoparticles on Magnetic Fluid
Hyperthermia M. Liangruksa,
R. Kappiyoor, R. Ganguly, I. Puri
QL. Biofluids: Physiological
Cardiovascular II
Room: 202A
Chair: J. Stroud Rossmann, Lafayette
College
Session
QV.10 Solid Particle Erosion in Slug
Flow N. Kesana, J. Throneberry,
B. McLaury, S. Shirazi
QR.10 High-Energy Molecular Beam
Source Using a Non-Diaphragm Type
Small Shock Tube Y. Yoshimoto,
N. Miyoshi, I. Kinefuchi, K. Shimizu,
S. Takagi, Y. Matsumoto
QQ.10 Novel high bandwidth wall
shear stress sensor for ultrasonic
cleaning applications
S. Gonzalez-Avila, F. Prabowo, C. Ohl
QP.10 Experimental study on
biological mixing by micro-organism
J. Kim, Y. Jang, D. Byun, S. Nam,
S. Park, M. Kim
14:47
15:00
Mini Break, 15:00–15:05
QZ.07 Experimental Determination
of Zonal Winds Driven by Tides
C. Morize, M. Le Bars, P. Le Gal,
A. Tilgner
QZ.08 Lagrangian velocity,
acceleration and vorticity
autocorrelations in rotating turbulence
H. Clercx, L. Del Castello
14:47
QX.10 Characterization of
Turbulence and Cavitation Induced
Pipe Vibrations Due to Flow thru Baffle
Plates G. Holt, D. Maynes, J. Blotter
100
QZ.09 A closed grid turbulence
QZ.10 Vortex Induced Flows
experiment under rotation: Anisotropic Involving Fused Cylinder/Sphere Pairs
energy transfer and inertial modes
D. Palaniappan
inhibition C. Lamriben, P. Cortet,
F. Moisy
QY.09 Steady contact lines in a
vapor-liquid system: truncated versus
extended adsorbed microfilms
P. Colinet, A. Rednikov
QZ. Rotating Flows II
Room: Regency F
Chair: H. Clercx, Eindhoven U. of
Technology
QY.08 Moving contact lines in a
vapor-liquid system: a singularity-free
description in the sole framework of
classical physics A. Rednikov,
P. Colinet
QY.07 Emulation of Mucus
Propulsion in the Trachea Driven by
Constant Air Flow R. Ogrosky,
R. Camassa, M. Jenkinson, J. Olander,
S. Tikare
QY. Instability: Interfacial and
Thin Film VI
Room: Regency E
Chair: M. Sellier, U. of Canterbury
14:34
QW.09 A Study of Surface-Pressure QW.10 An Assessment of Oil Film
Estimation from Multiline Molecular
Interferometry to Measure Skin Friction
Tagging Velocimetry Data A. Naguib, P. Monkewitz, A. Segalini, J. Rüedi
M. Koochesfahani
QX.07 Energy extraction from flexible QX.08 On the flow around a hydrofoil QX.09 The Effect of Convex Sleeve
slender bodies K. Singh, S. Michelin, close to a permeable wall M. Nigam on Cavitation Inception in the Rotary
E. de Langre
Valve of the Power Steering System
G. Kim, S. Park, M. Cho, J. Yoo
14:21
QW.08 Motion-cancelled PSP
system for obtaining global unsteady
fields of a moving object K. Miyamoto,
T. Miyazaki, H. Sakaue
QX. Industrial Applications II
Room: Regency D
Chair: J. Tessendorf, Rhythm and
Hues Studios
14:08
QW.07 Response time
characterization of fast responding
pressure-sensitive paint T. Ozaki,
H. Ishikawa, H. Sakaue
QW. Experimental
Techniques III
Room: Regency C
Chair: S. Chhabra, Heat Transfer
Research Inc.
Session
15:00
Mini Break, 15:00–15:05
15:18
15:31
15:44
RG.01 Steady solutions for plumes in RG.02 3D Vortices in Protoplanetary RG.03 Stratified Flows with Vertical
non-uniform stratifications N. Kaye,
Disks S. Kamal, J. Barranco,
Layering of Density: Theoretical and
Experimental Study of the Time
M. Scase
P. Marcus
Evolution of Flow Configurations and
their Stability M. Moore, R. Camassa,
D. Hendel, R. McLaughlin,
M. Newman, K. Yu
RH.01 Hots spots in fingering of
exothermic autocatalytic chemical
fronts T. Gérard, P. Grosfils, A. De Wit,
T. Tóth, D. Horváth, A. Tóth
RJ.01 Detection and estimation of
RJ.02 Linear proportional-integral
the instantaneous flow topology on an control of turbulent channel flow for
airfoil using proper orthogonal
drag reduction E. Kim, H. choi
decomposition J. Seidel, C. Fagley,
T. McLaughlin
RK.01 Vesicle Electrohydrodynamics RK.02 The dynamics of a lipid
J. Schwalbe, P. Vlahovska, M. Miksis vesicle in shear flow H. Zhao,
E. Shaqfeh
RL.01 Blending CFD simulations
with clinical measurements V. Rayz,
G. Acevedo-Bolton, L. Boussel,
D. Saloner
RH. Convection and
Buoyancy Driven Flows VI
Room: 103C
Chair: S. Madruga, Universidad
Politecnica de Madrid
RJ. Flow Control VII
Room: 201A
Chair: H. Johari, California State U. ,
Northridge
RK. Biofluids: Cellular IV
Room: 201B
Chair: Y. Chen, Academia Sinica
RL. Biofluids: Physiological
Cerebral
Room: 202A
Chair: A. Marsden, U. of California,
San Diego
RL.02 Cerebral aneurysms: relations
between geometry, hemodynamics and
aneurysm location in the cerebral
vasculature T. Passerini, A. Veneziani,
L. Sangalli, P. Secchi, S. Vantini
RH.02 Hydrodynamic Instabilities of
Acid-Base Reaction Fronts: Active
Role of a Color Indicator L. Riolfo,
C. Almarcha, P. Trevelyan, C. El Hasi,
A. Zalts, A. D’Onofrio, A. De Wit
101
RL.03 A Mathematical Model of
Intracranial Saccular Aneurysms:
Evidence of Hemodynamic Instability
M. Calvisi, S. Davis, M. Miksis
RK.03 Dynamics of a compound
vesicle: analytical modeling Y. Young,
S. Veerapaneni, J. Blawzdziewicz,
P. Vlahovska
RJ.03 Adaptive Observation with
Vehicle Dynamics D. Zhang,
T. Bewley
RH.03 Numerical study of
thermo-solutal convection induced by
evaporation B. Trouette, E. Chénier,
C. Dang Vu Delcarte, F. Doumenc,
B. Guerrier
RL.04 Volumetric Velocity
Measurements of Pulsating Flow
through a Model Aneurysm D. Troolin,
D. Amatya, E. Longmire
RK.04 Dynamics of a compound
vesicle: numerical simulations
S. Veerapaneni, Y. Young,
P. Vlahovska, J. Blawzdziewicz
RJ.04 Experimental study on a
three-dimensional riblet with particle
image velocimetry H. Miki,
K. Iwamoto, A. Murata
RH.04 Inclusion of buoyancy effects
in the evaporating liquid film evolution
equation A. Narendranath, J. Kimball,
J. Hermanson, R. Kolkka, J. Allen
RG.04 The Collapse of an
Axisymmetric Mixed Patch and Internal
Wave Generation in Uniformly Stratified
Fluid A. Holdsworth, B. Sutherland
RF.04 WITHDRAWN .
RG. Stratified Flows II
Room: 103B
Chair: S. Llewellyn Smith, U. of
California, San Diego
RF.03 Motion of Non-Newtonian
liquid plugs in channels
P. Zamankhan, B. Helenbrook,
S. Takayama, J. Grotberg
RF.01 Transient swelling behavior
and drug delivery from a dissolving film
deploying anti-HIV microbicide
S. Tasoglu, D. Katz, A. Szeri
RF. Non-Newtonian Flows III
Room: 103A
Chair: A. Ardekani, U. of Notre Dame
RF.02 Coating flow of an anti-HIV
microbicide gel: boundary dilution and
yield stress A. Szeri, S. Tasoglu,
S. Park, D. Katz
RD.03 LES study of aero-optical
RD.04 Application of Immersed
distortions over a cylindrical turret with Boundary Method to DNS of Stratified
passive flow control K. Wang,
Flows N. Rapaka, S. Sarkar
M. Wang
RD.01 Simulations of the wake of an RD.02 Turbulent Flow Past
accelerating body M. de Stadler,
Projectiles: A Computational
Investigation I. Mehmedagic,
S. Sarkar
D. Carlucci, L. Buckley, P. Carlucci,
S. Thangam
RD. Turbulence Simulations
VII
Room: 102B
Chair: J. M. McDonough, U. of
Kentucky
RB.04 Maximum Drag Reduction
Asymptote in Turbulent Channel Flow
of Polymer Solutions C. Li,
R. Sureshkumar, B. Khomami
RA.04 Recent Analytical and
Numerical Results for The
Navier-Stokes-Voigt Model and
Related Models A. Larios, E. Titi,
M. Petersen, B. Wingate
RC.03 Surface Effects on Nanoscale RC.04 High Knudsen Number Fluid
Gas Flows A. Beskok, M. Barisik
Flow at Near-Standard Temperature
and Pressure Conditions using
Precision Nanochannels S. Datta,
A. Conlisk, W. Fissell, S. Roy,
J. Majestrelli
RB.02 Turbulence computations on a RB.03 Behavior of Heavy Particles in
Turbulent Channel Flow J. Lee, C. Lee
40963 periodic domain: passive
scalars at high Schmidt number and
Lagrangian statistics conditioned on
local flow structure P. Yeung,
D. Donzis, K. Sreenivasan, B. Sawford,
S. Pope
RA.02 Tomographic Particle-Image RA.03 Forced Turbulence, Multiscale
Velocimetry To Investigate Dissipation Dynamics, and Variational Principles
Elements L. Schaefer, U. Dierksheide, H. Catrakis
W. Schroeder
RC. Rarefied Gases and
RC.01 Measures of Thermal
RC.02 Plane Poiseuille Flow of a
Direct Simulation Monte Carlo Transpiration Flow M. Rojas, I. Graur, Rarefied Gas in the Presence of a
P. Perrier
Strong Gravitation T. Doi
Room: 102A
Chair: M. Gallis, Sandia National
Laboratories
RB.01 Geometric nature of particle
trajectory in isotropic turbulence
Y. Park, Y. Choi, C. Lee
RB. Turbulence
Simulations VI
Room: 101B
Chair: S. Radhakrishnan, Jet
Propusion Laboratory
15:05
RA.01 Effect of scalar-field boundary
conditions on the Markovian properties
of passive scalar increments
J. Lepore, L. Mydlarski
Session
RA. Turbulence Theory III
Room: 101A
Chair: C. H. Gibson, U. of California,
San Diego
Tuesday Afternoon, 23 November 2010
15:57
16:10
RD.06 Generalized Velocity
Boundary Conditions for Kleiser and
Schumann’s Influence-Matrix Method
X. Liu
RC.06 Numerical Analysis on Energy
Accommodation Process of Gas
Molecules on Carbon Nanotube Film
J. Kawasaki, I. Kinefuchi, S. Takagi,
Y. Matsumoto
RB.06 Statistics of polymer
extensions in turbulent channel flow
F. Bagheri, D. Mitra, P. Perlekar,
L. Brandt
RJ.06 Game-theoretic Kalman Filter
C. Colburn, T. Bewley
RG.06 Stability of a pancake vortex
in a stratified fluid M. Negretti,
P. Billant
RL.05 Validation of Blood Flow
Simulations in Intracranial Aneurysms
Y. Yu, T. Anor, H. Baek, M. Jayaraman,
J. Madsen, G. Karniadakis
RL.06 Control volume based
hydrocephalus research; analysis of
human data B. Cohen, T. Wei,
A. Voorhees, J. Madsen, T. Anor
RK.05 Lattice-Boltzmann simulation RK.06 Reynolds number effects on
of a confined tank-treading vesicle
the behavior of lipid vesicles D. Salac,
M. Miksis
under shear B. Kaoui, J. Harting,
C. Misbah
RJ.05 Real-time turbulent plume
estimation with mobile sensors
T. Bewley, C. Colburn, D. Zhang,
J. Cessna, N. Morozovsky,
A. Cavender, C. Schmidt-Wetekam
RH.05 Hydrothermal waves in
evaporating annular pools and sessile
drops using DNS P. Saenz, P. Valluri,
G. Karapetsas, K. Sefiane, O. Matar
RG.05 Joint downscale fluxes of
energy and potential enstrophy in
rotating stratified Boussinesq flows
S. Kurien, H. Aluie
RF.05 Non-Newtonian Fluids
RF.06 Flow of wormlike micelles in
Spreading with Surface Tension Effect: confined geometry N. Louvet,
3D Numerical Analysis Using FEM and C. Masselon, A. Colin
Experimental Study B. Hu, S. Kieweg
RD.05 Direct Numerical Simulation
of a Film Cooling Configuration with a
Micro-ramp Vortex Generator
A. Shinn, S. Vanka
RC.05 Energy accommodation of
gas molecules with free-standing
vertically aligned single-walled carbon
nanotube arrays I. Kinefuchi, K. Ryu,
K. Ishikawa, J. Shiomi, S. Takagi,
S. Maruyama, Y. Matsumoto
RB.05 Normal stress difference and
drag reduction mechanism in
Johnson-Segalman viscoelastic
turbulence K. Horiuti, K. Matsumoto
RA.05 Is drift-wave turbulence
RA.06 Maximum Enstrophy Growth
intermittent from a Lagrangian point of in Burgers Equation D. Ayala,
view? K. Schneider, B. Kadoch,
B. Protas
W. Bos
RN.01 Resistive Force Theory for
Quasi-static Intruders S. Koehler
RQ.01 Bubble distributions and
dynamics in the far wake of a ship
D. Schwer, R. Dahlburg, J. Boris
RS.01 Rolling up with the flow to
reduce drag: A numerical and
experimental study inspired by leaves
L. Miller, C. Hamlet,
A. Santhanakrishnan
RT.01 Flexibility and Resonance in
Thrust Production of a Mechanical
Swimming Lamprey M. Leftwich,
A. Smits
RU.01 Size distribution of droplets
undergoing phase transition in
homogeneous isotropic turbulence
B. Deb, B. Geurts, H. Clercx,
A. Kuczaj, H. Kuerten
RV.01 A falling cloud of particles at
small but finite Reynolds number
F. Pignatel, M. Nicolas, E. Guazzelli
RW.01 Ultrasound Doppler
Velocimetry Measurements in
Turbulent Liquid Metal Channel Flow
M. Rivero, D. Jian, C. Karcher,
S. Cuevas
RX.01 Structures Formed by Front
Induced Phase-Separation E. Foard,
A. Wagner
RY.01 Buoyancy driven flows in
porous media: Effect of chemical
reactions and transverse velocities
S. Hejazi, J. Azaiez
RZ.01 On weakly nonlinear
RZ.02 Radiation and diffraction of
gravity-capillary solitary waves B. Kim surface waves by an oscillating water
column R. Godoy-Diana, P. Cobelli,
S. Rakoto-Andriantsilavo
RN. Granular Flows IV
Room: 202C
Chair: G. Voth, Wesleyan U.
RQ. Bubbles V
Room: 203B
Chair: J. Liang, U. of California, Los
Angeles
RS. Biofluids: General
Chair: D. Papavassiliou, U. of
Oklahoma
RT. Biolocomotion XIII:
Macro-Swimming III
Chair: J. Dabiri, California Institute of
Technology
RU. Particle Laden Flows III
Room: Regency A
Chair: E. Variano, U. of California,
Berkeley
RV. Suspensions III
Room: Regency B
Chair: M. Maxey, Brown U.
RW. Experimental
Techniques IV
Room: Regency C
Chair: B. Balakumar, Los Alamos
National Laboratory
RX. Material Processing
Flows
Room: Regency D
Chair: A. Povitsky, U. of Akron
RY. Instability: Interfacial and
Thin Film VII
Room: Regency E
Chair: M. Shearer, North Carolina
State U.
RZ. Waves III
Room: Regency F
Chair: A. Davis, U. of California, San
Diego
15:18
15:31
RN.03 Lift and drag forces in
washboard road N. Taberlet,
B. Percier, S. Manneville, J. McElwaine,
S. Morris
RM.03 Transition from Selective
Withdrawal to Light Layer Entrainment
in an Oil-Water System
J. Hartenberger, T. O’Hern, S. Webb,
D. James
15:44
RQ.04 Complex fluid pinch-off in
bubble rafts C. Kuo, S. Nery,
M. Arciniaga, M. Dennin
RN.04 Force generation during
rotational intrusion into granular media
C. Li, Y. Ding, P. Umbanhowar,
D. Goldman
RS.03 Shell selection of hermit crabs RS.04 Numerical simulation on the
is influenced by fluid drag B. Casillas, assimilation of substrate by
R. Ledesma, G. Alcaraz, R. Zenit
microorganisms in a turbulent flow
M. Linkes, P. Fede, J. Morchain,
P. Schmitz
RY.02 Mixed mode buoyancy-driven
instability in a Hele-Shaw cell
J. Carballido-Landeira, P. Trevelyan,
C. Almarcha, A. De Wit
RX.02 Exploration of novel
composite microstructured fibers from
capillary instability D. Deng, J. Nave,
X. Liang, S. Johnson, Y. Fink
RW.02 Evaluation of a Penning
Mixture for Use in Plasma Adaptive
Optics B. Neiswander, E. Matlis,
T. Corke
RV.02 Sedimentation and Effective
Temperature of Active Colloidal
Suspensions J. Palacci,
C. Cottin-Bizonne, C. Ybert, L. Bocquet
RW.05 Wind tunnel experiment on
investigating the times of ventilation in
case of pollutant dispersion in an urban
area K. Nakao, S. Kato, T. Takahashi
RV.05 The suspension balance
model revisited P. Nott, E. Guazzelli,
O. Pouliquen
RU.05 An experimental technique for
simultaneous measurement of fluid
flow and particle kinematics in
particle-laden flows A. Collignon,
E. Variano
RT.05 Hydroelastic Tuning in Fish
Swimming B. Connell
RY.05 Pattern transition from
fingering to fracturing in a reacting
Hele-Shaw flow T. Ujiie, Y. Nagatsu,
M. Ban, Y. Kato, Y. Tada
RZ.03 Initial development of a corner RZ.04 Wave Generation
RZ.05 Simulation of turbulence
wave P. Martinez-Legazpi,
Experiments Using a Cycloidal Turbine interacting with free surface and wave
J. Rodriguez-Rodriguez, J. Lasheras S. Siegel, T. McLaughlin
X. Guo, L. Shen
102
16:10
RQ.06 Role of up-down asymmetry
in the break-up of an underwater
bubble M. Rinebold, D. Herbst,
W. Zhang
RN.06 Relative acceleration based
constitutive model for dense granular
flows V. Vidyapati, S. Subramaniam
RM.06 Application of geometric
shock dynamics to a circular hydraulic
jump A. Kasimov, R. Rosales, J. Bush
RZ.06 Lattice Boltzmann Simulations
for Wave Propagation X. Shi, Y. Qian
RY.06 Phase-field modeling of
viscous fingering in a Hele-Shaw cell
L. Cueto-Felgueroso, R. Juanes
RX.06 Numerical Analysis on Oil
Leakage of Fluid Dynamic Bearing for
External Impact Test S. Baek, S. Song
RW.06 Assessment of image
correlation methods for the estimation
of volume flow rates of subsea oil-gas
plumes C. Willert, S. Wereley
RV.06 Coupling Between
Translational and Orientational
Ordering in Fiber Suspensions
A. Franceschini, E. Filippidi,
E. Guazzelli, D. Pine
RU.06 Finite-size particles in
turbulence: effect of particle shape and
rotational dynamics G. Bellani,
E. Variano
RT.06 Recent Observations on
Shortfin Mako Scale Flexibility as a
Mechanism for Separation Control
A. Lang, P. Motta, M. Habegger,
E. Jones, R. Hueter
RS.05 Power generation by
RS.06 Simulations of Odorant
flagella-propelled Serratia Marcescens Transport in the Canine Nose during
T. Tran, M. Kim, D. Byun
Physiologically-Realistic Sniffing
M. Lawson, E. Paterson, G. Settles
RQ.05 Pinch-off of axisymmetric
squashed underwater bubbles
D. Herbst, W. Zhang
RN.05 Wedge model of force and
flow oscillations in plowed granular
media P. Umbanhowar, N. Gravish,
D. Goldman
RX.04 Simulating the melt blowing of RX.05 Zero leakage sealings
viscoelastic materials C. Zhou, D. Tan, B. Kotesovec, H. Steinrück
S. Kumar, C. Macosko, F. Bates
RW.04 Quantification of the Transient
Behavior of Wind-driven Water
Droplets and Rivulet Flows on a
Substrate B. Wang, S. Zhang, H. Hu
RV.04 Fluid Mechanics of Cellulose
Fiber Suspensions Using MRI
R. Powell, D. Lavenson, E. Tozzi,
M. McCarthy
RU.04 Gas and particulate phase
velocity measurements of a high-speed
gas jet into a two-dimensional bubbling
fluidized bed A. Mychkovsky,
S. Ceccio
RY.03 Capillary instability driven by a RY.04 Inertial effects on viscous
permeability gradient T. Al-Housseiny, fingering in the complex plane A. He,
J. Hernandez, J. Aristoff, S. Protiere,
A. Belmonte
H. Stone
RX.03 A Multi-Scale Computer
Model for Simulating Polymeric
Foaming Processes Q. Yuan,
A. Shafi, A. Khopkar
RW.03 High-precision image-based
tracking of a rigid body moving within a
fluid S. Laurence, J. Martinez
Schramm
RV.03 Probing particle transport in
closed-streamline flows with
microfluidic devices S. Shojaei-Zadeh,
J. Morris
RU.02 Multiple Particle Interaction at RU.03 Possibility of perfect fluid flow
Intermediate Reynolds Numbers A. El from granular jet impact J. Ellowitz,
Yacoubi, S. Xu, Z. Wang
N. Guttenberg, H. Turlier, W. Zhang,
S. Nagel
15:57
RM.04 The effect of spreading on
RM.05 Drop orbiting in a circular
vertically directed jet impinging a sharp hydraulic jump L. Lebon, A. Fruleux,
density interface A. Beaune,
C. Savaro, C. Pirat, L. Limat
P. Friedman
RT.02 How does muscle forcing lead RT.03 Stability of Passive
RT.04 A self-excited flapper from
to translational motion in undulatory
Locomotion in a Perfect Fluid F. Jing, fluid-structure interaction O. Curet,
swimming? A. Bhalla, N. Patankar
E. Kanso
K. Breuer
RS.02 Flow characterization in
vegetated marsh environments
J. Morgan, A. Cotel, P. Webb
RQ.02 Deformation-induced lateral RQ.03 Saddle-point dynamics in
migration of a bubble slowly rising near bubble break-up L. Lai, W. Zhang
a vertical plane wall K. Sugiyama,
F. Takemura
RN.02 Drag induced lift in granular
media Y. Ding, N. Gravish,
D. Goldman
RM.02 Formation of dynamic
coherent structures by an ensemble of
rigid particles D. Melnikov, D. Pushkin,
V. Shevtsova
15:05
RM.01 Transition between a film
flowing down a slope and a liquid sheet
floating on a denser fluid: where is the
grounding line? L. Limat, Y. Atas,
O. Devauchelle, J. Moukhtar,
M. Receveur
Session
RM. Free Surface Flows:
Interfacial Phenomena
Room: 202B
Chair: R. Krechetnikov, U. of California,
Santa Barbara
RF.07 Modeling of irreversible
flow-induced gelation in wormlike
micellar solutions N. Dubash,
J. Cardiel, P. Cheung, A. Shen
RG.07 Vortex dynamics in a wave
field G. Perret, A. Poupardin,
J. Brossard
RF. Non-Newtonian Flows III
Room: 103A
Chair: A. Ardekani, U. of Notre Dame
RG. Stratified Flows II
Room: 103B
Chair: S. Llewellyn Smith, U. of
California, San Diego
RK.07 Gravity Induced
Sedimentation of Giant Lipid Vesicles
A. Gonzalez-Mancera, I. Rey Suarez,
C. Leidy
RL.07 Effect of Parent Artery
Geometry on Flow Through Cerebral
Aneurysm M. Nowak, H. Higuchi,
T. Nakayama, M. Ohta
RK. Biofluids: Cellular IV
Room: 201B
Chair: Y. Chen, Academia Sinica
RL. Biofluids: Physiological
Cerebral
Room: 202A
Chair: A. Marsden, U. of California,
San Diego
RJ. Flow Control VII
Room: 201A
Chair: H. Johari, California State U. ,
Northridge
RH. Convection and
Buoyancy Driven Flows VI
Room: 103C
Chair: S. Madruga, Universidad
Politecnica de Madrid
RD.07 Microscopic analysis and
simulation of check-mark stain on the
galvanized steel strip H. So, H. Yoon,
M. Chung
RD. Turbulence Simulations
VII
Room: 102B
Chair: J. M. McDonough, U. of
Kentucky
RC. Rarefied Gases and
RC.07 Nonlinear and coupling
Direct Simulation Monte Carlo effects on the gaseous Knudsen layer
near the solid surface R. Myong
Room: 102A
Chair: M. Gallis, Sandia National
Laboratories
RK.08 The effect of the electrical
double layer on the membrane
charging process M. Yu, H. Lin
RG.08 Numerical simulation of flow
around a sphere moving through a
stratified fluid T. Orr, J. Domaradzki,
G. Constantinescu
RF.08 Switching and defect
dynamics in liquid crystal devices
A. Tiribocchi, G. Gonnella,
D. Marenduzzo, E. Orlandini
RC.08 The reality of diffuse volume
transport H. Brenner
RB.07 Effect of inter-particle collision RB.08 Direct numerical simulation of
in particle-laden homogeneous
strained turbulence and particles within
isotropic turbulence O. Kwon, C. Lee C. Lee, P. Perlekar, F. Toschi,
A. Gylfason
16:36
RB. Turbulence
Simulations VI
Room: 101B
Chair: S. Radhakrishnan, Jet
Propusion Laboratory
16:23
RA.07 Turbulence in more than two
and less than three dimensions
A. Celani, D. Vincenzi, S. Musacchio
RA. Turbulence Theory III
Room: 101A
Chair: C. H. Gibson, U. of California,
San Diego
Session
103
16:23
RQ.07 Bubble formation in planar
co-flowing air-water sheets
C. Gutiérrez-Montes,
R. Bolaños-Jiménez,
E. Sanmiguel-Rojas,
C. MartÍnez-Bazán, A. Sevilla
RQ. Bubbles V
Room: 203B
Chair: J. Liang, U. of California, Los
Angeles
RU.07 Coffee ring deposition in
bands S. Mandre, N. Wu,
J. Aizenberg, L. Mahadevan
RU. Particle Laden Flows III
Room: Regency A
Chair: E. Variano, U. of California,
Berkeley
16:36
RW.07 A Novel 3 Dimension 3
Component Micro-PIV System
C. Snoeyink, S. Wereley
RX.07 Thermo-Rheometric Studies RX.08 3D Numerical Simulations of
of New Class Ionic Liquid Lubricants
Vacuum Arc Remelting (VAR)
S. Bakhtiyarov, K. Street, D. Scheiman, Processes O. Sahni, R. Moser
A. Van Dyke
RY.07 Unstable miscible
displacements in Hele-Shaw cells:
Three-dimensional Navier-Stokes
simulations R. Oliveira, E. Meiburg
RZ.07 Gravity currents in two-layer
stratified media A. Tan, M. Flynn
RX. Material Processing
Flows
Room: Regency D
Chair: A. Povitsky, U. of Akron
RY. Instability: Interfacial and
Thin Film VII
Room: Regency E
Chair: M. Shearer, North Carolina
State U.
RZ. Waves III
Room: Regency F
Chair: A. Davis, U. of California, San
Diego
RT.08 Examination of Scuba Fin
Designs Using Simultaneous Force
and DPIV Measurements
L. Halvorson, E. Sherman, C. Leong,
T. Wei
RM.08 Effective Free Surfaces
R. Yapalparvi, B. Protas
RW. Experimental
Techniques IV
Room: Regency C
Chair: B. Balakumar, Los Alamos
National Laboratory
RV. Suspensions III
Room: Regency B
Chair: M. Maxey, Brown U.
RT.07 Learning from jellyfish: Fluid
transport in muscular pumps at
intermediate Reynolds numbers
J. Nawroth, J. Dabiri
RT. Biolocomotion XIII:
Macro-Swimming III
Chair: J. Dabiri, California Institute of
Technology
RS. Biofluids: General
Chair: D. Papavassiliou, U. of
Oklahoma
RN.07 Time-Dependent Continuum
and Molecular Dynamics Simulations
of Density Inversion in Shaken
Granular Layers J. Bougie, V. Policht,
J. Kreft Pearce
RN. Granular Flows IV
Room: 202C
Chair: G. Voth, Wesleyan U.
RM. Free Surface Flows:
RM.07 Experimental results on
Interfacial Phenomena
evaporation waves J. Grana Otero,
I. Parra Fabian
Room: 202B
Chair: R. Krechetnikov, U. of California,
Santa Barbara
Session
104
Index of Authors
A
Abarzhi, Snezhana I. – LA.1
Abba, Antonella – QD.6
Abdel Kader, Hossam – ME.4
Abdilghanie, Ammar – AG.1, AG.2
Abdou, Mohamed – MY.10
Abe, Hiroyuki – HF.7
Abe, Satoshi – QA.9
Abedi, Jalal – AF.3
Abiola-Ogedengbe, Ayo – ME.9
Abkarian, Manouk – LK.4, LW.9
Aboelkaasem, Yasser – ET.10
Abou El-Azm Aly, Ahmed – ME.4
Aboulhasanzadeh, Bahman – CU.10
Abraham, Theodore – QL.4
Abudu, Alimu – LF.10
Acevedo-Bolton, Gabriel – RL.1
Achard, Jean-Luc – HM.9
Adamovich, Igor – QJ.2
Adams, Mark – MY.2
Adams, Matthew – EZ.6
Adams, Nikolaus – CU.9
Adda-Bedia, Mokhtar – GW.1
Adhikari, Deepak – GS.1
Adrian, Ronald – ED.6
Afkhami, Shahriar – GL.7, LR.6
Afroz, Farhana – GF.6, GF.8
Afzal, Bushra – AN.6
Afzal, Noor – MA.1
Agarwal, H. – MQ.9
Agbaglah, Gilles – QM.1
Agbangla, Constant – QV.3
Agostini, Lionel – HX.5
Agrawal, Ajay – HC.5
Agrawal, N. – MK.8
Aguilar, Cesar – MR.7
Ahadi, Golnaz – GQ.8
Ahlers, Guenter – CH.9, GH.3
Ahmadi, Goodarz – GV.10
Ahmadlouydarab, Majid – EU.10
Ahmed, Madiha – LH.1
Ahn, Hyung Taek – QD.7
Ahn, Sungsook – GL.5
Ahuja, Sunil – AJ.6
Aider, Jean-Luc – CB.1, HF.1, HF.2
Aidun, Cyrus – EF.8, LK.7, MV.2, QL.8, QV.9
Aikawa, Akihisa – QW.5
Ait Abderrahmane, Hamid – AX.8, AX.10,
CZ.1, HT.9
Ait Chaalal, Farid – AA.3
Aizenberg, Joanna – RU.7
Ajaev, Vladimir – CM.9, GU.5, GY.8
Akan, Cigdem – AA.1
Akaydin, Dogus – HN.5
Akbari, Amin – QA.2
Akhatov, Iskander – LS.7
Akhavan, Rayhaneh – HA.2, HA.5, QA.1
Akhtar, Shermin – CY.8
Akkaya, Oyku M. – QF.10
Aksay, Ilhan A. – AM.1
Akula, Bhanesh – CW.2
Akylas, Triantaphyllos – AZ.6
Al-Housseiny, Talal – RY.3
Al-Mohssen, Husain – QC.2
Alam, Meheboob – EE.6, L1.17
Alarcon, Ramiro – AX.4
Alawadhi, Esam – HN.9
Alben, Silas – GT.1
Alcaraz, Guillermina – RS.3
Alder, B.J. – GD.1
Alexeev, Alexander – AV.8, EM.2, EY.8, GP.5,
GT.6, HP.6, MM.10
Alfredsson, P. Henrik – MA.6
Aliseda, Alberto – HL.4, HL.5, HS.8, MG.8,
MG.10, MX.8, QX.5
Alizadeh Pahlavan, Amir – QS.4
Allen, J.S. – EY.4, HU.5, RH.4
Allen, James – LT.3
Allen, John – MJ.7
Allison, Kali – GW.5
Almalkie, Saba – HA.8
Almarcha, C. – CF.4, HV.10, LZ.10, RH.2, RY.2
Aluie, Hussein – GA.9, RG.5
Aluru, Narayana – EP.5, HP.3, L1.39
Alvarado, Travis – LV.10
Alvarado, Vladimir – AR.2, GS.9
Alvarez, Nicolas – GR.3, HW.3
Amaral, Brian – HB.6
Amatya, Devesh – RL.4
Amberg, Gustav – CU.1, LS.8, MV.2
Ameel, Tim – MB.6
Amili, Omid – EB.10
Amin, Abolfazl – CM.6
Amini, Hamed – HM.8, HM.9, MP.8
Amiroudine, Sakir – LZ.9
Amitay, Michael – CJ.7, GJ.1, GJ.3, GJ.6,
HJ.3, HJ.6
An, Nam Hyun – CJ.8
Andersen, Anders – CN.9, GN.3
Andersen, Mathias – AM.9, AP.7, AP.8
Anderson, Anthony – HH.5
Anderson, Brian W. – AC.1
Anderson, Daniel – AL.8
Anderson, Mark – QC.9
Anderson, Michael – EW.8, EW.9, LZ.8
Anderson, Patric – HM.4
Anderson, Patrick – AU.9, LF.9, LM.5, QF.7
Anderson, William – GG.2
Anderson-Frey, Alexendra – EH.8
Andreopoulos, Yiannis – HN.5, QE.5
Andreotti, Bruno – EP.6
Andreou, Chrysafis – L1.34, LP.1, LP.10
Andrews, Malcolm – CW.2, CW.8, CW.9
Anguiano, Gerardo – CH.8
Anna, Shelley – GR.3, HW.3
Anoop, Kanjirakat – CP.9
Anor, Tomer – RL.5, RL.6
Ansong, Joseph – EH.8
Antal, Steven – AU.4
Antipov, Yuri – LJ.7
Antkowiak, Arnaud – HQ.7, HR.1, HW.1
Aoki, Akihito – L1.44, MX.10
Appathurai, Santosh – GS.7, GS.8, HS.5
Apte, Sourabh – CJ.6, EF.6
Arakeri, Jaywant – GH.1, GT.8, LH.7
Aranha, J.A.P. – HZ.6, L1.28
Araya, Guillermo – AB.8, GB.2, HF.6, QC.8
Arbos, Sara – CX.2
Arciniaga, Mike – RQ.4
Ardekani, Arezoo – MQ.1
Aref, Hassan – GN.1, GN.8, LF.1
Aria, Adrianus – ES.1
Arienti, Marco – EU.2, EU.5, QM.9
Arif, Shehla – QQ.1
Aristoff, Jeffrey – AK.3, CX.8, LW.8, LW.9, RY.3
Arjunon, Sivakkumar – ML.5
Arndt, Roger – CJ.10, CX.10, HB.10
Arobone, Eric – EG.10
Arratia, Cristobal – LH.2
Arratia, Paulo – CT.4, HU.8, MQ.3, QF.6
Artana, Guillermo – HF.2
Asay-Davis, Xylar – CV.9
Ascanio, Gabriel – HU.9
Ashok, Anand – QW.1
Aslam, Tariq – MU.4
Aspden, Andy – HH.10
Atas, Yasar – RM.1
Atkinson, Callum – CB.7, EB.9, QB.4, QB.5
Atluri, Satya – CH.8
Attili, Antonio – AA.4
Attinger, Daniel – HP.1
Atzberger, Paul – LL.1
Aubert, Oriane – LH.10
Aubry, Nadine – CR.9, MP.3, QP.7
Audoly, Basile – HR.1
Aurnou, Jon – EH.7
Aurnou, Jonathan – LH.6
Aussillous, Pascale – GK.2
Autrusson, Nicolas – LY.4
Avellan, Francois – HN.4
105
Avila, Kerstin – GZ.1
Avila, Marc – GZ.2, HJ.4
Avila, Ruben – CH.8, GH.10
Avron, Joseph E. – QK.8
Axerio-Cilies, John – CC.7
Axiak, Michael – MW.7
Ayala, Diego – RA.6
Aydin, Tayfun – HE.8, LN.4
Ayyaswamy, P.S. – MK.4
Azaiez, J. – RY.1
B
Babinsky, Holger – LT.1
Bacchin, Patrice – QV.3
Backhaus, Scott – AF.8
Bade, Kyle – QJ.6
Baek, Hyoungsu – RL.5
Baek, Sunghoon – RX.6
Baer, Melvin – GU.2
Baerenzung, J. – EE.8, MD.7
Bagchi, Prosenjit – MK.1
Baghaei Lakeh, Reza – L1.26
Bagheri, F. – RB.6
Bagheri, Shervin – AJ.8, GE.1
Bai, Kunlun – HF.9
Baier, Tobias – CM.5, CM.7, GM.8
Bailey, S.C.C.C. – AC.8
Bailey, Sean – EC.6, LB.10, MA.2
Bailly, C. – LE.5
Bailon-Cuba, Jorge – AH.7
Baker, Alex – AK.2
Baker, John – CN.10
Bakhtiyarov, Sayavur – RX.7
Bakosi, J. – AA.5, AW.3
Balachandar, Ramaswami – ME.8
Balachandar, S. – EV.7, EV.8, MH.3, MV.7
Balakumar, B.J. – AX.4, CW.1, EW.3, EW.10,
LT.3
Balaras, E. – CD.2, LT.7, LX.4, QW.2
Balasubramanian, Sridhar – CW.1, EW.3,
EW.10
Balazs, Anna C. – HP.6
Balci, Nusret – QF.2
Bale, Rahul – MT.5
Balmforth, Neil – CL.8
Baltussen, Michiel – HM.4
Baltzer, Jon – ED.6
Bamberger, Marc – LE.3
Bamieh, Bassam – QB.10
Ban, Mitsumasa – RY.5
Banco, Gino – CL.9
Bandi, Mahesh – AF.2, AV.3
Bandyopadhyay, Promode R. – EQ.10
Bane, Sally – LU.2
Banerjee, Arindam – CW.5, CW.10, EL.5, QX.1
Bangerth, Wolfgang – CF.9
Baraldi, Alberto – CU.6
Barannyk, Lyudmyla – AY.9
Barash, Lev – CS.1
Baratlis, N. – QW.2
Barbaro, Alethea – AN.5
Barbeiro, Iago C. – HZ.6, L1.28
Barber, Jacqueline – QQ.7
Barisik, Murat – RC.3
Barkley, Dwight – HZ.2
Barmi, Meysam – LP.1
Baroud, Charles – EQ.2, GM.2, GP.10
Barranco, Joseph – CV.9, RG.2
Barros, J.M. – LC.1
Barrow, Alistair – CE.7
Barry, M. – MQ.9, QS.5
Barteau, Katherine P. – GK.8
Bartello, Peter – AA.3
Bartolo, Denis – EQ.4, GM.4, LM.3, MM.8
Basara, Branislav – CC.5
Basaran, Osman – AR.3, AR.10, GR.4, GS.7,
GS.8, HS.5
Baschek, Burkard – GQ.10
Basu, Saikat – GN.3
Basu, Saptarshi – MJ.8
Bates, Frank S. – RX.4
Bateson, Colin – MG.8
Battaglia, Francine – EU.1
Baty, Roy – GX.10
Bau, Haim – CT.6, GP.1, LP.3, MY.9
Baudoin, Michael – MJ.2
Bauer, Frederic – LU.6
Bayandor, Javid – HD.6
Bazant, Martin – MM.1
Bazilevs, Yuri – QL.3
Beach, Kirk – HL.5
Beacham, David – CY.6
Beal, David – CJ.7
Beale, Kristy L.C. – CK.4
Beale, Paul – QE.4
Bearon, Rachel – QS.9
Beaune, Allen – RM.4
Beekman, Izaak – ED.8, MC.6
Bees, Martin – QS.9
Begley, Matthew – LP.6
Behringer, Robert – L1.19, L1.43, QN.1
Belden, Jesse – LP.7, MW.7, QM.6
Bell, John – HH.10
Bellani, Gabriele – LS.8, RU.6
Belmonte, A. – HQ.5, RY.4
Belohlavek, Marek – HT.8
Belson, Brandt – QJ.8
Beltran, Alberto – MN.10
Belu, Radian – CX.7, GG.8
Ben-Dov, Guy – AJ.1
Benard, Pierre – QU.6
Beninati, Maria-Laura – EN.3
Bennani, Nora – MM.6
Benson, Michael – CA.8
Benusiglio, Adrien – CK.2
Benzi, Roberto – GA.10, QF.5
Berajeklian, Arpi – CA.3
Beratlis, Nikolaos – LX.4
Berchielli, Al – HS.8
Beresh, Steven – GU.2, LB.7
Berg, Howard – AQ.1
Berg, Steffen – AP.5, CF.1
Bergemann, K. – CH.7
Bergeon, Alain – CH.1
Berger, Zachary – HJ.1, HJ.2
Bergin, Mike – GW.8
Bergman, Micah – ER.10, GS.4
Bergmann, Michel – MT.6
Bergou, Attila – ET.1, GT.3
Bergougnoux, Laurence – QV.1
Bergstrom, Donald – ED.4
Berman, Rotem S. – QK.8
Bermejo-Moreno, Ivan – EB.9, MC.3, QB.4,
QB.5
Bernardini, Matteo – HF.4, HF.5
Bernoff, Andrew – QP.2, QP.6
Berret, Jean-Francois – GM.5
Berteloot, Guillaume – CS.9, HQ.8
Berti, Stefano – EQ.1
Bertozzi, Andrea – AV.6, AV.7, DS.1
Bertsch, Rebecca – GA.7
Berut, Antoine – CA.7
Beskok, Ali – RC.3
Bestehorn, Michael – EY.2
Bewley, Thomas – AJ.3, RJ.3, RJ.5, RJ.6
Bezym’yana, Elina – MP.2
Bhaganagar, Kiran – GB.8, LG.4
Bhalla, Amneet – MT.5, RT.2
Bhat, G.S. – MG.6
Bhattacharya, Amitabh – HP.6
Bhole, Nikhil – ER.9
Biance, Anne-Laure – AP.6, HS.9, QQ.3
Bianco, Federico – GV.5
Biancofiore, Luca – HE.6
Bibette, Jerome – GS.2
Bieri, Joanna – QU.9
Biferale, Luca – EU.6
Biggi, Renaud – AW.1
Bigioni, Terry – CS.1
Bijeljic, B. – CF.6
Billant, Paul – CN.5, RG.6
Binninger, Bernd – EU.4
Bird, James – HQ.6
Biringen, Sedat – MD.8
Bisetti, F. – AA.4, LU.5, LU.10
Bishop, Allen – CA.2
Bishop, Kyle – LV.9
Black, James – ER.4
Blackburn, Hugh – EE.4, LZ.2
Blackmore, Adam – HE.8, LN.4
Blake, Matt – LB.3
Blanchette, Francois – QH.6
Blanquart, G. – AA.7, AA.8, AW.1, LU.10, MU.10
Blawzdziewicz, Jerzy – LF.5, RK.3, RK.4
Bliznyuk, Olesya – ES.3
Blotter, Jonathan – QX.10
Blount, Maurice – LY.3
Blum, Daniel – GA.2, HA.7, HA.9
Boatwright, Thomas – MK.6
Bocquet, Lyderic – AP.6, RV.2
Bodenschatz, Eberhard – CA.7, GA.2, HA.1
Bodiguel, Hugue – AF.4
Bodony, Daniel – EK.3, LJ.1, LJ.2, LJ.10, QR.1
Boeck, Thomas – HA.3, MY.4
Boegman, Leon – AA.2
Boettcher, Philipp – HV.7, MU.10
Boffetta, Guido – MM.9
Boghosian, Bruce – GN.10
Bogucki, Darek – EA.1
Bohl, Doug – EN.4, EN.6
Bohling, Lasse – CN.9
Bohorquez, Patricio – HE.5, MH.1
Bohr, Tomas – CL.3, MM.5
Bolanos-Jimenez, R. – RQ.7
Bolleddula, Daniel – HS.8
Bolotnov, Igor – AU.2, AU.4
Bolz, Steffen-Sebastian – LP.5
Bonazza, Riccardo – EW.5, QC.9
Bonifacio, Jeremy – GE.2
Bonometti, Thomas – MH.3
Booty, Michael – LR.3
Boratav, Olus – HY.8
Borazjani, Iman – HD.2, ML.1, QD.1
Borden, Zachary – LH.3
Bordoloi, Ankur – GS.1
Boree, J. – LJ.5
Boreyko, Jonathan – ES.6
Borggaard, Jeff – AJ.6
Boris, Jay – GL.3, RQ.1
Borissov, Anatoli – EZ.10
Borkin, Michelle – ML.6
Borole, Abhijeet – HP.5
Borrell, Guillem – EB.4
Borrero-Echeverry, Daniel – GZ.5
Bos, Wouter – HA.10, LA.5, RA.5
Bose, Sanjeeb – AC.4, LD.6, LD.7
Bostwick, Joshua – ER.7, MJ.4
Bothe, Dieter – HW.8, QM.5
Botto, Lorenzo – HW.2, HW.9
Bou Matar, Olivier – MJ.2
Bou-Zeid, Elie – QD.3
Bouchet, Gilles – HE.4
Bougie, Jon – L1.20, L1.21, RN.7
Boulanger, Nicolas – HG.10
Bounds, G.D. – HR.4
Bourgeois, N. – AC.7
Bourguet, Remi – HN.1
Bourguignon, Jean-Loup – EC.5
Bouricius, Jacob – AV.6
Bourouiba, Lydia – EL.9
Bourqui, Michel – AA.3
Boussel, Loic – RL.1
Bowles, Patrick – CJ.1, MX.2, MX.3
Bowman, Jason – EF.1
Boyer, Francois – MV.3
Boziuk, Thomas R. – QQ.6
Brady, John – CQ.8, QV.2, QV.5
Brady, Peter – LW.4
Braman, Kalen – MR.1
Brandt, Alan – AZ.7
Brandt, Laura – MH.6
Brandt, Luca – AE.2, AE.4, AJ.8, MQ.2, RB.6
Brandvik, Amy – GS.9
Branscomb, Jaclyn – MM.10
Brasseur, James – CE.10, CL.9, CL.10, EC.9,
EC.10
Braun, R.J. – AL.9
Brazel, Christopher – GL.6
Breda, Maria Cecilia – QT.9
Breidenthal, Robert – LV.10
Bremond, Nicolas – GS.2
Brenner, Howard – RC.8
Brenner, Michael – HW.10, LV.9, LY.10, MG.2
Brenowitz, Noah – CT.3
106
Bres, Guillaume – CJ.3, QR.2
Breuer, Kenneth – AK.10, GT.3, LB.2, LC.10,
RT.4
Brewer, William – GK.6
Bribesh, Fathi – GY.10
Bricteux, Laurent – AN.2
Brizzi, L. – LJ.5
Brossard, Jerome – RG.7
Brosse, Nicolas – HU.7
Broutman, Dave – AZ.8
Browand, Fred – HC.8, HC.9
Brown, Eric – GK.1
Brown, Frank – LL.2
Browning, N.D. – QV.6
Brucker, Kyle – AZ.8, CK.4, MH.6, MH.7
Brun, Christophe – HE.7
Brunet, Philippe – MJ.2
Brunton, Steven L. – EX.2
Brush, Lucien – GY.6
Brutin, David – CS.3, CS.5, GU.5, QQ.7
Bruus, Henrik – AM.9, AP.7, AP.8, CL.3, EM.1,
MM.5
Brzozowski, Daniel P. – CJ.4
Buchholz, James – EX.3, GD.7, LN.2, MT.7
Buchmann, Nicolas – EC.1
Buckley, Liam – RD.2
Bull, Joseph – EL.8, MS.10, QE.9
Bulusu, Kartik – HL.2, HL.8, QR.9
Burguete, Javier – EZ.9, MY.1
Burin, M.J. – EZ.1, L1.32, L1.33
Burini, Luca – AE.7, CY.2
Burke, John – GZ.4, GZ.8
Burns, Jane – ML.7
Burns, John – AJ.6
Burns, Peter – LG.6
Burns, Ross – QR.4
Burton, Gregory – AW.9
Burton, J. – GS.3, HQ.3, QM.8
Burton, Lisa – CQ.4
Burton, Thomas – HD.8
Bush, John – CL.4, EL.9, GT.2, HP.8, HQ.6,
HR.8, QM.7, RM.6
Buskey, Ed – MQ.7
Bussmann, Markus – CU.7
Butler, Colin – EH.9
Butler, Jason E. – MV.5
Button, Eleanor – MX.1
Buxton, Gavin – HP.6
Buxton, Oliver – LE.8
Byun, Doyoung – AR.5, AR.7, AR.8, AR.9,
HT.4, LT.4, QP.10, RS.5
C
Caballero-Robledo, Gabriel A. – GK.4
Cabello, Ares – GH.10
Cabot, William – CW.3, EW.2
Cademartiri, Ludovico – LV.9
Caggioni, Marco – GR.8
Caicedo, Carlos – GW.10
Cal, Raul Bayoan – AB.8, GG.9, MA.10, QB.6,
QB.8
Calantoni, Joseph – CV.7
Calkins, Michael – EH.7
Callegari, Gerardo – EF.5
Calvisi, Michael – RL.3
Camarena, Ernesto – AL.6
Camassa, Roberto – CZ.8, GC.4, GC.5, HC.1,
L1.2, LY.6, QY.7, RG.3
Cambier, Jean-Luc – MU.2
Cambonie, Tristan – CB.1
Campana, Diego – L1.24
Campo, Elizabeth – AL.6
Campo, Laura – HX.4
Candelier, Julien – HG.6
Cantat, Isabelle – QQ.2
Canter, Cameron – GP.6
Canton, Gador – HL.3
Cao, Dayong – QE.2
Capecelatro, Jesse – GV.6
Carati, Daniele – JS.1, LD.2
Carballido-Landeira, J. – RY.2
Cardesa-Duenas, Jose Ignacio – HF.8
Cardiel, Joshua – MM.3, RF.7
Cardillo, James – GB.2
Caretta, Lucas – QS.8
Carles, Pierre – HZ.9
Carlson, Andreas – LS.8
Carlson, Hal – EJ.6
Carlucci, Donald – RD.2
Carlucci, Pasquale – RD.2
Carriou, Antoine – QT.4
Carroll, Brian – EM.6, MP.9
Carroll, Phares – HR.3
Carter, Glenn – AG.9
Carton de Wiart, C. – LE.5
Carvalho, Marcio – AK.5, AK.6
Casillas, Barbara – RS.3
Cassart, Benjamin – LD.2
Castaneda, Jaime – GU.2
Castello, Brian – LJ.6
Castillo, Gustavo – HK.4
Castillo, L. – AB.8, GB.2, GB.3, HF.6, MA.4,
MB.9, QX.4
Castrejon Garcia, Rafael – L1.11
Castrejon Pita, Alfonso A. – HG.8
Castrejon-Pita, Jose Rafael – GR.2, L1.11
Caswell, Bruce – LK.1, LK.2, LK.5
Catrakis, Haris J. – RA.3
Caulfield, C.P. – AG.4, EE.1, LA.3, QG.9
Cavender, Andrew – RJ.5
Cebron, David – LH.8, LH.9, QH.8, QZ.6
Ceccio, Steven – HB.2, HQ.2, HU.1, LB.4, RU.4
Celani, Antonio – GV.1, RA.7
Cenedese, Claudia – EG.1
Cerda, Enrique – GW.1
Cerff, R.G. – QR.7
Cervoni, Miguel – HE.1
Cessna, Joseph – RJ.5
Cha, Jung – EN.7
Chabreyrie, Rodolphe – MP.3, QP.7
Chai, Wee Sern – EX.8
Chai, Xiaochuan – MC.5
Chakraborty, P. – MA.3, MA.5
Chakraborty, Symphony – GY.5
Chalons, Christophe – AU.10
Chambers, Frank – GV.2
Chamorro, Leonardo – CX.10, HB.10
Champagne, Nicolas – MM.8
Chandler, Gary – GE.4
Chandre, Cristel – MP.3
Chandurwala, Fahim – HS.6
Chang, Chien-Cheng – EX.10
Chang, Chun-Ti – MJ.4
Chang, David – QP.7
Chang, Emily – EN.7
Chang, Henry – EC.8
Chang, Natasha – HQ.2
Chang, Yu-Hung – HT.7
Chantrasmi, Tonkid – HX.4
Charru, Francois – LH.4
Chasteen, Stephanie – QE.4
Chatelain, P. – AN.2, AN.3, LE.5
Chau, Long – LG.4
Chaudhary, R. – MY.5
Chauhan, Anuj – EM.3
Chauhan, Kapil – LB.6
Chauvet, Fabien – HY.2
Chavez, Rafael – GH.9
Chavez Alarcon, Ramiro – LT.3
Cheang, U. Kei – HM.3
Chemama, Michael – LV.9
Chen, Chia-Ling – HZ.9
Chen, Ching-Yao – QY.1
Chen, Chuan-Hua – AR.1, ES.6
Chen, Haosheng – GR.9
Chen, Jackie – LU.1
Chen, Jim – MB.3
Chen, Jun – AB.6, HV.8, LA.6
Chen, Kevin – AJ.9, AJ.10
Chen, Shiyi – EV.10
Chen, Wayne – EJ.5
Chen, Weijia – MB.3
Chen, Weikang – L1.38
Chen, Xi – AK.8, EB.1
Chen, Xiao-Dong – QM.2
Chen, Yeng-Long – AV.2
Chen, Yi – GB.2
Chen, Zhen – AM.10
Cheng, Bo – AX.1, AX.2
Cheng, Ming – EN.2
Cheng, Seeyuan – LX.2
Cheng, Xiang – MV.4
Chengala, Anwar – CQ.10, QS.8
Chenier, Eric – RH.3
Chernyavsky, Boris – QU.6
Cheung, Lawrence – CY.1
Cheung, Perry – MM.3, RF.7
Chhabra, Arnav – CM.3, EF.1, HU.3
Chhasatia, Viral – CS.8, MS.7
Chhay, Marx – AD.10
Chialvo, Sebastian – QN.7
Chiam, Keng-Hwee – GP.2
Chiang, Eugene – CV.9
Chibbaro, Sergio – GV.5
Chien, Shu – QK.3
Chiffaudel, Arnaud – LA.9
Childress, Stephen – CQ.2
Ching, Emily S.C. – MF.2, QF.5
Ching, Hsueh – CW.4
Chini, Greg – AG.7, LG.9
Chiu, Bernard – HL.3
Cho, Hyoung J. – MS.4
Cho, Myung Hwan – CU.5, QX.9
Choi, Choon-Bum – GF.4
Choi, Haecheon – EJ.1, GF.5, HD.7, LD.7, RJ.2
Choi, Hyoung Gwon – CU.5
Choi, Jeongwhan – AZ.1
Choi, Jiwoong – EL.1
Choi, Kwing-So – CJ.8
Choi, Sang Hun – CU.5
Choi, Sangkyu – LU.5
Choi, Yeontaek – RB.1
Choi, Yong-Seok – GM.9
Choi, Young Joon – AU.9
Cholemari, Murali – GH.1
Chomaz, Jean-Marc – HE.9, HE.10, L1.23,
LH.1, LH.2
Chong, Kwitae – CQ.9
Choset, Howie – CQ.4
Choutapalli, Isaac – GX.6
Chow, Fotini – CD.2, GG.6
Chow, Kwok Wing – AM.3
Chow-Yee, Kliulai – HV.7
Chowdhury, Mijanur – L1.40
Chrispell, John – MF.8, QF.1
Christensen, K.T. – GB.4, GB.6, LC.1
Christov, Ivan C. – GK.9, QN.3
Chrust, Marcin – HE.4
Chtcheprov, Pavel – L1.2
Chu, Chin-Chou – EX.10
Chu, Vivien W.S. – QF.5
Chuang, Han-Sheng – CT.6, GP.1
Chueh, Chih-Che – CF.9
Chumakov, Sergei – EB.9, QB.4, QB.5
Chumakova, Lyubov – HG.3
Chun, Ho Hwan – CJ.8
Chun, Myung-Suk – AM.5
Chung, Daniel – GG.4, MD.6
Chung, Myung Kyoon – RD.7
Chung, Suk Ho – LU.5
Churchfield, Matthew – EC.9
Cipolla, Kimberly – HB.1, HB.6, MJ.9
Cisneros, Luis – CQ.7, QS.1
Clanet, Christophe – CK.2, ER.3, JT.1, LW.1
Claridge, Jonathan – GW.5
Clark, Thomas – LC.6
Class, Andreas G. – QA.10
Clausen, Jonathan – LK.7, QV.9
Cleckler, J. – MJ.6
Clemens, Noel – LV.4, QR.4
Clemm, Amanda – QP.2, QP.6
Clerc, Marcel G. – CZ.2
Clercx, Herman J.H. – CH.9, CH.10, HH.1,
MP.6, QZ.8, RU.1
Cliff, Eugene – AJ.6
Clifton, David – LN.7
Climent, Eric – QS.5, QV.3
Cobelli, Pablo – RZ.2
Cohen, Benjamin – RL.6
Cohen, Itai – ET.1, GR.8, MV.4
Cohn, Robert – GM.5
Coil, Millicent A. – MW.1
Colburn, Christopher – RJ.5, RJ.6
Cole, Lord – MU.1, MU.2
Colella, Phillip – MY.2
Coleman, Dustin – MX.2, MX.3
Colin, Annie – AF.4, MM.6, RF.6
Colinet, Pierre – AE.8, AK.9, CW.4, HY.1, HY.2,
LS.2, MS.9, QY.8, QY.9
Collet, Y. – AC.7
Collignon, Audric – RU.5
107
Collins, Lance – AA.6, CV.5, CV.6
Collins, William – MG.4
Colonius, Tim – AJ.5, CJ.3, EK.2, GQ.9, QR.2
Colton, Mark – HT.1
Combettes, Laurent – EQ.2
Conlisk, A.T. – QK.7, RC.4
Connell, Benjamin – RT.5
Connell, Sean – HV.8
Connington, Kevin – EV.10
Conroy, Devin – AY.2, AY.3
Conroy, Joseph – EW.8, EW.9, LZ.8
Constantinescu, George – RG.8
Cook, Andrew – EW.5, GD.10
Cook, Ian – HB.1, MJ.9
Cooney, John – QJ.9
Coq, Nais – EQ.4, LM.3
Cordero, Patricio – QN.2
Cordova-Figueroa, Ubaldo – MQ.10, QV.5,
QV.8
Corke, Thomas – CE.1, CJ.1, MX.2, MX.3,
QJ.1, QJ.4, QJ.9, RW.2
Coronado, Patricia – MC.7
Corrigan, Andrew – MR.10
Cortelezzi, Luca – CA.4, LF.3
Cortet, Pierre-Philippe – LA.9, QZ.4, QZ.9
Cossu, Carlo – HA.4
Cotel, Aline – QT.5, RS.2
Cotrell, David – GD.1
Cottin, Christophe – AF.4
Cottin-Bizonne, Cecile – RV.2
Coupier, Gwennou – GL.2
Cowley, Leonie – L1.3
Cox, Dan – MH.7
Crafton, James – MW.4
Craster, Richard – AY.2, AY.3, AY.5, CY.6, CY.7
Creasey, J.C. – CR.6
Cressman, John – HE.1
Creta, Francesco – QU.3
Crittenden, Thomas M. – GJ.2
Crocker, Ryan – MR.2
Crowdy, Darren – CQ.5
Croze, Ottavio – QS.9
Crumrine, Andrew – AP.7
Cruz Perez, Benjamin – ED.1
Cubaud, Thomas – GM.10, HM.7, HM.10
Cueto-Felgueroso, Luis – QP.5, RY.6
Cuevas, Sergio – GH.6, GN.9, MN.9, MN.10,
RW.1
Culetu, Hristu – QE.1
Culp, John – CJ.4, GJ.4
Cummings, Linda – L1.25
Curet, Oscar M. – RT.4
Custodio, Derrick – ET.6
Cutbirth, James M. – HB.2
Czajkowski, Mark – QA.3
Czarnocki, C.J. – EZ.1, L1.32, L1.33
D
D’Onofrio, A. – RH.2
Da Pron, T. – L1.32
da Silva, Carlos – LE.7
Dabbish, Nooreen – CT.6
Dabiri, D. – MW.5
Dabiri, John – EN.1, MQ.6, MT.1, MW.6, QT.8,
RT.7
Daerr, Adrian – AK.7, CS.9
Dahl, Jason – LN.6
Dahlburg, Russell – RQ.1
Dai, Albert – EG.9, QG.5
Dai, Hu – GT.5
Dalal, B. – GM.6, MP.1
Dallman, Ann – HG.1
Dalrymple, Robert A. – AZ.5
Dalziel, Stuart – L1.49
Damazo, J. – HV.7, HX.2
Dan, Risako – QK.9
Danaila, Luminita – EC.3
Dandapat, Bhabani S. – GY.5
Dang Vu Delcarte, Claudine – RH.3
Dangla, Remi – GP.10
Daniel, Susan – MJ.4
Daniello, Robert – LN.9, LN.10
Daniels, Karen – GW.5, HK.3
Dannenhoffer, III, John – CX.3, CX.4
DaPron, T. – EZ.1
Darbois Texier, Baptiste – ER.3
Daripa, Prabir – AZ.3, HY.10
Darquenne, Chantal – EL.4
Darvishi, Samira – HM.7
Dasi, Lakshmi – MA.7, ML.4, ML.10
Datta, Subhra – RC.4
Dauby, Pierre – AE.8
Daviaud, Francois – LA.9
Davis, Kenneth – EV.9, LZ.4
Davis, Michael – HY.3, QP.2, QP.6, QY.4
Davis, Robert – GK.6
Davis, Stephen – HY.3, QY.3, QY.4, RL.3
Dayel, Mark – QK.4
de Bruyn Kops, S.M. – CG.1, HA.8
de Castro Hernandez, Elena – GR.1, QQ.9
de Chaumont Quitry, Alexandre – LA.4
de la Cruz, Luis M. – CH.5
de Langre, Emmanuel – QX.7
De Lillo, Filippo – MM.9
de Lozar, Alberto – GZ.1, GZ.7, HJ.4
De Simone, Alejandro – GB.1
de Stadler, Matthew – RD.1
De Stefano, Giuliano – LD.1
De Wit, A. – CF.4, HV.10, LZ.10, QY.6, RH.1,
RH.2, RY.2
Dearing, Stella – HU.6
Deaton, Robert – LW.5
Deb, Briti Sundar – RU.1
Debieve, Jean-Francois – HX.5
Deboeuf, Angelique – MV.6
Debrunner, Jared – QF.4
Dehaeck, Sam – AK.9, CW.4, HY.1, HY.2, LS.2
Deiterding, R. – MU.8
Deiterding, Ralf – MR.5
del Alamo, Juan C. – CT.7, ED.2, HL.7, QK.2,
QK.3
Del Castello, Lorenzo – QZ.8
del-Castillo-Negrete, Diego – LA.5
Delavan, S.K. – CL.7
Delbos, Aline – QQ.3
Delgado, Antonio – ME.5
Dellar, Paul – LG.1, MY.7
Delmas, Mathieu – LS.4
den Toonder, Jaap – HM.4, LM.5
Deng, Daosheng – LZ.7, RX.2
Deng, Tao – ES.9
Deng, Xinyan – AX.1, AX.2, AX.3
Denier, Jim – AE.10
Denissen, Nicholas – AE.5
Denlinger, Ryan – AP.3
Dennin, Michael – MK.6, RQ.4
Denny, Mark – AQ.2
DePuit, Ryan – QV.4
Desjardins, Olivier – CU.2, EV.5, GV.6, QA.3
Devauchelle, Olivier – RM.1
DeVoria, Adam – QT.3
Dewey, Peter A. – QT.4
Deza, Mirka – EU.1
Dhiman, Rajeev – ES.9
Di Carlo, Dino – AV.8, GP.9, HM.8, HM.9,
MP.7, MP.8
Diamessis, Peter – AD.2, AG.1, AG.2
Diaz, Misael – MQ.10
Dickerson, Andrew – LW.7
Dierksheide, Uwe – RA.2
Diez, Javier – L1.24, QY.2
Dijkstra, Remco – HC.7
Dillard, Seth – GD.7
Dimonte, Guy – AW.6
Ding, Hang – CY.5, QA.4
Ding, Yang – CT.9, RN.2, RN.4
Dittmann, Thomas – CV.10
Diwan, Sourabh S. – MG.6
Dixit, Harish – CN.3
Djilali, Ned – CF.9
Do-Quang, Minh – CU.1, MV.2
Doche, Olivier – LU.6
Dodds, Shawn – AK.6
Doering, Charles – GC.8, GC.9, QF.2
Doi, Toshiyuki – RC.2
Doktycz, Mitchel – HP.5
Dollet, Benjamin – QQ.2
Domaradzki, Julian – AC.1, AC.2, MD.3, RG.8
Domejean, Hugo – GS.2
Dommermuth, Douglas – AZ.8, CK.4, MH.6,
MH.7
Don, Wai-Sun – CV.10
Donahue, Carly – GK.6
Donde, Pratik – MU.5
Dong, Haibo – LT.5
Dong, Steven – AD.8
Dong, Yong – QU.2
Donzis, D.A. – RB.2
Donzis, Diego – HX.10
Dorfman, Kevin – GP.3
Dou, Huashu – EE.9
Douandju, William – QH.6
Doumenc, Frederic – CW.4, RH.3
Dowling, David – HB.2, HU.1, LB.4
Doyeux, Vincent – GL.2
Doyle, James – GT.5
Doyle, John – QB.10
Drabo, Mebougna – ME.10
Drazen, David – CK.4
Drescher, Knut – QS.3
Dressler, Kris – AB.1
Drew, Donald – AU.2
Dreyer, Matthieu – CK.9
Driscoll, Michelle – HS.1
Drost, Kevin – CJ.6
Du Plessis, J. Prieur – L1.41
du Puits, Ronald – GH.2
Du Roure, Olivia – EQ.4, LM.3
Duan, Lian – AB.9
Dubash, Neville – MM.3, RF.7
Dubief, Yves – L1.3, LB.3, MF.3, MR.2
Dubrulle, Berengere – LA.9
Dubson, Michael – QE.4
Duchemin, Laurent – HR.5
Duclaux, Virginie – HQ.7
Dudani, Jaideep – MP.7
Duggleby, Andrew – QP.8
Duke, Daniel – GY.3
Dumais, Jacques – ER.8
Duncan, J. – MW.5
Duncan, J.H. – CZ.5, CZ.6, HQ.9
Duncan, Richard D. – CB.2
Duong, Nhut Cuong – ET.5
Duplat, Jerome – AA.9, AA.10, QQ.5
Duponcheel, M. – AC.7
Dupont, Pierre – HX.5, QR.8
Duprat, Camille – LW.8, QY.5
Dupuys-Williams, Pascale – EQ.2
Duraisamy, K. – CN.1
Durham, William – QS.5
Duriez, Thomas – HF.1, HF.2
Dusek, Jan – HE.4
Dusek, Jeff – LN.6
Dussauge, Jean-Paul – HX.5, HX.6, QR.8
Dutta, Prashanta – EP.8, QA.8
E
Eames, Ian – ME.9
Eaton, John – CA.8, CA.9, HF.3, HJ.5, HX.3,
HX.4, QE.10
Eberly, Lauren – LG.3
Ebert, Guenther – EG.4
Ebner, Rachel – MB.7
Echekki, Tarek – HV.3, HV.5
Ecke, Robert – AF.8, GK.5
Eckmann, D.M. – MK.4
Edlund, E. – CK.8, MZ.6
Edwards, Joan – EN.7
Egbers, C. – CH.7
Eggers, Jens – AK.7
Eggleton, Charles – MK.2
Ehyaei, Dana – MW.3
Eiff, Olivier – HG.10, QT.5
Eijkel, Jan C.T. – GM.3
Ekmekci, Alis – HE.8, LN.4
El Hadidi, Basman – HJ.2
El Hasi, C. – RH.2
El Yacoubi, Acmae – RU.2
El-Kadri, Alaa – ME.3
Elbing, Brian – HU.1, LB.4
Elcrat, Alan – GN.7
Eldredge, Jeff – CQ.9, EH.7, GT.7, HT.6, LX.5,
QR.3
Elele, Ezinwa – AR.6
Elfring, Gwynn – LQ.10
Elghobashi, S. – EV.4, MJ.6
Elhadidi, Basman – CJ.9
Eliasson, Veronica – GX.8
Elimelech, Yoseph – GJ.1, GJ.3
Elimelech, Yossef – HJ.6
108
Elkins, Christopher – CA.8, CA.9, HF.3, HJ.5,
QE.10
Elliott, Zachary – EG.6
Ellowitz, Jake – RU.3
Eloy, Christophe – ET.7, QZ.1
Elshummakhi, Ehsan – MY.8
Elsnab, John – MB.6
Elvin, Niell – HN.5
Elzawawy, Amir – QE.5
Emory, Michael – CC.6
Engblom, Stefan – CU.1
England, Jonas – EU.1
Enright, Ryan – CM.8, ES.8
Enriquez, Oscar – HQ.10
Epps, Brenden – CX.5
Erath, Byron D. – AL.2
Ern, Patricia – HU.7
Ertas, Deniz – GK.8
Ertunc, Ozgur – ME.5
Escobar-Vargas, Jorge – AD.2
Eshraee, Hamida – MY.8
Eslam Panah, Azar – MT.7
Esmaily Moghadam, Mahdi – GL.4
Espinoza, Ignacio – CZ.2
Etoh, T.G. – HY.7
Evans, Arthur – LQ.3
Evans, B. – QC.8
Evans, Humberto – AX.4
Ewoldt, Randy – QS.8
Ezekoye, Ofodike – MR.1
F
Fabre, David – CN.9
Fagley, Casey – RJ.1
Falcon, Claudia – HC.1
Falkovich, Gregory – AZ.10
Falla Avila, Ricardo – L1.10
Fallenius, Bengt – HE.3
Fan, Yi – HK.2
Fang, Xiaoni – L1.19
Fares, Rim – LH.9
Farge, Marie – AB.3, HA.10, LT.6, QB.2
Fargette, Aurelie – HW.1
Farhat, Mohamed – CK.9, HN.4, HQ.1
Farley, Blair – EX.7
Farnsworth, John – CJ.7
Farrell, Brian – QB.7
Fasel, Hermann – CE.6
Fauci, Lisa – LQ.9, MF.8, QF.1
Fayad, Ghassan – GP.4
Fayed, Mohamed – AX.8, AX.10, CZ.1, HT.9
Fayzrakhmanova, Irina – EY.3
Fede, Pascal – RS.4
Fedorov, Alexander – QR.2
Fedosov, Dmitry – GL.8, LK.1, LK.2, LK.5
Feinstein, Jeffrey – GL.4, QL.1, QL.3
Feldman, Charles L. – ML.6
Felicelli, Sergio D. – CP.5
Feng, Chengcheng – MT.9
Feng, James J. – ES.2, EU.10, HW.4
Feng, Jiansheng – ES.4
Ferjani, Sameh – HZ.9
Fermigier, Marc – EQ.4, LM.3
Fernandez, Arturo – LR.10
Fernandez-Feria, Ramon – CZ.3
Fernando, Harindra – CH.2, HG.1
Ferrante, A. – AB.7, CU.6, EV.4
Ferrari, R. – QH.9
Ferreira de Sousa, Paulo – GT.5
Ferrer, Nangelie – LN.10
Ferrera, C. – ER.2
Feudel, F. – CH.7
Fezzaa, Kamel – LC.8
Figueroa, Aldo – GN.9, MN.9
Filippidi, Emmanouela – RV.6
Filippov, Andrey – HY.9
Fink, Y. – RX.2
Finkel, Cyndee – HN.10
Finlay, Warren – HD.5
Finn, Justin – EF.6
Finn, Matthew – GC.7
Finstad, Pal H.E. – CJ.10
Fisch, Cathy – EQ.2
Fischer, I. – GM.6, MP.1
Fish, Frank – ET.4
Fisher, David J. – HL.7
Fisher, Michael E. – MN.5
Fissell, William H. – RC.4
Flack, Karen – GB.9
Flesch, Robert – EC.4
Flierl, G.R. – GN.2
Flor, Jan-Bert – ME.9
Flores, Oscar – HG.5
Floryan, Jerzy M. – EH.4, LY.7
Flynn, M.R. – RZ.7
Foard, Eric – RX.1
Focke, Christian – QM.5
Fogla, Navin – QU.3
Foley, Alia – HB.1, MJ.9
Fomin, Sergei – QF.4
Fonda, Enrico – MN.2
Fontaine, Arnold – EN.3, MW.4
Fontana, Paul W. – HZ.7, HZ.8
Fontane, Jerome – LA.2
Fontelos, Marco – HR.10
Forleo, Marcio – ML.4
Forliti, David – CA.1, CA.2
Fornleitner, Julia – GL.8
Forsberg, Flemming – HL.1, LR.1
Forster, Chris – MJ.3
Forsyth, Alison – LK.4
Forsythe, Jim – MB.1
Forterre, Yoel – EF.3
Foss, John – LE.6
Fourriere, Antoine – LH.4
Fouxon, Itzhak – AZ.10
Fowlkes, J. Brian – MS.10, QE.9
Fowlkes, Jason – QY.2
Fox, R.O. – LU.7
Fox, Rodney – AU.10
Fox-Kemper, Baylor – EG.5
Franceschini, Alexandre – RV.6
Franck, Jennifer – LB.2
Frank, Jonathan – LV.4
Frankel, Itzchak – EY.9
Fransson, Jens – HE.3
Fredbo, Maren – QB.3
Fredriksson, David – HC.6
Frenkel, Alexander L. – CY.9
Freund, Jonathan – EK.3, GL.9, GQ.2, QK.6
Frey, Jared – AP.8
Fried, L.E. – GU.3
Friedman, Gavin – CW.1, EW.10, L1.31
Friedman, Peter – RM.4
Friend, James – AY.10
Fringer, Oliver – L1.47, L1.48
Frohnapfel, Bettina – EJ.7
Fruleux, Antoine – RM.5
Fry, Edward – EA.2
Fryer, Chris – AW.6
Fu, Chia-Chun – EP.1
Fu, Henry – MQ.5
Fu, Matthew – CK.3
Fu, Tom C. – CK.4
Fu, WuShung – MD.3
Fujimoto, Keiichiro – MX.5
Fukagata, Koji – AJ.7, HJ.7, HJ.9
Fukushima, Naoya – LV.1, LV.2
Fuller, Gerald – QF.7
Fullerton, Anne M. – CK.4
Fuster, Daniel – GQ.9
Futterer, B. – CH.7
G
G. Isfahani, Amir H. – GL.9
Gadelha, H. – LQ.1
Gadgil, Hrishikesh – GR.7
Gaff, Kristina – MN.4
Gaffney, E. – LQ.1
Gahrib, Morteza – HN.2
Gailani, Joseph – HB.5
Gaitonde, Datta – QJ.5
Gallaire, Francois – CN.5, CN.8, HE.6
Gallet, Basile – QN.2
Gallis, Michael – QC.2, QC.4, QC.5
Gamba, Mirko – MR.8, MR.9
Gamezo, Vadim – QU.1
Gampert, Markus – GA.5, GA.6, LV.3
Ganan-Calvo, A. – ER.2
Ganapathisubramani, B. – CX.2, GB.10, LE.8,
LJ.5
Ganesh, Harish – HQ.2
Ganguly, Ranjan – QL.7
Ganguly, Sujoy – CQ.7, MK.5, QS.1
Gao, Haijing – GS.7, GS.8
Gao, Jian – HV.8
Gao, Peng – ES.2, EU.10, HW.4
Gao, Qi – LB.9
Gao, Tong – AM.7
Garcia, F. Javier – AY.7
Garcia, Michael – EQ.1
Garcia-Mayoral, Ricardo – MB.8
Garcia-Villalba, Manuel – ED.2
Garg, Rahul – EV.3
Garland, Stephen – MV.6
Garnaud, Xavier – GE.5
Garrett, Stephen – CE.7, CE.8
Garrick, Sean – GU.7
Garris, Charles – QR.9
Garrity, Deborah – ML.10
Gart, Sean – CT.5
Gaster, Michael – LN.1
Gatapova, Elizaveta – GY.8
Gauding, Michael – EC.4, GA.5, LV.3
Gautam, Dipesh – QP.4
Gauthier, Georges – MV.6
Gavillet, Jerome – CS.5
Gayen, Bishakhdatta – EG.8
Gayme, Dennice – QB.10
Gazzola, Mattia – AN.3, CD.7
Gehring, Eelco – HS.7
Geiser, Jayson – AN.9
Gelderblom, Hanneke – CS.4, GQ.3
Gellert, M. – CH.7
Gelshorn, Henning – HL.7
Gemmell, Brad – MQ.7
Genc, Balkan – ME.5
George, Jacob – GB.1
George, Ryan – HT.1
George, William K. – MA.8
Georgiou, Tryphon – CC.10
Gerakopulos, Ryan – GF.9
Gerard, T. – RH.1
Gerashchenko, Sergiy – CV.3, CV.4
Germaine, Emmanuel – CA.4
Germano, Massimo – QD.6
Geron, Marco – EH.9
Getsinger, Daniel – GE.3
Geubelle, Philippe – LJ.1, QR.1
Geurts, Bernard J. – RU.1
Ghaemi Oskouei, Babak – MT.4
Ghaffari, Shirin – CE.3
Ghaffari Motlagh, Yousef – QD.7
Gharib, M. – CJ.5, CK.3, ES.1, LC.3, ML.2,
MW.5
Gheisarieha, Mohsen – LF.8
Ghesmat, Karim – AF.3
Ghods, Sina – EU.5
Ghosal, Sandip – AM.10
Ghosh, Anirban – ES.1
Giacche, Davide – CQ.3
Giacobello, Matteo – MS.1
Gibert, Mathieu – CA.7
Gibou, Frederic – CD.9, LM.10
Gibson, Carl H. – EA.4
Gibson, John – GZ.4, GZ.8
Gibson, Max – QB.8
Giguere, Paul – GU.9, GU.10
Gil, Goncalo – L1.47
Gilbert, Mathieu – GA.2
Gilet, Tristan – CL.4, HR.8
Gillissen, Jurriaan – LR.7
Gilmer, Caleb – EZ.7
Gino, Banco – CL.10
Gioia, G. – MA.3, MA.5
Giordano, Joseph – MW.4
Gipe, Don – CD.8
Girimaji, Sharath – CC.2, CC.3, CC.4, CC.5,
GA.7, GA.8, HV.1
Gissen, Abraham – GJ.4
Givi, Peyman – GX.5
Glass, Phillip – HU.3
Glauser, Mark – CJ.9, CX.3, CX.4, EJ.5, EJ.6,
HJ.1, HJ.2
Glenn, Autumn – HL.2, HL.8
Glezer, Ari – CJ.2, CJ.4, EH.1, EH.10, GJ.2,
GJ.4, GJ.7, MJ.3, ML.5, QQ.6
Glowinski, Roland – LK.9
Godoy-Diana, Ramiro – GT.9, HT.10, RZ.2
Goebbert, Jens Henrik – EC.4, GA.5, GA.6,
LV.3
109
Goet, Gabriele – GM.8
Goldburg, W. – MA.3, MW.10
Goldenfeld, N. – MA.3, MA.5
Goldman, Daniel – CT.9, GK.3, RN.2, RN.4,
RN.5
Goldstein, Raymond – CQ.7, MK.5, QS.1,
QS.3, QS.7
Gollub, Jerry – AV.9, EQ.7
Gomba, Juan M. – HW.5
Gomez, Francisco – LX.7
Gomez-Gonzalez, Manuel – QK.2, QK.3
Gompper, Gerhard – GL.8, LK.2
Gonnella, Giuseppe – RF.8
Gonzalez, Alejandro G. – L1.24
Gonzalez, Benito – GF.3
Gonzalez-Avila, S. Roberto – QQ.10
Gonzalez-Juez, Esteban – QH.5
Gonzalez-Mancera, Andres – L1.10, RK.7
Good, Garrett – CV.3, CV.4
Goodfriend, Lauren – CD.2
Gorder, Riley – HL.4
Gordillo, Jose Manuel – GR.1, QQ.9
Gordillo, Leonardo – CZ.2
Gore, Robert – AW.4, AW.5, CW.6
Gorji, Mohammad Hossein – QC.3
Gorle, Catherine – MR.8
Goss, Larry – MW.4
Gosselin, Frederck P. – EQ.8
Gossett, Daniel – MP.7
Goto, Yuichiro – LX.7
Gotod Hiroshi – HH.9
Goujon-Durand, Sophie – HE.2
Gourjii, Alexandre – MP.2
Govindarajan, Rama – CN.3
Gowardhan, Akshay – EW.4, EW.7
Goyeau, Benoit – GY.4
Graham, Jason – GG.3
Graham, Michael – LK.10, LQ.8, MF.1
Grana Otero, Jose – RM.7
Granlund, Kenneth – EX.9
Gratton, Michael – HY.3, QY.3, QY.4
Gratton, Roberto – L1.24
Graur, Irina – RC.1
Graves, Daniel – MY.2
Gravish, Nick – GK.3, RN.2, RN.5
Grazioso, Valerio – AB.4
Greco, Edwin – ER.5
Greco, Edwin F. – PT.1
Green, Boe – EM.5
Green, Melissa – GL.3
Greenough, Jeffrey – EW.2
Greguric, Zrinka – HE.1
Griffiths, Ian – AV.4
Griffiths, Ross – KS.1
Grigoriev, Roman – ER.5, GU.6, MP.4
Grimshaw, Roger – CZ.7
Grinberg, Leopold – EP.4
Grinstein, Fernando – EW.4, EW.7
Grogan, Joseph – LP.3
Gronqvist, Robert – L1.45
Grooms, Ian – EG.5
Grosch, Chester – AA.1, EG.3
Grosfils, P. – RH.1
Grossmann, Siegfried – EH.6
Grotberg, James – EL.3, EL.7, EL.10, RF.3
Grover, Piyush – LF.7
Grube, Nathan – MC.2
Gruber, Timothy – HC.6
Gruener, Simon – EP.10
Grundmann, Sven – HF.3
Guala, Michele – LB.8
Guasto, Jeffrey – AV.9, EQ.7, LC.7
Guazzelli, Elisabeth – MV.3, QV.1, RV.1, RV.5,
RV.6
Gubanov, Oleg – LF.3
Guckenheimer, John – ET.1
Gudmundsson, Kristjan – EK.2
Guenther, Axel – LP.5, LP.9
Guenther, Claudia – EC.4
Guerrier, Beatrice – CW.4, RH.3
Guglielmini, Laura – LY.4
Gungor, Ayse G. – EB.4, EJ.8
Gunter, Amy-Lee – AX.8, AX.10
Guo, Junke – AN.6
Guo, Xin – RZ.5
Guo, Xinyi – EN.7
Gupta, A. – LV.5
Gursel, Gokalp – GW.2
Gurupatham, Sathish – GM.6, MP.1
Gustafsson, Jonathan – AD.9
Gutierrez, Pablo – HK.4
Gutierrez-Montes, C. – RQ.7
Gutman, S.R. – QF.9
Gutmark, Ephraim – EK.1
Guttenberg, N. – MA.3
Guttenberg, Nicholas – MA.5, QN.5, RU.3
Guzman, Enrique – HK.5
Gylfason, Armann – GA.2, L1.45, RB.8
H
Ha, Hojin – GL.10
Habegger, Maria – RT.6
Hack, Philipp – AE.7
Hadji, Layachi – LZ.5
Hadjiconstantinou, Nicolas – EM.7, GP.4, QC.2
Haehn, Nicholas – QC.9
Hagelberg, Carl – GX.10
Haines, Philip – LZ.1
Haj-Hariri, Hossein – ET.4, LP.6, QT.2
Hajimirzaie, Seyed Mohammad – LN.2
Haley, Aaron Alan – CW.5
Hall, Phil – EE.2, EE.3, EE.4
Haller, George – LA.7
Hallez, Yannick – QG.6
Hallworth, Mark – AF.6
Halpern, David – CY.9, EL.3, EL.7
Halvorson, Lori – RT.8
Ham, Frank – MR.8, MU.3, MU.6
Hamel, Amandine – EQ.2
Hamilton, Nicholas – GG.9
Hamlet, Christina – RS.1
Hamlin, B.S. – CR.6, CR.7, CR.8
Hamlington, Peter – HA.3, QU.8
Hanazaki, Hideshi – LG.2
Hancock, Matthew – HP.8
Handler, Robert – AZ.4
Hanna, James – LY.5
Hansen, Joshua – EQ.10
Hansen, Martin – LN.5
Hanson, Ronald – QJ.6, QJ.7
Hanson, Ronald K. – MR.9
Hao, Max – MT.5
Hardt, Steffen – CM.5, CM.7, GM.8
Hargather, Michael – MW.8
Harris, Daniel M. – CN.4
Harris, Michael – GR.4, GS.7, HS.5
Hart, Adam – EX.5
Hartenberger, Joel – RM.3
Harting, Jens – RK.5
Hartong-Redden, Rory – HS.2
Harun, Zambri – MA.9
Hasegawa, Yosuke – EJ.7, EJ.10
Haselbacher, Andreas – EV.7, EV.8
Hashimoto, Akira – LC.2
Hassan, O. – QC.8
Hassanizadeh, S. Majid – CF.1
Hassanzadeh, Hassan – AF.3
Hassanzadeh, Pedram – CN.6, CN.7
Hatsukami, Tom – HL.3
Hatton, Benjamin – ES.8
Hatton, Ross – CQ.4
Hattori, Kaoru – L1.29
Haut, Benoit – MS.9
Haworth, D.C. – ED.7, LV.5, LV.7, LV.8
Haynes, Christophe P. – MR.4
Hazel, Andrew – LZ.1
Hazewinkel, Jeroen – L1.49, QH.7
He, Andong – RY.4
He, Guowei – AH.1, EK.9, GV.9, LT.10
He, Ping – HR.7
He, Xiaozhou – AH.1
Hedrick, Tyson – AX.5
Heeb, Nicholas – EK.1
Hege, Hans Christian – GE.8
Heindel, T.J. – LU.7
Heisselmann, Hendrik – MG.1
Hejazi, S.H. – RY.1
Hejazialhosseini, Babak – CD.4
Helenbrook, Brian – RF.3
Helfrich, Karl – CZ.7, MH.5
Helgadottir, Asdis – CD.9
Helgeland, Anders – QB.8
Hellman, Sam – HF.10
Hellstrom, Leo – CB.8
Helmer, David – HX.3, HX.4
Hemati, Maziar – LX.5
Hendabadi, Sahar – L1.1
Hendel, David – RG.3
Hendrickson, Cory – GE.3
Hendrix, Maurice – HC.7
Henfling, John – LB.7
Henningson, Dan – AJ.8, GE.1
Henoch, Charles – ET.6, LB.2
Herbst, Daniel C. – RQ.5, RQ.6
Herescu, Alexandru – HU.5
Hermanson, J.C. – EY.4, QR.7
Hermanson, James – RH.4
Hernandez, Guillermo – GH.6
Hernandez, Jesus – RY.3
Hernandez, Matt – GC.4
Hernandez-Cordero, Juan – HU.10
Hernandez-Cruz, Guillermo – CS.10, EF.2
Hernandez-Guerrero, Abel – EF.2
Herpich, Jerome – ET.5
Herrada, M.A. – ER.2
Herreman, Wietze – LH.8
Herring, Jackson – MH.9
Herrmann, Hans – HK.10
Herrmann, Marcus – CU.3, EU.4, EU.5, LW.4
Hertzberg, Jean – QE.3, QE.6
Hesse, Marc – AF.6, AF.7
Hewitt, Richard – LZ.1
Heye, Colin R. – AC.3
Heys, Jeffery – HT.8
Hickey, Jean-Pierre – GX.4
Hicks, Elizabeth – LF.6
Hidalgo, Pablo – EH.1
Hidrovo, Carlos – CM.3, EF.1, EM.6, ER.10,
GS.4, HU.2, HU.3, LW.10, MP.9
Higgins, Andrew – QC.7
Higgins, B.G. – EF.9
Higley, Michael – LR.3
Higuchi, Hiroshi – CJ.9, LX.7, RL.7
Hilgenfeldt, Sascha – GY.1, HM.5, HM.6, QQ.1
Hill, Kimberly – HK.2, QN.9
Hillyard, Benjamin – L1.14
Himmel, Steffen R. – QA.10
Hinch, John – B1.2
Hind, Michael – CX.6
Hiremath, Varun – LV.6
Hiromichi, Obara – L1.12
Hirsa, Amir – EL.2, GW.6, LS.5, MK.7, MK.9
Hoang, Anna – CS.9
Hoang, Huy – CX.9
Hoda, Nazish – CF.3
Hoelling, Michael – MG.1, QW.3
Hoelscher, Thilo – GQ.8, HL.7
Hoepffner, Jerome – HJ.9
Hoettges, Stefan – LP.4
Hof, Bjoern – GZ.1, GZ.2, GZ.7, HJ.4
Hofferth, Jerrod – CE.4
Hoffman, Eric – EL.1, QP.9
Hofmann, Ernst – AV.1
Hogg, James – GH.3
Holbrook, Noel Michele – CL.3
Holden, Daniel – LT.9
Holdsworth, Amber – RG.4
Hollerbach, R. – CH.7, MZ.7
Holloway, William – AU.1
Holmes, Douglas – HC.4
Holt, Gavin – QX.10
Holz, David – L1.2
Homan, Tess – HK.6, HK.7
Homsy, George M. – HW.5
Honami, Shinji – MM.2
Hondzo, Miki – CQ.10
Hong, Jiarong – HB.4, MB.10
Hong, Jin Seok – LM.2
Hong, Jiwoo – CR.1
Honnery, Damon – GY.3
Hood, K. – GS.5
Hoover, Carol G. – GX.9
Hoover, William G. – GX.9
Hopkins, Riki Minoru – MA.10
Horiuti, Kiyosi – RB.5
Hornung, H.G. – MR.6, QR.6
Horst, Tomas – EC.2
Horvath, D. – RH.1
Hosoi, Anette – AV.5, CQ.4
Hosoya, Ryota – L1.4
Hossain, M. – GM.6
110
Hossain, M.M. – MP.1
Hossain, M.Z. – EH.4
Hotmar, Petr – LP.8
Houchens, Brent – EV.9, LZ.4
House, Dustin – EM.9
Hove, J. – MW.5
Howard, W.M. – GU.3
Hoying, Daniel – QK.7
Hrenya, Christine – GK.6
Hrynuk, John – EN.6
Hsia, K. Jimmy – GY.1
Hsieh, Cheng-Ta – EX.10
Hsu, Andrea – LV.4
Hsu, Chia-Wei – AV.2
Hsu, Tienyi – QF.7
Hu, Bin – RF.5
Hu, David – CT.8, GW.8, LW.6, LW.7
Hu, Guohui – LS.10
Hu, Guoqing – ER.1, LM.8
Hu, Howard – AM.7, GP.1
Hu, Hui – AX.9, LN.8, MP.10, RW.4
Hu, Xiangyu – CU.9
Hu, Zheng – AX.1, AX.2, AX.3
Huang, Ho-Shuenn – L1.27
Huang, Peter – LC.7
Huang, Shi-Di – HH.2
Huang, Wei-Xi – MT.3
Huang, Yue – LZ.4
Huber, Patrick – EP.10
Hubner, James – EX.1, EX.7
Huera-Huarte, Francisco – CK.3
Huerre, Patrick – GE.5
Hueter, Robert – RT.6
Huisman, F.M. – QF.9
Huisman, Sander – MZ.8, MZ.9, MZ.10
Hulea, Kelsey – LP.2
Hulsen, Martien – LM.5
Hultmark, Marcus – CB.6, GB.7, MA.2, QW.1
Hummel, Tobias – L1.13
Hunt, Gary R. – QG.7
Hunt, Julian C.R. – GA.3
Hunt, Kaitlyn – LW.10
Hunt, Lauren – AE.6
Hunter, Ian – LP.7
Huppert, Herbert – AF.6, AF.7, LY.9
Hussain, F. – AB.6, CN.1, CN.2, EB.1, GX.4
Hussain, Zahir – CE.7, CE.8
Hussaini, Mohammad Yousuff – EK.5
Hutchings, Ian M. – GR.2, L1.11
Hutchins, Nicholas – AB.2, EB.2
Hutchins, Nick – LB.6
Huyer, Stephen – CJ.7
Huyssen, Joachim – AX.7
Hwang, Jeong-Min – GG.5
Hwang, Yongyun – HA.4
I
Iaccarino, Gianluca – CC.6, CC.7, CE.2, CE.3,
GB.1, HX.4, MF.6, QD.4
Ibrahim, Ashraf – HV.1
Ichiyanagi, Mitsuhisa – HP.2
Ifju, Peter – AX.6
Ihme, Matthias – LE.1, LU.4
Ii, Satoshi – GU.8
Iima, Makoto – CQ.6, HH.7, MZ.5
Ikeda, C.M. – HQ.9
Ikenaga, Kenta – MD.2
Ilak, Milos – GE.1
Ilie, Marcel – GV.7, HN.6, MC.7, MD.4
Illingworth, Simon – AJ.7
Im, Do Jin – CR.4, CR.5, GR.5, L1.8
Inamuro, Takaji – HT.5
Inkman, Matthew – QR.2
Inokuma, Hiroshi – MD.2
Inoue, Michio – MB.2
Ioannou, Petros – AE.3
Iollo, Angelo – MT.6
Ireland, Peter – CV.5
Irudayaraj, Joseph – HM.1
Ishihara, Takashi – GA.3
Ishikawa, Hitoshi – QW.7
Ishikawa, Kei – RC.5
Ishikawa, Takuji – CQ.3
Ismail, Mourad – GL.2
Iso, Yoshiyuki – AK.8
Israel, Daniel – CC.1
Israelachvili, Jacob – MV.4
Issakhanian, Emin – CA.9
Ivanov, Dimitry – L1.45
Iwamoto, Kaoru – RJ.4
Iwata, Shohei – HV.9
Iyer, Prahladh – QR.5
J
Jaberi, Farhad – HX.8
Jack, Stuart – EP.7
Jacob, Daniel J. – MG.2
Jacobi, Ian – CB.4, CB.10
Jacobitz, Frank – HA.10
Jacobs, Gustaaf – CV.10
Jacobs, Jeffrey – CW.3, EW.1, EW.2
Jacobson, Mark – GG.7
Jaeger, Heinrich – GK.1
Jafari, Farid – LT.8
Jagadeesh, Chetan – LN.1
Jaishree, J. – LV.7
Jalikop, Shreyas – HM.5, HM.6
James, Darryl – RM.3
Jammalamadaka, Avinash – HX.8
Jan, Linda – AM.1
Jana, Saikat – EQ.3
Jang, Hyunchul – AD.6
Jang, Ik – GX.3
Jang, Yong-Jun – GF.4
Jang, Yonghee – QP.10
Janjua, Mansoor – CR.9
Janpaen, Vitsarut – L1.7
Jansen, Kenneth – GB.2, GJ.9
Janssen, Pieter – LQ.8
Javaherchi, Teymour – QX.5
Jayaraman, Balaji – CF.8, GU.9
Jayaraman, Mahesh – RL.5
Jeanneret, Raphael – GM.4
Jee, Sol Keun – GJ.8
Jelinek, Bohumir – CP.5
Jenkinson, Michael – QY.7
Jenny, Patrick – QC.3
Jensen, Kaare Hartvig – CL.3, MM.5
Jensen, Kristian – AP.7
Jeon, David – CK.3
Jeon, Hyunjun – GF.4
Jeon, Seung – EJ.1
Jeon, Young Jin – LC.4
Jewell, J.S. – QR.6
Jewell, Nathaniel – AE.10, GC.7
Jha, Birendra – QP.5
Ji, H. – CK.8, MZ.6
Jiamsripong, Panupong – HT.8
Jian, Dandan – RW.1
Jiang, Chung-Hsiang – CZ.4
Jibuti, Levan – QS.6
Jimenez, Javier – EB.3, EB.4, EJ.8, GB.1, MB.8
Jimenez-Gonzalez, Jose Ignacio – HE.5
Jin, Guodong – GV.9
Jing, Fangxu – RT.3
Jo, Seungbum – LH.5
Johari, Hamid – CX.1, ET.6
Johnsen, Eric – GQ.4
Johnson, Andrew – LJ.8
Johnson, Brennan – ML.10
Johnson, Bryan – CC.8
Johnson, Karl A. – EQ.7
Johnson, Michael – LW.3
Johnson, S.G. – LZ.7, RX.2
Johnson, Ted – CZ.7
Joly, Laurent – LA.2
Jones, Emily – GF.6, GF.8, RT.6
Jones, Preston – CN.10
Jones, Reese – EP.3
Jones, Robert – ET.2, ET.3, EZ.7
Jose, Bibin M. – GM.10
Joseph, D.D. – GM.6, GY.9, MP.1
Joshi, Abhijit – CF.10, CS.8, MS.7
Joshi, Pranav – HB.3
Josserand, Christophe – HR.1, HR.5, HR.6,
HR.10, QM.1
Joswiak, Mark – GP.3
Joubaud, Sylvain – HK.7
Jovanovic, Mihailo – CC.10, HJ.8
Joyeux, Marc – CL.2
Juanes, Ruben – AF.9, QP.5, RY.6
Juarez, Gabriel – CT.4, GK.9, HU.8
Jubery, Talukder – EP.8
Julien, Keith – EG.5, LG.9, MZ.1, MZ.2, MZ.3
Jumper, E.J. – EA.3
Jung, Sung Yong – GL.5, LC.9
Jung, Sunghwan – AK.3, CT.5, EN.5, EQ.3
Juniper, Matthew – GE.4
Juric, Damir – AY.8
Jursic, Domagoj – LW.10
K
Kabov, Oleg – GY.8
Kaczorowski, Matthias – EH.5
Kadoch, Benjamin – LA.5, RA.5
Kaehler, Goetz – QA.6
Kailasanath, K. – EK.1, MR.10
Kaligotla, Srikar – EJ.5
Kalliadasis, Serafim – AP.2, HY.5, LS.6, MS.9
Kalluri, R. Murthy – MK.1
Kaloni, Purna – EF.10
Kamal, Samy – RG.2
Kamphorst, Vincent – GR.6
Kamrak, Juthamas – CW.4
Kan, Yin-Chiu – ED.8, MC.6
Kanapuram, Ravitej – CM.3, EF.1, HU.3
Kandala, Sriharsha – AD.7
Kaneda, Yukio – GA.3
Kang, Changwei – LR.4
Kang, Changwoo – GF.7
Kang, Hyung-Suk – GB.3
Kang, In Seok – CR.4, CR.5, GR.5, L1.8, LM.2
Kang, Kwan Hyoung – CR.1, CR.2, CS.2,
GP.8, HP.9, LS.3, QP.3, QX.2
Kang, Kwang Hyoung – CR.3
Kang, Qinjun – EV.10
Kang, Sangmo – EQ.9
Kang, Seokkoo – GD.5, HD.2, LD.8
Kang, Tae Gon – LM.5
Kanholy, Santhip – EU.1
Kannaiyan, Kumaran – GV.4, MX.7
Kanso, Eva – MT.4, RT.3
Kantsler, Vasily – QS.7
Kao, Chih-Yu – EX.10
Kao, Justin – AV.5
Kaoui, Badr – RK.5
Kaplan, Carolyn – GL.3
Kappiyoor, Ravi – QL.7
Kapur, N. – GS.5
Karagozian, Ann – GE.3, LU.8, MU.1, MU.2
Karapetsas, George – AY.6, CY.6, CY.7, RH.5
Karcher, Christian – RW.1
Karimi, Alireza – AH.4
Karnesky, J. – HX.2
Karniadakis, George – EP.4, LK.1, LK.2, LK.5,
QM.9, RL.5
Karpitschka, Stefan – LW.2
Kasagi, Nobuhide – EJ.7, EJ.10, HJ.7
Kasimov, Aslan – RM.6
Kassoy, David – MU.9
Katiyar, Amit – HL.1
Kato, Shinsuke – QA.9, RW.5
Kato, Yoshihito – HV.9, RY.5
Katz, Alan – LX.9
Katz, David F. – RF.1, RF.2
Katz, Joseph – CB.3, HB.3, HB.4, HF.9, LE.10,
MB.10
Kaul, Colleen M. – AC.3, HV.6
Kavehpour, H. Pirouz – AL.10, CS.9, HP.4,
HQ.8
Kawahara, Genta – GZ.10
Kawai, Soshi – GU.4, MC.4, MD.5
Kawasaki, Jumpei – RC.6
Kaxiras, Efthimios – ML.3, ML.6
Kaye, Nigel – RG.1
Kaz, David – HW.10
Kazama, Haruko – QK.9
Kazoe, Yutaka – AM.4
Kearney, John M. – CJ.2
Kearney, Sean – GU.2, HB.5
Keaveny, Eric – CT.1, CT.2, EJ.4
Keedy, Ryan – MG.10
Keith, Adam – HK.3
Keith, William – HB.1, MJ.9
Kellay, H. – MA.3, QF.10
Kelley, Douglas – LA.4, LA.8
Kelly, Scott – HF.10
Kenneth, Oded – LQ.6
Keppel, Cecily – QP.2, QP.6
Kerenyi, Kornel – AN.6
Kerr, Robert M. – MZ.7
111
Kerstein, Alan – MG.5, MG.9, QH.5
Kerstens, Wesley – AJ.5
Kerswell, Rich – EE.1, LY.1, QZ.5
Kerwin, William – HL.3
Kesana, Netaji Ravikiran – QV.10
Kessler, David – QU.1
Kessler, John – CQ.7, QS.1
Ketelaar, Christiaan – CM.9
Keyes, David – LD.4
Khader, Rana – CP.9
Khakhar, D.V. – QN.8
Khalili, Arzhang – EG.2
Khan, Irfan – EF.8
Khan, Mubashar – MV.2
Khan, Saif A. – GM.1, GS.10
Khan, Wasif – GJ.1
Khashehchi, M. – GE.10
Khomami, B. – EC.7, RB.4
Khoo, B.C. – HQ.3
Khopkar, Avinash – RX.3
Khosronejad, Ali – HD.2
Khujadze, George – AB.3
Khurana, Nidhi – LF.5
Khusid, Boris – AM.1, AR.6
Kieweg, Sarah – RF.5
Kiger, Ken – AN.9, ET.8, GU.1, MW.3
Kilimnik, Alex – AV.8
Kim, Albert – EV.9
Kim, Bo Young – GT.10
Kim, Boguk – RZ.1
Kim, Boheum – CL.1
Kim, Bumchang – QX.2
Kim, Byoung Jae – L1.35, L1.36
Kim, Byung-Gu – GG.5
Kim, Daegyoum – HN.2
Kim, Dokyun – EU.8
Kim, Dong-Soo – L1.35
Kim, Elissa – GH.4
Kim, Euiyoung – RJ.2
Kim, Gwi Taek – QX.9
Kim, Hae Koo – GL.5
Kim, Ho-Young – CK.1, GW.9
Kim, Hyungjun – GY.9
Kim, Jeonglae – EK.3
Kim, Jihoon – AR.5, AR.7, QP.10
Kim, Jiyoung – AR.7
Kim, John – QR.3
Kim, Jung Chul – GW.9
Kim, Kyoungyoun – MF.7
Kim, Lina – GZ.6
Kim, MinJun – EP.8, EQ.9, HM.3, LT.4, QP.10,
RS.5
Kim, Myeongsub – QW.4, QW.6
Kim, Pilnam – LZ.6, QF.8, QY.5
Kim, Seung-Gon – EF.4
Kim, Sohae – MT.3
Kim, Tae Jin – CM.3, ER.10, HU.2, HU.3
Kim, Wonjung – CL.4
Kim, Wonkyoung – HP.9
Kim, Y.J. – QR.7
Kimball, J.T. – EY.4
Kimball, Jeramy – RH.4
Kimball, Richard – CX.5
Kimura, Yoshifumi – MH.9
Kindler, Kolja – EG.2
Kinefuchi, Ikuya – QR.10, RC.5, RC.6
King, Benjamin – AG.6
King, Eric – LH.6
King, Hubert E. – GK.8
King, Nicole – QK.4
King-Smith, P.E. – AL.9
Kingsbury, Mark – QU.5
Kinzel, Matthias – MW.6
Kinzel, Michael – CE.10, EC.9
Kirk, Harold G. – MZ.4
Kirkman, Richard – LB.5
Kirkman-Brown, J. – LQ.1
Kirn, Adrian – HZ.7, HZ.8
Kishore, Monica – AV.9
Kit, Eliezer – HG.1
Kitamura, Keiichi – MX.5
Kizzee, J. – MJ.1
Kjeldsen, Morten – CJ.10
Klein, Simon – CA.7
Klein, Steven – MM.4
Klentzman, Jill – AE.9
Klewicki, Joseph – GB.5, LB.3, LE.3, MB.1,
MB.6, MB.7, QB.1
Knaepen, Bernard – MY.6
Knobloch, Edgar – AY.8, CH.1, LG.9
Knudsen, Edward – LU.1
Ko, Jin Hwan – HT.4
Koblitz, Tilman – LH.3
Koch, Donald – HV.2, MV.8
Koch, Trystan – AV.6
Kodger, Tom – AV.3
Koehl, M.A.R. – AQ.3, QK.4
Koehl, Mimi – MQ.6
Koehler, Stephan – LQ.7, RN.1
Koeksoy, Cagatay – ME.5
Kohno, Haruhiko – GD.3
Kok, Maarten – LY.8
Kolinski, John – AY.4
Kolkka, Robert – RH.4
Kolomenskiy, Dmitry – LT.6
Komatsu, Taiga – AP.10
Komori, Satoru – MX.9
Kondic, Lou – GY.2, L1.19, L1.25, L1.43,
QN.1, QY.2
Konno, Akihisa – L1.44, MX.10
Koo, Heeseok – MU.5, QR.4
Koochesfahani, Manoochehr – EM.10, LX.9,
MP.10, QW.9
Kooij, Stefan – ES.3
Koplik, Joel – EP.9, HM.2, L1.38
Koracin, Darko – GG.8
Korkischko, Ivan – L1.28
Kotesovec, Bernhard – RX.5
Koumoutsakos, Petros – AN.1, AN.2, AN.3,
CD.4, CD.7
Kowalski, William – ML.8
KR, Sreenivas – LH.7
Kramar, Miroslav – QN.1
Kramer, Richard – GD.4, GD.10
Krane, Michael – AL.1, AL.4, AL.5, AL.6, EN.3,
MW.4
Krasnopolskaya, Tatyana – CK.7
Krasnov, Dmitri – MY.4
Krasnov, Dmitry – HA.3
Krasny, Robert – AN.4
Krawczynski, Jean-Francois – EC.3
Kraynik, A.M. – LR.8, LR.9
Krechetnikov, Rouslan – HS.2, HW.6, HW.7
Kree, Mihkel – AA.10
Kreft Pearce, Jennifer – L1.20, RN.7
Kretzschmar, Ilona – HM.2, L1.38
Kreutzer, Michiel T. – GM.1
Krieg, Mike – QT.7
Kristensen, Jesper – AP.7
Krueger, Paul S. – AN.7, QT.9
Krueger, Steven – MG.9
Ku, Hyeyun – MH.10
Kubiak, Krzysztof – GS.5
Kuczaj, A.K. – RU.1
Kudenatti, Ramesh – GL.1
Kudo, Jun – LC.10
Kuehn, Kerry – EN.9
Kuerten, Hans – RU.1
Kuester, Matthew – LJ.4
Kuesters, A. – AG.4, QG.8
Kuhlmann, Hendrik – AV.1, EY.6, HZ.3
Kuik, Dirk-Jan – HZ.1
Kulkarni, Pandurang – EP.1
Kulla, Elejdis – EM.3
Kumar, Aloke – HP.5
Kumar, Amit – LK.10, QU.7
Kumar, Bipin – CA.5
Kumar, Chenthil – QU.7
Kumar, Gaurav – GA.7
Kumar, Haribalan – QP.9
Kumar, Pankaj – LF.7, QP.8
Kumar, Ranganathan – MJ.8, MS.4
Kumar, Sanjay – EW.8, EW.9, GF.3, LZ.8
Kumar, Satish – AK.5, AK.6, RX.4
Kumbur, E. Caglan – CF.10
Kuo, Chin-Cahng – RQ.4
Kurien, Susan – RG.5
Kurose, Ryoichi – MX.9
Kurtuldu, Huseyin – AH.3, AH.8
Kuzuu, Kazuto – MX.5
Kwon, Hyuk-min – ES.7, ES.10
Kwon, Jae-Sung – HM.1
Kwon, Ohjoon – RB.7
L
La Foy, Roderick – CA.6, LC.5, LC.8
Ladeinde, Foluso – MZ.4
Ladiges, Daniel – MX.1
Lagha, Maher – QR.3
Lagrange, Romain – QZ.1
Lagree, Pierre-Yves – L1.18
Lagubeau, Guillaume – HR.10
Lahey, Jr., Richard – AU.2
Lai, Alan – LX.6
Lai, Janice – CT.7
Lai, Lipeng – GQ.1, RQ.3
Laizet, Sylvain – AD.1, ED.3, LE.8
Lakkaraju, R. – L1.37
Lalande, Viviane – EQ.8
Lamb, Annesai – CT.6
Lammertink, Rob – HC.7
Lamriben, Cyril – QZ.4, QZ.9
Landel, J.R. – AG.4, LA.3
Lang, Amy – ET.2, ET.3, EZ.7, EZ.8, GF.6,
GF.8, HN.8, RT.6
Langley, Ken – QM.6
Lania, Katie T. – ME.6
Lantz, Steven – LV.6
Lanzerstorfer, Daniel – EY.6, HZ.3
Lapp, Natalie – GL.6
Larcheveque, Lionel – HX.5, HX.6
Lardeau, Sylvain – LE.8
Larios, Adam – RA.4
Laroze, David – HH.8
Larson, Mary – ET.8
Larson, Ronald – LQ.5
Larsson, Johan – AW.7, HF.4, HF.5, MC.3,
MD.5
Lasheras, Juan – CS.7, CT.7, QK.3, QL.5, RZ.3
Lathrop, Daniel – EZ.2, EZ.3, EZ.5, EZ.6,
MN.2, MN.3, MN.4, MN.5
Latorre, Leonardo – L1.16
Latt, Jonas – ML.3
Latterman, Paul – AV.6
Lauder, George – AQ.4
Lauga, Eric – CQ.1, EQ.5, LQ.2, LQ.3, LQ.4,
LQ.10, MQ.2, MQ.4
Laurence, S.J. – MR.6
Laurence, Stuart – MR.5, RW.3
Laurienti, Joseph – GF.2
Laval, Jean-Philippe – MA.8
Lavely, Adam – CE.10, EC.9
Lavenson, David – RV.4
Lavezzo, Valentina – HH.1
Lavoie, Philippe – QJ.6, QJ.7
Lavrenteva, Olga – QF.3
Lawson, Michael – RS.6
Layman, Christopher – MJ.7
Le, Brian – AV.6
Le, Duc Vinh – GP.2
Le, Trung – ML.1
Le, Tuyen Quang – HT.4, LT.4
Le Bars, Michael – LH.8, LH.9, LH.10, QH.8,
QZ.6, QZ.7
Le Dizes, Stephane – GE.9, HG.6, HG.9,
LH.8, QH.8
Le Gal, Patrice – LH.8, LH.9, LH.10, QZ.7
Le Merrer, Marrie – CK.2
Leal, L. Gary – EP.1, ER.6
Lebon, Luc – RM.5
Lebovitz, Norman – GZ.3
Lebron, Jose – QX.4
Lecuyer, Sigolene – LY.4
Ledesma, Rene – RS.3
Lee, Aaron – CV.9
Lee, Angela – QK.1
Lee, Changhoon – GG.5, MS.6, RB.1, RB.3,
RB.7
Lee, Chung-min – L1.45, RB.8
Lee, Dalsoo – AZ.1
Lee, Dong Woog – CR.5
Lee, Dong-Hyun – HA.2
Lee, Duck-Gyu – CK.1
Lee, Hyungoo – MV.7
Lee, Hyunsun – EK.5
Lee, Injae – HD.7
Lee, Inwon – CJ.8
Lee, Jae Hwa – EB.8
Lee, Jian-Jhih – EX.10
Lee, Jinkee – CL.3, EM.3
112
Lee, Jonathan – EP.3
Lee, Jun Hee – HM.3
Lee, Junghoon – RB.3
Lee, Jungil – GF.5, LD.7
Lee, Kyongjun – GF.7
Lee, Kyung Heon – L1.36
Lee, S.H. Sophia – GS.10
Lee, Sang – EQ.6
Lee, Sang Joon – CL.1, EF.4, GL.5, GL.10,
GM.9, LC.9
Lee, Sang Soo – AG.8
Lee, Sanghyun – CR.2, CR.3, CS.2, GP.8,
QX.2
Lee, Seung Joon – L1.34, LP.10
Lee, Seung Jun – CR.2, CR.3
Lee, Seung-Hyun – L1.35, L1.36
Lee, Seungwoo – L1.35
Lee, Shernita – GL.7
Lee, Sungyon – GM.2, GP.10
Lee, Taik-Min – L1.35
Lee, Wah Keat – LC.8
Lee, Wingki – GR.3
Lee, Wonhee – HM.8
Lee, You Seop – QX.2
Leftwich, Megan – RT.1
Leggett, Jason P. – MW.1
LeHew, Jeffrey A. – LB.8
Lei, Huan – LK.5
Lei, Y.C. – MW.5
Leibenguth, Chase – EZ.8
Leidy, Chad – RK.7
Leighton, Richard – GB.8
Lele, Sanjiva – AW.7, EK.6, EK.10, EW.6,
GG.7, HF.4, HF.5, MC.3, MC.4, MD.5
Leng, Lian – LP.9
Leonard, Anthony – AN.1
Leonardi, Stefano – ED.1
Leong, Chia – GJ.6, RT.8
Leotta, Daniel – HL.5
Lepore, Jason – RA.1
Lequeux, Francois – CS.9
Leroux, Alphonse – AZ.2
Leroux, Karine – HG.10
Leshansky, Alexander – LQ.6, LR.6, QK.8
Lesshafft, Lutz – GE.5
Leung, Chung Yin – MF.2
Levine, Alex – MK.6
Levy, Rachel – GW.5
Lewalle, Jacques – HJ.1
Lewandowski, Eric – HW.9
Lewis, Steven – HS.7
Leyva, I.A. – QR.6
Lhuissier, Henri – QM.4
Li, Chang-Feng – EC.7, RB.4
Li, Chen – RN.4
Li, ChungGang – MD.3
Li, David – QE.9
Li, Fei – ME.6
Li, Huan – GY.1
Li, Jianbo – MK.10
Li, Jiang – GR.9
Li, Julie – QK.3
Li, Kai – MH.8
Li, Ke – AG.7
Li, Ligang – QZ.5
Li, Ling – GH.2
Li, Ning – AD.1
Li, Xiaoyi – EU.2
Li, Yeng-Chin – LM.7
Li, Zhaorui – HX.8
Li, Zhen – LS.10
Li, Zhenzhen – AK.1, LZ.6
Li, Zhigang – CP.1
Liang, Junhong – GQ.10
Liang, Litao – AM.8
Liang, X. – RX.2
Liang, Xiangdong – LZ.7
Liang, Zongxian – LT.5
Liangruksa, Monrudee – QL.7
Liao, Stephen – QK.1
Lieu, Binh K. – HJ.8
Lignell, David – QH.5
Ligocki, Terry – MY.2
Likhatchev, Oleg – EW.1
Likhtman, Alexei – GW.4
Lilley, Charles – MX.1
Lim, Jin-Myeong – AM.5
Lim, K.M. – HQ.3
Lim, Tee Tai – EN.2
Limat, Laurent – AK.7, CS.9, RM.1, RM.5
Limon, Caleb – CS.10
Lin, Ching-Long – EL.1, QP.9
Lin, Hao – MK.10, RK.8
Lin, Joyce – HC.1
Lin, Te-Sheng – GY.2, L1.25
Lin, Wei – LM.4
Lin, Weiyi – ME.7
Lin, Yuncheng – CZ.9
Lin, Zhi – CQ.2, GC.8, GC.9
Linan, Amable – CS.7
Lindau, Jules – CE.10
Linden, Paul – MH.2, QG.1
Lindsey, Thomas – ML.9
Ling, Yue – EV.7
Linkes, Marion – RS.4
Linnartz, Erik – LY.8
Lipinski, Doug – HG.4
Lira, Sergio – AY.1
Lister, John – LY.3, LY.9
Little, Jesse – QJ.2
Liu, Bo – EG.2
Liu, Chong – CP.1
Liu, F. – LJ.8, LX.6, MJ.6, MX.4
Liu, Hao – LK.3
Liu, J. – MK.8
Liu, J.T.C. – CP.7
Liu, Jianfeng – AC.6
Liu, Jin – MK.4
Liu, Jun – GU.7
Liu, Junhui – EK.1, MR.10
Liu, K. – ED.7
Liu, Nan – EY.5
Liu, Qianlong – EF.7
Liu, Ren – HS.3
Liu, X. – CZ.5, CZ.6
Liu, Xiaofeng – LE.10, RD.6
Liu, Xinan – HS.3
Liu, Ya – MX.4
Liu, Yaling – CP.8
Liu, Yu – AP.1, HY.4
Liu, Yunqiao – GQ.5
Livescu, Daniel – AW.2, AW.4, AW.5, CW.8
Llewellyn Smith, Stefan – GN.5, GV.7, MD.4,
QG.3
Lo, Kin Pong – HJ.5
Lo Jacono, David – CH.1
Lochman, Bryan – MR.3
Lodato, Guido – CD.3
Lohse, Detlef – AH.6, AU.5, AU.6, AU.7, CH.9,
CH.10, CS.4, EH.6, EP.6, GH.7, GM.3,
GQ.3, GQ.7, GR.1, GR.6, HC.7, HK.6,
HK.7, HQ.10, L1.37, LY.8, MZ.8, MZ.9,
MZ.10, QZ.3
Loken, Gregory – LS.7
Lombardi, Andrew – CJ.1
Lombardini, M. – CW.6
Long, Christopher – QL.3
Longmire, Ellen – GS.1, HB.7, HB.8, LB.9, RL.4
Loosmore, Gwen – GD.10
Lopes Filho, Milton – GC.2
Lopez, Juan – CE.9, EL.2, HZ.5, LW.4, MK.9
Lopez, Miguel – EZ.9, GH.6
Lopez, Omar – GJ.8
Lopez Sanchez, Erick Javier – L1.15
Loquet, Boris – CS.3
Losert, Wolfgang – L1.19
Lotz, Daniel – HL.7
Lou, Jing – EN.2, LR.4, MS.1
Louvet, Nicolas – RF.6
Low, Kerwin – HJ.1, HJ.2
Lozano-Duran, Adrian – EB.3
Lu, Donglai – GM.7
Lu, Jiacai – CU.10
Lu, Jiang – CV.8
Lu, Kevin – CT.4
Lu, Xi-Yun – GT.4, MT.2
Lu, Zhanbin – QU.2
Lucci, F. – EV.4
Lucena, John – ED.1
Luchini, Paolo – AJ.3
Luckham, Paul – CY.8
Lueptow, Richard – EZ.4, GK.9, QN.3
Lukasser, Michael – EY.6
Lukens, Sarah – QF.1
Lukyanov, Alex – GW.4
Luo, Haoxiang – CU.8, EM.9, GT.4, GT.5, MT.2
Luo, Shijun – MX.4
Lushi, Enkeleida – QS.2
Lutfurakhmanov, Artur – LS.7
Luviano, Jose Luis – EF.2
Luzzatto-Fegiz, P. – GN.6
M
Ma, Chen – HW.8
Ma, Dong-Jun – QM.2
Ma, Ruolong – LJ.6
Ma, Xia – GU.9, GU.10
Maas, Leo – L1.49
Mabbott, Benjamin – LP.2
Mach, Albert – GP.9
Machrafi, Hatim – AE.8
Mackenzie, Nicholas – MX.1
Mackowski, A. – HN.3
MacMinn, Christopher – AF.7, AF.9
Macosko, Christopher W. – RX.4
Madnia, Cyrus – GX.5
Madruga, Santiago – GY.10
Madsen, Joseph – RL.5, RL.6
Maganudet, Jacques – QG.6
Magill, G.R. – QV.7
Magin, Thierry – CE.3
Mahadevan, L. – AF.2, AL.7, AY.4, RU.7
Mahajan, Priyanka – LT.2
Mahesh, Krishnan – AD.6, AU.3, HX.9, LD.3,
LD.5, MC.5, QR.5
Majestrelli, Jeff – RC.4
Majmudar, Trushant – CT.1, CT.2
Mak, H.M. – CM.2
Maki, Kara – MF.10
Makiharju, Simo – HU.1, LB.4
Maladen, Ryan D. – CT.9
Malaya, Nicholas – HG.5
Maldarelli, Charles – ER.9, HM.2
Maldonado, V. – MB.9
Malhotra, C.P. – GW.7
Malijewsky, Alexandr – AP.2
Malouin, Bernard – GW.6
Mancho, Ana M. – LF.2
Mandre, Shreyas – AL.7, AY.4, RU.7
Manela, Avshalom – EM.7, LJ.3
Mani, Ali – EA.5, MM.1
Mani, Madhav – HW.10
Maniyeri, Ranjith – EQ.9
Manneville, Sebastien – RN.3
Manoharan, Vinothan – HW.10
Mantzaras, John – QA.7
Mao, Wenbin – EY.8, GP.5
Marais, Catherine – GT.9
Marchand, Antonin – EP.6
Marchand, M. – ER.2
Marchioli, Cristian – CV.1, EH.2, GV.5
Marcus, Philip – CN.6, CN.7, CV.9, CZ.4,
HG.2, LH.10, RG.2
Marder, Michael – AG.6
Marenduzzo, Davide – RF.8
Marin, Alvaro G. – CS.4, GM.3
Markicevic, B. – CF.6, CF.7
Marmottant, Philippe – CL.2
Marques, Alexandre – GD.2
Marques, Francisco – CE.9, HZ.5
Marquet, Olivier – AE.2
Marquez, Eloy N. – AX.4
Marr, David – QE.7
Marriner, Dylan – QP.2, QP.6
Marron, David – L1.2
Marsden, Alison – EL.4, GL.4, ML.7, QL.1,
QL.2, QL.3
Marston, Jeremy – HK.8
Martel, Carlos – L1.22, LB.1
Martel, Sylvain – EQ.8
Martin, Graham D. – GR.2, L1.11
Martin, Jerome – EH.3, MV.6
Martin, Juan – L1.22
Martin, Juan Angel – LB.1
Martin, Pino – AB.9, ED.8, HX.7, MC.2, MC.6
Martinand, Denis – EZ.4
Martinat, Guillaume – EG.3
Martindale, James – L1.2, LY.6
Martinez, Simon – GH.5
Martinez Mercado, Julian – AU.5, AU.6
Martinez Schramm, Jan – RW.3
113
Martinez-Bazan, C. – EN.8, HE.5, RQ.7
Martinez-Legazpi, Pablo – RZ.3
Martinez-Mardones, Javier – HH.8
Martins Afonso, Marco – GV.1
Marugan-Cruz, Carolina – EN.8
Marusic, I. – GE.10
Marusic, Ivan – AB.2, EB.2, LB.6, MA.9
Maruyama, Shigeo – RC.5
Marvi, Hamidreza – CT.8
Marxen, Olaf – CE.2, CE.3
Masoud, Hassan – EM.2, GT.6
Massa, Luca – LE.2
Masselon, Chloe – RF.6
Masselter, Tom – CL.2
Massot, Marc – AU.10
Mata, Matthew – GY.7
Matalon, Moshe – QU.3, QU.9
Matar, Omar – AY.2, AY.3, AY.5, AY.6, AY.10,
CY.3, CY.5, CY.6, CY.7, CY.8, EP.7, RH.5
Matheou, Georgios – GG.4, MD.6
Mathew, Joseph – QJ.3
Mathis, Romain – AB.2, EB.2
Mathur, Manikandan – AG.9
Mati, Nicholas – GJ.9
Matlis, Eric – CE.1, CJ.1, RW.2
Matsudiara, Paul – CL.5
Matsumoto, Kazuma – RB.5
Matsumoto, Yoichiro – AP.10, GQ.5, GU.8,
HP.2, LR.5, QR.10, RC.5, RC.6
Matsuo, Yuichi – HF.7
Mattson, Christopher – HT.1
Mattson, Michael – AU.3
Matune, Nicholas – LP.2
Matusik, Katarzyna – QG.3
Maubert, Pierre – LH.9
Maurdev, George – HC.4
Maurel, Agnes – HR.10
Maurer, Benjamin – QG.1
Mavromoustaki, Aliki – AY.5
Maxeiner, Eric – AZ.5
Maxey, Martin R. – MV.9
Maxwell, Brian McN. – LU.3
Mayer, Hans C. – HW.7
Maynes, Daniel – CM.6, HS.4, LW.3, MB.6,
QX.10
Mazumdar, Anirban – LP.7
Mazurenko, Anton – QF.4
Mazzino, Andrea – GV.1
McCarthy, Matthew – ES.8
McCarthy, Michael – RV.4
McCoy, Jonathan – MV.4
McDermott, Randall – GD.9
McDonald, K.R. – EZ.1, L1.33
McDonald, Kirk T. – MZ.4
McDonell, Vince – QA.2
McDonough, J.M. – AC.8
McElwaine, Jim – RN.3
McErlean, Michael – EN.3
McGah, Patrick – HL.5
Mcgorty, Ryan – HW.10
Mcgough, Patrick – GS.7, GS.8
McHugh, John – HG.7
McIntyre, Alan – GY.6
McKeon, Beverley – CB.4, CB.10, EC.5, GC.6,
LB.8, QB.10
McLaughlin, John – GV.10
McLaughlin, Richard – GC.4, GC.5, HC.1,
L1.2, LY.6, RG.3
McLaughlin, Thomas – RZ.4
McLaughlin, Tom – RJ.1
McLaury, Brenton – QV.10
McLeod, Euan – AP.1, HY.4
McMahon, Eileen – HT.8
McMillan, Justine – QG.2
McNeill, James – QE.6
McPhail, Michael – MW.4
McQuilling, Mark – MB.5
McWilliams, James – GQ.10
Medina, A. – HC.2
Medina, Abraham – GH.5
Medina, Albert – GT.7
Medina, Ana – HL.7
Mehandia, Vishwajeet – HK.1
Mehdi, Faraz – GB.5
Mehmedagic, Igbal – RD.2
Mehrabadi, Mohammad – EV.1
Mehrabian, Hadi – HW.4
Mehrjoo, Navid – QC.7
Meiburg, Eckart – CG.4, LG.5, LG.6, LH.3, RY.7
Meier, John – LC.3
Meier, Steven W. – GK.8
Meijer, Han – LM.5
Meinhart, Carl – AM.9, L1.34, LP.1, LP.10
Meiron, D.I. – CW.6
Mejia-Alvarez, R. – GB.6
Melchionna, Simone – ML.3, ML.6
Meleshko, Viatcheslav – CK.7, MP.2
Meliga, Philippe – CN.8, HE.9, HE.10
Mellado, Juan Pedro – MG.7
Mellibovsky, Fernando – GZ.7
Melnikov, Denis – CV.2, RM.2
Mendez-Diaz, Santos – HU.10
Mendoza, Carolina – LF.2
Meneghini, Julio R. – HZ.6, L1.28
Meneveau, Charles – GA.1, GB.3, GG.2, GG.3,
HF.9, MB.9, MB.10, QD.2, QD.5, QX.4
Menon Gopalakrishna, Prahlad – ML.8
Merrifield, Sophia – LA.4
Mertens, Keith – GC.4
Mertz, Benjamin – QJ.1
Meseguer, Alvaro – HZ.5
Messinger, Robert – AM.2
Mesuro, Samantha – AV.6
Metwally, Mohamed – ME.4
Metzger, Bloen – MV.5
Metzger, Meredith – CM.1, LB.5
Meunier, Patrice – HG.9, QZ.1, QZ.6
Meyers, Johan – QD.5
Michel, Nicolas – QS.3
Michelin, Sebastien – EQ.5, QX.7
Migliavacca, Francesco – GL.4
Mikellides, Ioannis – HV.7
Mikhailov, Alexander – CQ.6
Miki, Hideyuki – RJ.4
Mikishev, Alexander – CY.10
Miklasz, Kevin – LT.8
Miksis, Michael – RK.1, RK.6, RL.3
Milan, P. – GC.3
Milano, Michele – HT.8
Miller, Anna – HC.1
Miller, Laura – AX.5, RS.1
Millet, Christophe – GE.9, HG.6, MR.4
Milliken, William – GC.4
Mills, Zack – LW.7
Min, D. – GB.4
Minev, Peter – HD.5
Minguez, Matthieu – HE.7
Mininni, P. – MD.7
Miranda, Jose – AY.1, QY.1
Miranda, Montserrat – MY.1
Mirzadeh, Mohammad – LM.10
Misbah, Chaouqi – LL.4, RK.5
Mischaikow, Konstantin – AH.3, AH.8, QN.1
Mishra, Ananda – CC.2
Mishra, M. – CF.4
Mitchell, Daniel – MW.9
Mitchell, Radford – MP.4
Mitchell, T.C. – AC.8
Mitra, D. – RB.6
Mittal, Rajat – QL.4
Miyamae, Hiroki – HQ.4
Miyamoto, Kensueke – QW.8
Miyano, Takaya – HH.9
Miyauchi, Toshio – LV.1, LV.2
Miyazaki, Ryoji – HP.2
Miyazaki, Takeshi – QW.8
Miyoshi, Nobuya – QR.10
Mizobuchi, Yasuhiro – HF.7
Mizunuma, Hiroshi – L1.12
Mizushima, Yuki – QQ.4
Mlakar, Paul F. – CP.5
Mlot, Nathan – LW.6
Moarref, Rashad – HJ.8
Moayedian, Shahab – QX.3
Modarres-Sadeghi, Yahya – HN.1, MT.9
Modest, M.F. – LV.5
Moehlis, Jeff – GZ.6
Moeller, Matthew – EN.9
Moffatt, Keith – LT.6
Mohammadi, M. – LY.7
Mohammadi, Mohammad – CX.1
Mohseni, Kamran – CD.8, EX.6, GJ.5, GX.2,
HG.4, L1.5, QT.7
Moin, Parviz – AC.4, AE.1, EB.5, EB.6, EB.7,
EU.8, GX.3, LD.6, LD.7
Moise, Pradeep – QJ.3
Moisy, Frederic – QZ.4, QZ.9
Molin, Dafne – QA.5
Molina, Alberto – MG.8
Molki, Majid – L1.26
Monkewitz, Peter A. – CB.2, QW.10
Monnier, Bruno – GG.10
Monthioux, Marc – LS.4
Montourcy, Adrien – MM.8
Montroy, Sydney – QH.6
Monty, Jason – LB.6, MA.9
Moon, Dustin – GR.5
Moore, Matthew – RG.3
Moore, Nick – GC.4
Moradi, Mehrnoosh – AR.2
Morales, Fernando – GV.8
Moran, Jeffrey – AM.6
Morchain, Jerome – RS.4
Morgan, Brandon – HF.4, HF.5, MC.4
Morgan, Jenahvive – RS.2
Morgan, K. – QC.8
Morgan, Robert – EW.2
Moriarty, Patrick – EC.9
Morikone, Michael – GV.7
Morita, Katsuaki – L1.44, MX.10
Morize, Cyprien – QH.8, QZ.7
Morozovsky, Nicholas – RJ.5
Morrill-Winter, Caleb – QB.1
Morris, Jeff – MV.1
Morris, Jeffrey – MV.6, RV.3
Morris, Scott – LJ.6
Morris, Stephen – CS.6, RN.3
Morrison, P.J. – GN.2
Morton, Chris – LN.3
Morzynski, Marek – AJ.2
Moser, Robert – CC.9, EB.4, EC.8, GJ.8,
HG.5, QB.9, RX.8
Moskovits, Martin – L1.34, LP.10
Mostaghimi, Javad – CU.7
Motosuke, Masahiro – MM.2
Mott, David – QP.4
Motta, Philip – RT.6
Moukhtar, Julien – RM.1
Moureau, Vincent – CU.2
Moutou, Claire – LH.9
Moxey, David – HZ.2
Mudde, Rob F. – HK.6
Mueller, James – AG.10
Mueller, M.E. – LU.10
Mueller, Michael – LU.9
Mujica, Nicolas – CZ.2, HK.4, QN.2
Mukherjee, Aryesh – AL.7
Mukherjee, Partha – HP.5
Mukherji, Suchi Subhra – QX.1
Mukhopadhyay, Shomeek – L1.43
Mukut, A.N.M. Mominul Islam – L1.12
Mulinti, Rahul – GU.1
Mullin, Tom – QZ.3
Munday, David – EK.1
Mungal, M. Godfrey – MR.9
Munson, Matthew – CJ.5
Muppidi, Suman – HX.9, QR.5
Muradoglu, Metin – GW.2
Muralidhar, Pranesh – LN.10
Muralidharan, K. – EJ.9
Murata, Akira – RJ.4
Murisic, Nebojsa – AV.6, AV.7, L1.43
Murphree, Zach – MR.3
Murphy, D.W. – MQ.8
Murray, Mark – HC.6
Murray, Nathan – LJ.9
Musacchio, Stefano – RA.7
Musta, Mustafa N. – AN.7
Muthuraman, Karthik Mahadevan – AW.6
Mutnuri, L.A.Raghu – CW.10
Muto, Masaya – MB.4
Muzykantov, V.R. – MK.4
Mychkovsky, Alexander – RU.4
Mydlarski, Laurent – CA.3, CA.4, GA.2, RA.1
Myftiu, Eglind – QF.8
Myong, Rho Shin – RC.7
Myrtroeen, Ole Joergen – QG.7
114
N
Nadal, Francois – QZ.1
Naderi, Shadi – GR.10
Nadim, Ali – QP.2, QP.6
Nagano, Naohiro – GU.8
Nagatsu, Yuichiro – HV.9, QY.6, RY.5
Nagel, Sidney – GS.3, HS.1, RU.3
Nagendra Prakash, Vivek – AU.5, AU.6
Nagib, Hassan – AB.1, CB.2
Naguib, Ahmed – LX.9, QJ.6, QJ.7, QW.9
Naiman, Alexander – GG.7
Naito, Hiroshi – AJ.7
Najjar, Fady – GU.3
Nakao, Keisuke – RW.5
Nakashima, Takuji – LX.2
Nakayama, Akihiko – MD.2
Nakayama, Toshio – RL.7
Nam, Kwon-Ho – GL.10
Nam, Sungwon – QP.10
Nandigana, Vishal V.R. – HP.3
Naqavi, Iftekhar – GV.8
Narasimha, Roddam – LE.4, MG.6
Narayanan, Ranga – LZ.9
Narayanaswamy, Venkat – LV.4, MR.3
Nardin, Jean--Charles – QQ.5
Narendranath, Aneet – RH.4
Narezo, Daniela – AU.7, MZ.10
Nasr, Hojjat – GV.10
Nasr-Azadani, Mohamad – LG.5
Naughton, Jonathan – CX.6, GE.7
Navaz, H.K. – CF.6, CF.7
Nave, Jean-Christophe – CD.1, GD.2, GD.3,
LZ.7, RX.2
Nawroth, Janna – RT.7
Nayeri, Christian Navid – GE.8
Nazockdast, Ehssan – MV.1
Nedelec, Renaud – MG.5
Nedic, J. – LJ.5
Negretti, M. Eletta – RG.6
Nehe, Rohit – MP.10
Neiswander, Brian – RW.2
Neitzel, G. Paul – ER.4, HR.3
Nelson, Brent – QF.4
Nelson, David – GA.10
Nelson, Robert – QJ.9
Nepomnyashchy, Alexander – CY.10, EY.3,
EY.7
Nery, Sheryll – RQ.4
Neufeld, Jerome – AF.5, AF.6, AF.7, LY.9
Neukirch, Sebastien – HR.1, HW.1
Newman, Marshall – RG.3
Newport, David – EH.9
Newton, Paul – GN.4, QK.1
Ng, C.O. – CM.2
Ng, Chin Hei – MX.8
Ng, Hoi Dick – AX.8, AX.10, CZ.1, HT.9
Ngo, Sandrine – EQ.4, LM.3
Nguyen, H.D. – HY.7
Nguyen, Khuong – EC.2
Nguyen, Tran – QL.5
Nguyen, Vu Dat – AR.7, AR.8, AR.9
Nguyen van yen, Romain – AB.3, QB.2
Ni, Rui – CH.4, HH.2
Nichols, Joseph – EK.6, GE.4, HF.4, HF.5
Nickels, Timothy – HB.9, HF.8, LC.6
Nicolas, Maxime – RV.1
Niebel, Casandra – EN.5
Niemela, Joseph – AH.5
Niessner, Jennifer – CF.1
Nigam, Mats – QX.8
Nigam, Vishal – QL.5
Nik, Mehdi B. – GX.5
Nilsson, Michael – ES.5
Nir, Avinoam – QF.3
Nishiura, Yasumasa – HH.7
Nitsche, Monika – GR.10, L1.46
Njante, Jean-Pierre – CS.6
Noack, Bernd – AJ.2, GE.8
Noblin, Xavier – ER.8
Noca, Flavio – ET.5
Noel, Clemens – MR.3
Noh, Jihoon – CR.4, L1.8
Noir, Jerome – EH.7
Nold, Andreas – AP.2
Nomura, Keiko – LH.5
Nong, Kumnit – AL.8
Norbert, Peters – GA.5
Nordsiek, Hansen – CV.8
Norwich, Gerard – QK.3
Nott, Prabhu – HK.1, RV.5
Nouzawa, Takahide – LX.2
Nowak, Morgan – RL.7
Nozawa, Kojiro – MD.1
Nudurupati, Sai – CR.9
Nuijens, Louise – GG.4
Null, Jordan – MB.5
Nunez, Jose – GH.6
Nunos, Marta – LX.7
Nur, Soojung Claire – AV.8
O
O’Farrell, Clara – EN.1
O’Hern, Corey – L1.19, QN.1
O’Hern, Timothy – QM.3, RM.3
O’Loughlin, Vanora – EN.4
O’Na’raigh, Lennon – CY.4
O’Shea, Thomas T. – CK.4, MH.7
O’Sullivan, John – QD.4
Oakes, Jessica – EL.4
Oakley, Jason – QC.9
Oberai, Assad – AC.6
Oberdick, Samuel D. – GQ.1
Oberlack, Martin – AB.3
Oberleithner, Kilian – GE.8
Obregon, Maria – CZ.3
Oerlue, Ramis – MA.6
Oertel, Herbert – LP.4
Ogasawara, Toshiyuki – HP.2
Ogrosky, Reed – QY.7
Oh, Sangho – AZ.1
Ohl, Claus-Dieter – HQ.10, QQ.10
Ohta, Makoto – RL.7
Okada, Yoshihiro – LX.2
Okamoto, Masayoshi – MY.3
Okamura, Tohru – LG.2
Okkels, Fridolin – LM.1, MM.7
Okulov, Valery – LN.5
Okumura, Ko – L1.9
Ol, Michael – EX.9
Olander, Jeffrey – QY.7
Olgac, Ufuk – GW.2
Oliveira, Rafael – AY.1, RY.7
Oliver, Todd – CC.9, EB.4, QB.9
Olla, Piero – GV.1
Olles, Joseph – LS.5
Olson, Britton – AW.7
Olson, David – LX.9
Olson, Sarah – LQ.9
Omidyeganeh, Mohammad – ED.5
Oncley, Steven – EC.2
Ondarcuhu, Thierry – LS.4
Ooi, A. – GE.10
Ooi, Andrew – MS.1
Oran, Elaine – GL.3, MU.7, QP.4, QU.1, QU.8
Orescanin, Mara – QK.6
Oresta, P. – L1.37
Orlandini, Enzo – RF.8
Orlicz, Gregory – CW.1, EW.3, EW.10
Oron, Alex – EY.8
Orr, Trevor – RG.8
Orrala, Carlos – CX.9
Orszag, Steven – HH.4
Ortega, Jason – LX.3
Ortiz, Sabine – LH.2
Ortiz De Zarate, Jose – EE.5
Ortiz-Duenas, Cecilia – HB.7, HB.8, LB.9
Oshima, Nobuyuki – MB.4
Oshnack, Mary Beth – MH.7
Osmer, Cody – HC.5
Osterday, Kathryn – QK.2, QK.3
Osterhout, Joshua – LS.9
Ostoich, Christopher – QR.1
Ostrovskyi, Vitalii – AN.5, GN.4
Ota, Keigo – HT.5
Otten, Dustin – QC.1
Ottino, Julio M. – GK.9, QN.3
Ou, Jia – GP.3
Ouellette, Nicholas – AV.9, AV.10, LA.4, LA.8,
LF.5
Overkamp, Jim V. – CH.10
Oweis, Ghanem F. – HB.2
Oyama, Toshiyuki – LR.5
Oyarte, Loreto – HK.4
Ozaki, Tatsuya – QW.7
Ozen, Cem – LX.8
Ozgokmen, Tamay – CG.3
P
Pacheco, Rafael – HZ.5, QH.3
Pacheco-Vazquez, Felipe – GK.4, HK.9
Pacheco-Vega, Arturo – L1.13
Paci, Alexandre – HG.10
Padilla, Angelina – QE.10
Padrino, Juan C. – GY.9
Paehtz, Thomas – HK.10
Pagneux, Vincent – HR.10
Pahlevan, Niema – ML.2
Paidoussis, Michael P. – AX.8, AX.10
Pak, On Shun – LQ.4
Pal, G. – LV.5
Palacci, Jeremie – RV.2
Palacios, Isabel – MK.5
Palacios, Rafael – CX.2
Palaniappan, D. – QZ.10
Palmore, John – HN.8
Palumbo, Daniel – GW.10
Pan, Lichao – QF.6
Pan, Tsorng-Whay – LK.9
Pan, Wenxiao – LK.1, LK.2, QM.9
Pan, Y.C. – EC.7
Panagakos, Grigorios – LM.1, LT.7, MM.7
Panda, Satyananda – EY.1
Pang, Zi – CX.2
Panta, Yogendra – LM.4, LP.2
Pantano, Carlos – AD.5, GD.4, GD.10, GQ.2
Paoletti, Matthew – PS.1
Paoletti, Matthew S. – EZ.2, MN.2
Paolucci, Samuel – HV.4
Papachristodoulou, Antonis – QB.10
Papageorgiou, Demetrios – AY.2, AY.3, AY.9
Papalexandris, Miltiadis – QN.4
Papamoschou, Dimitri – EK.7, EK.8, LJ.8
Papavassiliou, Dimitrios – QE.8
Paprocki, Daniel – GK.7
Park, Bi-O – MP.5
Park, G.I. – EB.5
Park, Hoon Cheol – LT.4
Park, Hoon Choel – HT.4
Park, I. – EB.6
Park, Jae Sung – LM.6
Park, Jun Kwon – LS.3
Park, Soo Hyung – HT.4
Park, Su Chan – RF.2
Park, Sun Hong – QX.9
Park, Sungsu – QP.10
Park, Yongnam – RB.1
Parmar, Manoj – EV.8
Parra Fabian, Ignacio – RM.7
Parsa, Shima – AV.9, AV.10
Parthiban, Pravien – GM.1
Parziale, N.J. – MR.6, QR.6
Paschereit, Christian Oliver – GE.8
Pasquetti, Richard – HE.6, HE.7
Passerini, Tiziano – RL.2
Pastuszko, Peter – QL.5
Patankar, Neelesh – ES.10, GW.3, MT.5, RT.2
Paterson, Eric – CE.10, EC.9, RS.6
Patnaik, B.S.V. – EJ.2, EJ.9
Patterson, Michael – QZ.5
Patwardhan, Saurabh – AB.5
Paul, Mark – AH.4, L1.6
Paul, Shirshendu – LR.1
Paulsen, Joseph – GS.3
Paustian, Joel – HP.7
Pavlovic, Pavlovic – CC.5
Pawar, Amar – HM.2
Pawar, Shashikant – GH.1
Paxson, Adam – ES.7, ES.9, ES.10
Peabody, Jason – LE.6
Peacock, Thomas – AG.9
Pearlstein, Arne J. – AJ.1
Pearson, John – HS.4
Pecnik, Rene – CC.6, GX.3, MU.3, QD.4
Pederzani, Jean-Noel – QT.2
Pedley, Timothy – GL.1
Pedrizzetti, Gianni – HN.7
Peguero, Charles – LB.2
Pei, Jie – AB.6
Pei, Suyang – CN.6, CN.7
Peinke, J. – GC.3, MG.1, QW.3
Pekkan, Kerem – ML.8
115
Pelesko, John – LW.5
Peng, Gaozhu – HY.9
Peng, Jifeng – EN.10, QT.1
Peng, Zhangli – LK.6
Peng, Zhizi – QK.7
Pennathur, Sumita – AP.7, AP.8, CP.2
Pepiot, Perrine – EV.5, GV.6
Peponas, Sarah – GL.2
Pepper, Rachel – CL.5, QE.4, QK.4
Peralta, S. – HC.2
Percier, Baptiste – RN.3
Pereira, Antonio – AP.2
Perez, Laura – HH.8
Perinet, Nicolas – AY.8
Perkins, Adam – AH.2
Perkins, Katherine – QE.4
Perlekar, P. – EU.6, GA.10, QA.5, RB.6, RB.8
Perlin, Marc – HB.2, HU.1, LB.4
Perret, Gaele – RG.7
Perrier, Pierre – RC.1
Peters, Amanda – ML.3
Peters, Ivo R. – GQ.7
Peters, John F. – CP.5
Peters, Norbert – EC.4, EU.4, GA.6, LV.3
Petersen, Mark – AW.4, AW.5, RA.4
Peterson, Ellen – GW.5
Peterson, Sean D. – AL.2
Petitjeans, Philippe – HR.10
Petropoulos, Peter – AY.9
Pettit, Donald – AK.2
Petz, Christoph – GE.8
Peyla, Philippe – EQ.1, QS.6
Pfister, Hanspeter – ML.6
Pham, Hieu – EG.7
Phillips, William R.C. – EG.9
Piedra, Saul – LR.2
Pignatel, Florent – RV.1
Pine, David – RV.6
Pinheiro, Aurelio – QL.4
Piomelli, Ugo – AA.2, AB.4, ED.5, GV.8
Piorek, Brian – L1.34, LP.1, LP.10
Piponniau, Sebastien – QR.8
Pirat, Christophe – HS.9, RM.5
Piroird, Keyvan – ER.3
Pirozzoli, Sergio – HF.4, HF.5
Pitois, Olivier – QQ.3
Pitsch, H. – CD.3, EU.4, LU.1, LU.9, LU.10,
MU.3, MU.6
Pitton, Enrico – CV.1
Pleiner, Harald – HH.8
Plesniak, Michael W. – AL.2, HL.2, HL.8
Plocher, Dennis – HC.8
Plucinski, Szymon – GX.1
Plummer, J.D. – CF.5
Podgorski, Thomas – GL.2
Podowski, Michael – AU.2, AU.4
Poelsema, Bene – ES.3
Pohlman, Nicholas – GK.7, GK.10
Pol, Suhas – CH.2
Policht, Veronica – L1.20, RN.7
Polin, Marco – QS.3
Pollock, Steven – QE.4
Poludnenko, Alexei – MU.7, QU.8
Poludnitsin, Anatoly – AH.10
Pommer, Chris – GR.4
Ponce, Suomi – QN.2
Ponomarenko, Alexandre – LW.1
Poon, Eric – MS.1
Pope, Stephen – CD.5, GX.5, LV.6, RB.2
Popinet, Stephane – L1.18
Popov, Pavel – CD.5, LV.6
Poppinga, Simon – CL.2
Portaro, Rocco – HT.9
Porter, Dan – GR.8
Posada, David – GW.6, MK.7, MK.9
Posner, Jonathan – AM.6, MM.4
Pottebaum, Tait – GF.1, GF.2
Potter, Brian – LV.10
Poulain, Cedric – QQ.5
Pouliquen, Olivier – GK.2, MV.3, RV.5
Poupardin, Adrien – RG.7
Pouquet, A. – MD.7
Pouya, Shahram – EM.10
Povitsky, Alex – CP.10
Powell, Robert – RV.4
Powers, Joseph – HV.4, MU.4
Prabhu, Anmiv – EP.8
Prabowo, Firdaus – QQ.10
Pradas, Marc – HY.5, MS.9
Pradhan, Pratik – QT.5
Prakash, Manu – CL.6
Prakash, Vivek N. – LH.7
Pralits, Jan – AE.2
Prasianakis, Nikolaos – QA.7
Prescott, A. – MA.3
Pressel, Kyle – MG.4
Prestridge, Katherine – EW.10
Prestridge, Kathy – CW.1, EW.3
Priebe, Stephan – ED.8, HX.7, MC.6
Priezjev, Nikolai – AP.4
Priyadarshana, Paththage – QB.1
Probst, Oliver – GF.3
Prosperetti, A. – EF.7, GQ.7, L1.37, LZ.3
Protas, Bartosz – AD.9, GN.7, RA.6, RM.8
Protiere, Suzie – LW.9, RY.3
Pruett, Brian – GU.2, LB.7
Puckett, James – HK.3
Puczylowski, Jaroslaw – QW.3
Pullin, D.I. – AB.10, CW.6, MB.2, MN.7, MU.8,
QC.6
Punckt, Christian – AM.1
Puri, Ishwar – QL.7
Pushkin, Dmitri – CV.2, RM.2
Puzinauskas, Paul – ME.10
Q
Qamar, Adnan – EL.8, MS.10
Qawasmeh, Bashar – AJ.4
Qi, Dewei – MV.8
Qi, Jia – EF.5
Qian, Bian – AK.10
Qian, Shizhi – AM.8
Qian, YueHong – GQ.6, RZ.6
Qiao, Rui – AP.9, HR.7
Qin, Mian – MY.9
Qin, Tong – AU.8
Qin, Tongran – GU.6
Qu, Ling – MH.8
Quach, Vien – AJ.5
Quan, Shaoping – LR.4, MS.1, MS.5
Queeckers, Patrick – HY.1
Quek, Raymond – GP.2
Quere, David – ER.3, LW.1
Quilliet, Catherine – CL.2
R
R’Honi, Yasmina – HV.10
Raben, Samuel – CA.6, LC.5
Rabin, S.M.E. – EE.1
Rack, Philip – QY.2
Radhakrishnan, R. – MK.4, MK.8
Radhakrishnan, Rangarajan – MF.9
Radovich, Charles – HC.9
Radtke, Gregg – EM.7, QC.2
Radulescu, Matei I. – GX.7, LU.3
Raessi, Mehdi – CU.7
Rafai, Salima – EQ.1, QS.6
Ragab, Saad – AU.8
Raghunandan, B.N. – GR.7
Raghunath, Sreekanth – LX.1
Rahai, Hamid – CX.9, EL.6, GE.2, QX.3
Raizen, David – CT.6
Rajchenbach, Jean – AZ.2
Rakoto-Andriantsilavo, Stephane – RZ.2
Rakotomalala, Nicole – EH.3
Ramachandran, Arun – ER.6
Ramachandran, Sanjiv – EC.10
Ramakrishnan, N. – MK.8
Ramakrishnan, T.S. – AF.1
Ramalingam, Santhosh – AR.10
Ramamurti, Ravi – EK.1, MR.10
Raman, Venkat – AC.3, HV.6, MR.1, MU.5,
QR.4
Ramananarivo, Sophie – HT.10
Ramaprabhu, Praveen – AW.6
Ramesh, O. – AB.5
Ramirez, Hugo – GH.5
Ramirez Cabrera, Manuel Alejandro – HH.6
Ramos, Eduardo – CH.5, CS.10, EF.2, GH.6,
GN.9, HH.6, LR.2, MN.9, MN.10
Rangasamy, Srinivethan – LX.1
Ranjan, Devesh – CW.2, QC.9
Ranjan, Reetesh – AD.5
Rao, Pradeep – QP.8
Rao, Ting – LD.4
Rapaka, Narsimha – RD.4
Rasquin, Michel – GJ.9
Rastegari, Amirreza – QA.1
Rastigeyev, Yevgeniy – MG.2
Rathfon, Jeremy – GM.5
Ravi, Krishna – GV.2
Ravindranath, Sandeep – HM.1
Ravinel, Baptiste – AA.7
Rawat, Pradeep – MC.1
Ray, Baidurja – CV.6
Ray, Chittaranjan – MJ.7
Ray, Pascal – HR.6
Rayz, Vitaliy – RL.1
Read, Peter L. – HG.8
Reasor, Daniel – LK.7, QV.9
Receveur, Mathieu – RM.1
Reckinger, Scott – AW.2
Reckinger, Shanon – AG.5
Reclari, Martino – CK.9, HQ.1
Reddy, V. Mohhan – QL.1
Redekopp, Larry – AZ.9, CZ.9
Rednikov, Alexey – AE.8, CW.4, HY.1, LS.2,
MJ.5, QY.8, QY.9
Reinaud, Jean Noel – LA.2
Reis, Pedro – AK.3
Rempfer, Dietmar – AD.7
Ren, Yan – LT.5
Ren, Zheng – ET.9
Renardy, Michael – QF.2
Renardy, Yuriko – GL.7, LR.6, MF.10
Renou, Bruno – EC.3
Renoult, Marie-Charlotte – HZ.9
Rethmel, Chris – QJ.2
Rey Suarez, Ivan – RK.7
Reyes, Dasia – CC.4
Rezazadeh, Soghra – L1.36
Rhoads, J. – CK.8
Rhodes, Dov – MS.8
Rhosko, A. – LE.5
Riaz, Amir – AF.6
Ribaudo, Anthony – EF.5
Riboux, Guillaume – LM.9
Richardson, Ed – LU.1
Richter, David – MF.6
Richter, Michael – AG.2
Riedinger, Xavier – HG.9
Riegler, Hans – LW.2
Riley, James – HG.5, HL.5, NS.1
Rinaldi, Carlos – QV.8
Rincon, Marina – CS.10
Rinderknecht, Derek – LC.3
Rinebold, Monte – RQ.6
Ringuette, Matthew – LT.2, QT.3
Riolfo, L.A. – RH.2
Rios-Perez, Carlos – EF.1
Riskin, Daniel – GT.3
Risso, Dino – QN.2
Ristenpart, W.D. – CR.6, CR.7, CR.8, EF.9,
QV.6, QV.7
Ristorcelli, J.R. – AA.5, AW.3
Ristorcelli, Ray – EW.3
Ristroph, Leif – ET.1
Rival, David – AN.8
Rivas, Nicolas – QN.2
Rivero, Michel – RW.1
Rivetti, Marco – HR.1
Rizzetta, Donald – LX.9
Roach, A. – MZ.6
Roberts, Jesse – HB.5
Roberts, John W. – EJ.3
Roberts, Michael – CW.3
Robinson, Alice – AX.5
Robinson, Brian – EM.6, MP.9
Roche, Matthieu – AK.1, HC.4, QF.8, QF.10
Rockefeller, Gabe – AW.6
Rockwell, D. – EX.4, LX.8
Rodebaugh, Gregory – AC.5
Rodenborn, Bruce – EG.4
Rodriguez, Daniel – HZ.4
Rodriguez-Rodriguez, Javier – CT.7, EN.8,
HL.7, QL.5, RZ.3
Roenby, Johan – LF.1
Roesgen, T. – MW.5
Rojas, Marcos – RC.1
Roll, Jesse – AX.1, AX.3
Rollin, Bertrand – CW.9
116
Romero, Ed – QM.3
Romero, L.A. – LR.8, LR.9
Romero Arteaga, Angelica – MN.8
Romick, Christopher – MU.4
Rondon, Loic – GK.2
Roper, Marcus – CL.5, QK.4
Roper, Steven – GY.6
Rorai, Cecilia – MN.5
Rosa, Bogdan – MG.8
Rosales, Rodolfo – GD.2
Rosales, Ruben – AD.3, CD.1, HG.3, RM.6
Rosenberg, Brian – EC.6
Rosenberg, D. – MD.7
Rosenblatt, Charles – HZ.9
Roshchenko, Andriy – HD.5
Rosner, Robert – LF.6
Ross, Edward – MX.1
Ross, Shane – CA.6, LF.7, MG.3
Rossi, Maurice – MY.4
Rossinelli, Diego – CD.4
Rossmann, Jenn – HL.6
Rostamimonjezi, Sara – EK.8
Rothamer, David – QC.9
Rother, Michael – MS.2
Rothstein, Jonathan – ES.4, ES.5, LN.9, LN.10
Rottman, James – AZ.8, LH.5, MH.6
Roussinova, Vesselina – ME.8
Rouvier, Sylvain – EC.1
Rowley, Clarence – AJ.9, AJ.10, EX.2, QJ.8
Roy, Dheeraj – HM.3
Roy, Shuvo – RC.4
Rubinstein, Robert – CC.3, HA.6
Rubinstein, Shmuel M. – AV.3, AY.4
Rubio, Antonio – MZ.3
Rubio, Daniel – ME.10
Ruedi, Jean-Daniel – QW.10
Ruiz Chavarria, Gerardo – L1.15
Ruiz-Suarez, J. Carlos – GK.4, HK.9
Rusak, Zvi – MA.4
Ruscher, Christopher – CX.3, CX.4
Rusconi, Roberto – LY.4
Rushkin, Ilia – QS.7
Ruyer-Quil, Christian – GY.4, GY.5
Ryan, Mitchell – HB.7, HB.8
Rycroft, Chris – CK.5, CK.6
Ryu, Jae Chun – HP.9
Ryu, Jaiyoung – EK.10
Ryu, Jeongeun – CS.2
Ryu, Kizen – RC.5
Ryu, Sangjin – CL.5
S
Saadat, Mehdi – ET.4
Saavedra, P. – ME.2
Sabo, Eric – LW.5
Sader, John – MX.1
Sadhal, Satwindar – MJ.5
Sadik, Mohamed M. – MK.10
Sadoughi, Amir – EL.2
Sadr, Reza – CP.9, GV.4, MX.7, QH.4
Saenz, Pedro – AY.6, RH.5
Saghafian, Amirreza – MU.6
Saha, Abhishek – MJ.8
Sahin, Mehmet – MF.4
Sahni, Onkar – GJ.9, RX.8
Sahoo, Dipankar – CB.5
Sahu, K.C. – QG.4
Sahu, Kirti – CY.3
Saikrishnan, Neelakantan – ML.5, QL.6
Saint-Jalmes, Arnaud – AK.1, HC.4
Saintillan, David – LM.6, QP.1, QS.4
Saita, Fernando – L1.24
Saito, Takayuki – QQ.4
Sakai, Takahiro – AZ.9
Sakakibara, Jun – LC.2
Sakaue, Hirotaka – L1.44, MX.10, QK.9,
QW.5, QW.7, QW.8
Salac, David – RK.6
Salari, Kambiz – LX.3
Salin, Dominique – EH.3
Salipante, Paul – AR.4
Sallstrom, Erik – AX.6
Saloner, David – RL.1
Salvetti, Maria Vittoria – GV.5
Samani, Maziar E. – ED.4
Samanta, Arghya – GY.4
Samanta, Arnab – EK.2
Sambath, Krishnaraj – AR.3
Samimy, Mo – QJ.2, QJ.5
Sampol, Jose – CS.3
Samtaney, Ravi – LD.4, MY.2
Samuelsen, Scott – QA.2
San, Omer – EM.4
Sanada, Toshiyuki – QQ.8
Sanchez, Fausto – GH.5
Sandham, Neil – HX.1
Sanfelippo, Daniel – EN.9
Sangalli, Laura – RL.2
Sanghi, Tarun – EP.5
Sanjuan-Galindo, Rene – HU.9
Sankaran, Sethuraman – QL.2
Sanmiguel-Rojas, E. – HE.5, RQ.7
Santangelo, Christian – LY.5
Santhanakrishnan, Arvind – AX.5, RS.1
Santillana, Mauricio – MG.2
Saric, William – AE.6, CE.4
Sarkar, Kausik – HL.1, LR.1, MF.5, MS.3
Sarkar, Partha – LN.8
Sarkar, Sutanu – EG.7, EG.8, EG.10, RD.1,
RD.4
Sarmiento, Oscar – CS.10
Sartori, Silvana – CS.7
Satti, Jagannadha – EN.10
Sau, Rajes – LD.3
Sauma, Tania – CZ.2
Sauret, Alban – QH.8
Savage, John – GR.8
Savaro, Clement – RM.5
Savelyev, Ivan – AZ.4
Savva, Nikos – LS.6
Sawford, B.L. – RB.2
Sayadi, Taraneh – AE.1
Sayag, Roiy – QH.1
Sayler, Ben – MG.5
Sayles, Emily – HF.3
Saylor, J.R. – HR.4, MJ.1
Sbragaglia, Mauro – EU.6
Scalo, Carlo – AA.2
Scarano, Fulvio – GE.6
Scarbolo, Luca – QA.5
Scase, Matthew – RG.1
Schaefer, Lisa – RA.2
Schaefer, Philip – GA.5, GA.6, LV.3
Schalte, Kevin – QE.9
Schartman, E. – MZ.6
Schatz, Michael – AH.2, AH.3, AH.8, GZ.5
Schatzman, David – GF.10
Scheel, Janet – GH.4
Scheid, Benoit – AK.4
Scheiman, Daniel – RX.7
Schenkel, Torsten – LP.4
Schiller, Ulf D. – LK.8
Schilling, Oleg – AW.8, AW.9, AW.10, CC.8,
GX.1
Schindler, Michael – GM.4
Schlatter, Philipp – GE.1, MA.6
Schlegel, Michael – AJ.2
Schmale, David – MG.3
Schmid, Peter – GE.4, GE.5, GE.6
Schmidt, Heiko – MG.5
Schmidt, L. – GH.7, L1.37
Schmidt-Wetekam, Christopher – RJ.5
Schmit, Ryan – EJ.6, MW.2
Schmitz, Philippe – RS.4
Schmucker, Jason – LS.9
Schneider, Kai – AB.3, HA.10, LA.5, LT.6,
QB.2, RA.5
Schneider, Tobias – GZ.4, GZ.8, HJ.4, LY.10
Schnipper, Teis – GN.3, ME.1
Schouveiler, Lionel – ET.7
Schrader, Lars-Uve – AE.4
Schreiber, Will – EZ.8
Schreyer, Anne-Marie – CB.5
Schroeder, Wolfgang – RA.2
Schuele, Chan-Yong – CE.1
Schultz, Michael – GB.9, GB.10, HB.4, MB.10
Schulz, Douglas – LS.7
Schulz, Michael – EN.9
Schumacher, Joerg – AH.7, CA.5, GH.8, HA.3,
MA.2
Schwalbe, Jonathan – RK.1
Schweiger, Adam J. – CY.9
Schwer, Douglas – RQ.1
Scobee, Dexter – LN.7
Scott, Kyle – EX.1
Scott, Robert – AG.6
Scotti, A. – CG.2, MH.5
Seagrave, Penelope – HL.8
Sebilleau, Julien – AK.9
Secchi, Piercesare – RL.2
Seda, Robinson – EL.8
Sedano, Nils – CA.1, CA.2
Seddon, James – LY.8
Sedhai, Sumit – HV.5
See, Yee Chee – LE.1
Seena, Abu – LE.9
Sefiane, Khellil – AY.6, EP.7, RH.5
Segalini, Antonio – QW.10
SeGall, Marc – HY.6
Segawa, Takehiko – L1.12
Seibold, Benjamin – CD.1
Seidel, Jurgen – RJ.1
Sellappan, Prabu – GF.1
Sellier, Mathieu – EY.1
Semaan, Richard – GE.7
Semeraro, Onofrio – AJ.8
Sen, S. – L1.30
Sengers, Jan V. – EE.5
Sengupta, Dibyendu – ML.7
Seo, Kyung – EQ.6
Seon, Thomas – HQ.7
Serre, Eric – EZ.4, HE.7, L1.23
Settles, Gary – MW.8, RS.6
Sevilla, A. – RQ.7
Sevilla, Cristhian – LU.8
Shadden, Shawn – EL.4, HL.9, L1.1, QL.1
Shafi, Asjad – RX.3
Shah, Stimit – QD.3
Shan, Jerry – CP.6, MK.10
Shang, Jessica – LT.1
Shankar, Santhosh – EW.6
Shaparenko, Barukyah – GP.1
Shaqfeh, Eric – CE.2, CE.3, MF.6, RK.2
Sharif, Muhammad – HN.8
Sharif-Kashani, Pooria – AL.10, HP.4
Sharif-Kashani, Pooriah – HQ.8
Sharifi Mood, Nima – HM.2
Sharifulin, Albert – AH.10
Sharma, Ati – CB.4, GC.6
Shashank – LU.1
Shaver, Dillon – AU.4
Shaw, Angela – ET.3
Shaw, Raymond – CA.5, CV.8
Shchur, Lev – CS.1
She, Zhen-Su – AB.6, EB.1
Shea, Patrick – CX.3, CX.4, EJ.6
Sheard, Gregory – LZ.2
Shearer, Michael – CF.2, GW.5
Shekhawat, Yajuvendra – HV.3
Shelden, Bion – QM.3
Shell, M. Scott – EP.1
Shelley, Michael – CT.1, CT.2, EJ.4, MK.3,
QS.2
Shen, Amy – CT.3, GM.7, MM.3, RF.7
Shen, Lian – RZ.5
Shen, Xiaoning – MQ.3
Shen, Yueyang – AR.6
Sheng, J. – MQ.9
Sheng, Jian – CQ.10, MQ.7, QS.8
Shepherd, Ian – HH.9
Shepherd, J.E. – HX.2, MR.6, MU.8, QR.6
Shepherd, Joseph – HV.7, LU.2, MU.10
Sherman, Erica – AL.4, AL.5, RT.8
Sherwin, Spencer – EE.2, EE.3, EE.4
Shetty, Sushil – HG.2
Shevtsova, Valentina – CV.2, QG.10, RM.2
Shi, Lingling – LK.9
Shi, Nan – GH.8
Shi, Riyi – HV.8
Shi, Xiubo – RZ.6
Shi, Yong – EV.9
Shields, Matthew – EX.6
Shih, A.M. – QT.6
Shikhmurzaev, Yulii – HR.2
Shim, Jae Wan – CD.6
Shim, Youngsam – LV.1, LV.2
Shima, Eiji – MX.5
Shimizu, Kazuya – QR.10
Shimizu, Megumi – QK.9
Shimura, Masayasu – LV.1, LV.2
Shin, Soo Jai – GT.10, HD.4
117
Shinar, Tamar – MK.3
Shinbrot, Troy – GW.10, HK.10
Shinde, Sachin – GT.8
Shinjo, Junji – EU.3
Shinn, A.F. – MY.5
Shinn, Aaron – RD.5
Shinotsuka, Sho – LW.6
Shiomi, Junichiro – RC.5
Shirazi, Siamack – QV.10
Shirokoff, David – AD.3
Shirota, Minori – HQ.4, QQ.8
Shishkina, Olga – CH.3, EH.5
Shivamoggi, Bhimsen – MN.6
Shklyaev, Sergey – EY.3, EY.7, QV.5
Shoele, Kourosh – MT.8
Shojaei-Zadeh, Shahab – RV.3
Shreiber, David I. – MK.10
Shtern, Vladimir – EZ.10
Shu, Christina – ES.1
Shu, Fangjun – HL.2, HL.8
Shui, Lingling – GM.3
Shukla, Priyanka – EE.6, L1.17
Siddique, Javed – LW.5
Sieber, Moritz – GE.8
Siegel, Michael – LR.3
Siegel, Stefan – RZ.4
Sikavitsas, Vassilios – QE.8
Sileri, Daniele – CY.5
Sillero, Juan A. – EB.4
Simens, Mark P. – EJ.8
Simeonov, Julian – CV.7
Simon, Helene – QL.8
Simpson, Mark W. – EH.10
Singh, Kiran – QX.7
Singh, M.K. – LF.9
Singh, Manjinder – CX.6
Singh, P. – MP.1
Singh, Pushpendra – CR.9, GM.6, MP.3
Singh, Rajesh – MS.3
Singh, Satbir – AD.4
Singha, Arindam – QH.4
Sinha, Aman – CB.8
Sinha, Tarun – HC.4
Sipp, Denis – AE.2
Siria, Alessandro – AP.6
Sirivat, Anuvat – L1.7
Sirmas, Nick – GX.7
Sisti, John – LT.2
Sivasubramanian, Jayahar – CE.6
Skrbek, Ladislav – MN.1
Slater, David – LF.4
Slim, Anja – AF.1, AF.2
Sloboda, P. – CK.8, MZ.6
Smagin, Irina – QF.3
Smaoui, Nejib – ME.3
Smirnov, Sergey – QH.3
Smith, D. – LQ.1
Smith, Drew – GF.6, GF.8
Smith, K.S. – QH.9
Smith, Marc – MJ.3, QQ.6
Smith, Owen – GE.3, LU.8
Smith, Simeon L. – AL.3
Smith, Spencer – GN.10
Smits, Alexander – CB.5, CB.6, CB.8, EC.6,
GB.7, LB.10, LN.7, MA.2, QT.4, QW.1,
RT.1
Smolentsev, Sergey – MN.10, MY.10
Smolka, Linda – HY.6
Smolke, Jennifer – LU.8
Smyth, Katherine – ES.7
Snoeijer, Jacco – CS.4, EP.6, GQ.3
Snoeyink, Craig – RW.7
Snyder, Jessica – GM.7
So, Hongyun – RD.7
Sobac, Benjamin – CS.3, CS.5, EF.3
Socha, Jake – LT.8, LT.9
Sohn, Myong – EQ.6
Soimakallio, Asko – LU.4
Soldati, Alfredo – CH.6, CV.1, EH.2, GV.5,
HU.6, QA.5
Sollier, Elodie – HM.9, MP.8
Solomon, Tom – QU.4, QU.5
Solorio, Francisco J. – GH.9
Somasekaran, Sandeep – LX.1
Son, Donggun – EJ.1
Son, Kwangmin – GF.5
Song, Kui – ER.1
Song, Simon – MP.5, RX.6
Soni, Gaurav – AM.9
Soria, J. – GE.10
Soria, Julio – CB.7, EB.9, EB.10, EC.1, GY.3,
MW.9, QB.4, QB.5
Soteriou, Marios – EU.2, EU.5, QM.9
Sotiropoulos, Fotis – CX.10, GD.5, HB.10,
HD.2, LD.8, ML.1, ML.8, QD.1, QL.8
Soto, Enrique – HU.9
Soto, Rodrigo – HK.4, QN.2
Sou, In Mei – MJ.7
Spagnolie, Saverio – EJ.3, LQ.2
Spandagos, Constantine – CY.8
Spayd, Kimberly – CF.2
Speck, Thomas – CL.2
Spedding, Geoffrey – AX.7
Speetjens, M.F.M. – MP.6
Speetjens, Michel – HH.3
Speetjes, Michel – LF.9
Spektor, Viacheslav – CK.7
Spelt, Peter – CU.4, CY.4, EU.9, QA.4
Spence, E. – CK.8, MZ.6
Spicer, Patrick – GR.8
Spillers, Russell – LB.7
Spohn, A. – LJ.5
Spoor, Tristan – LQ.7
Sprague, Isaac – QA.8
Sprittles, James – HR.2
Squires, Kyle – GV.8, LX.4
Squires, Todd – AM.2, HP.7, LM.10, QV.4
Sreenivas, K.R. – MG.6
Sreenivasan, K.R. – AH.5, MN.1, MN.2, MN.5,
RB.2
Sridhar, M. – EJ.2
Sridharan, Sriram – LM.8
Srigrarom, Sutthiphong – EX.8
Staats, Wayne – LP.7
Stanislas, Michel – CB.7, MA.8
Staples, Anne – EM.4, ET.10
Staron, Lydie – L1.18
Stebe, Kathleen – HW.2, HW.9
Steele, Miles – CL.6
Steen, Paul – ER.7, LF.4, MJ.4, NT.1
Steers, Stanley – MW.10
Stefanus, Stefanus – MW.10
Steffes, Clarissa – CM.5, CM.7
Steinberg, Victor – LL.3
Steinhardt, Jacob – EJ.3
Steinrueck, Herbert – RX.5
Stepanyants, Yury – CZ.3
Stephen, Sharon – CE.8
Stern, Catalna – MR.7
Stern, Frederick – HD.3
Stevens, Bjorn – GG.4
Stevens, Richard – AH.6, CH.9, CH.10, EH.6
Stewart, Andrew – LG.1
Stewart, Kelley – EN.5
Stewart, Peter – QY.4
Stocker, R. – AK.3, EG.2, MQ.1, MQ.9, QS.5
Stoesser, Thorsten – CG.5
Stone, Howard – AK.1, AK.4, AV.4, CL.5, CX.8,
GR.9, HC.4, HM.8, HQ.6, LK.4, LN.7, LW.8,
LW.9, LY.4, LZ.6, QF.8, QF.10, QY.5, RY.3
Stone, Mark – AG.6
Storey, Brian – CP.2
Stout, Eric – CN.2
Strassman, Sam – EN.7
Street, Kenneth – RX.7
Stremler, Mark – GN.3, LF.7, LF.8, QP.8
Strike, John – CX.6
Stroh, Alexander – EJ.7
Strombom, Evelyn – GW.10
Stroock, Abraham – HV.2
Sturman, Rob – GK.9, QN.3
Su, Jian-Yuan – HT.2
Su, Lester – AC.5, MW.1
Suarez, Susan – LQ.9
Subrahmanyam, Duvvuri – MG.6
Subramaniam, Shankar – EV.1, EV.2, EV.3,
RN.6
Subramanian, Ganesh – MV.8
Succi, Sauro – ML.3
Sucheendran, Mahesh – LJ.1
Sugiyama, Kazuyasu – AH.6, EH.6, GQ.5,
GU.8, HJ.7, RQ.2
Suh, Yong Kweon – EQ.9
Suh, Youngho – MS.6
Sui, Yi – CU.4, QA.4
Suk, Myung Eun – L1.39
Sulchek, Todd A. – GP.5
Sullivan, Jonathan – LN.9
Sullivan, Peter – EC.2, GQ.10
Suman, Balram – CF.3
Suman, Sawan – GA.8
Summers, J.L. – GS.5
Sun, Bo – EV.2, EV.3
Sun, Chao – AU.5, AU.6, AU.7, GQ.7, MZ.8,
MZ.9, MZ.10, QZ.3
Sun, Jin – AU.1, QN.7
Sun, Ruopeng – HM.10
Sun, Shu-Ming – AZ.1
Sun, Ying – CF.10, CS.8, MS.7
Sundararajan, Pavithra – HV.2
Sundaresan, Sankaran – AU.1, LR.7, QN.7
Sung, Aaron – GE.3
Sung, Hyung Jin – EB.8, GT.10, HD.4, L1.36,
LC.4, LE.9, MT.3
Sunil Kumar, P.B. – MK.8
Surana, Amit – AJ.6
Sureshkumar, Radhakrishna – MF.7, RB.4
Suryanarayanan, Saikishan – LE.4
Sustarich, Jess – CP.2
Sutherland, Bruce – EH.8, QG.2, RG.4
Sutherland, Kelly – MQ.6
Suzuki, Kosuke – HT.5
Swan, James – CQ.8
Swanson, Jonathan – GG.10
Swarnajay, Mukherjee – MF.5
Swartz, Sharon – GT.3
Sweeney, Mara – EF.1
Swinney, Harry – AG.6, EG.4
Szalko, Joseph – GK.10
Szaltys, Piotr – HE.2
Szatmary, Alex – MK.2
Szeri, Andrew – GQ.8, RF.1, RF.2
Szeto, Kai – QL.5
Sznitman, Josue – CT.4, LN.7
Szulczewski, Michael – AF.9
T
Tabak, Esteban – HG.3
Taberlet, Nicolas – RN.3
Taborek, P. – HQ.3, QF.9, QM.8
Tada, Yutaka – HV.9, RY.5
Tadmor, Gilead – AJ.2
Tadrist, Lounes – GU.5, QQ.7
Tagawa, Yoshiyuki – AU.5, AU.6, GQ.7, QZ.3
Tagg, Randall – GZ.5
Taherian, Shahab – EL.6
Tai, Cheng-Feng – EL.7
Takagi, Daisuke – CL.8
Takagi, Shu – AP.10, GQ.5, GU.8, HP.2, LR.5,
QR.10, RC.5, RC.6
Takahashi, Takeo – RW.5
Takashima, Keisuke – QJ.2
Takayama, Suichi – RF.3
Takehara, K. – HY.7
Takemura, Fumio – RQ.2
Takeuchi, Shintaro – GU.8, LR.5
Talapatra, Siddharth – CB.3
Tallapragada, Phanindra – MG.3
Talon, Laurent – EH.3
Talvy, Samuel – HY.1
Tam, Daniel – GT.2
Tamura, Tetsuro – MD.1
Tan, A.W. – RZ.7
Tan, Dawud H. – RX.4
Tan, Jifu – CP.8
Tan, Ming – AY.10
Tanahashi, Mamoru – LV.1, LV.2
Tanaka, Toshitsugu – EV.6
Tang, Yifeng – HA.5
Tanno, Kenji – MX.9
Tantikul, Tawan – AC.2
Tao, Jianjun – EE.9
Tardu, Sedat – EE.7, EE.8, LU.6
Tasaka, Yuji – MZ.5
Tasissa, Abiy – EL.9
Tasoglu, Savas – RF.1, RF.2
Taubin, Gabriel – GT.3
Taveira, Rodrigo – LE.7
Tawhai, Merryn – EL.1, QP.9
Taylor, Ellen – MC.2
Taylor, J.R. – QH.9
118
Taylor, Keith – GJ.6
Tchelepi, Hamdi – AF.6
Teaca, Bogdan – LD.2
Techet, A.H. – QT.6
Techet, Alexandra – MW.7
Tedrake, Russ – EJ.3
Tee, Boon Tuan – HB.9
Teixeira, Joao – GG.4
Tejada-Martinez, Andres – AA.1, AC.9, EG.3
Templeton, Jeremy – EP.3
Tenneti, Sudheer – EV.1, EV.2, EV.3
Terashima, Hiroshi – GU.4
Terrapon, Vincent – MU.3, MU.6
Terwagne, Denis – QM.7
Teshome, Sophonias – LU.8
Tessendorf, Jerry – DT.1
Testik, Firat – L1.40
Thakur, Raviraj – GM.5
Thangam, Siva – RD.2
Theofilis, Vassilis – HZ.4
Thess, Andre – GH.2
Thiele, Uwe – GY.10
Thiessen, David – HS.6, LS.1
Thiffeault, Jean-Luc – CQ.2, GC.8, GC.9
Thiria, Benjamin – HC.3, HT.10
Thirifay, F. – LE.5
Thirunavukkarasu, Vaithianathan – EJ.6
Thomas, B.G. – MY.5
Thomas, Flint – GF.10, MX.2, MX.3
Thomas, Joy – QJ.3
Thomas, Peter J. – MZ.7
Thomas, Siju – CU.10
Thomases, Becca – QF.2
Thomson, Scott – AL.3, HT.1
Thoraval, Marie-Jean – HR.9
Thorne, Katie – MX.2, MX.3
Thoroddsen, S.T. – HK.8, HQ.3, HQ.5, HR.9,
HY.7
Throneberry, Jon – QV.10
Thyagu, Nirmal – GW.10, HK.10
Tian, Fang-Bao – GT.4, MT.2
Tian, Jiahao – ME.8
Tien, W.H. – MW.5
Tijerino, Erick – MJ.8
Tikare, Shreyas – QY.7
Tilgner, Andreas – QZ.7
Tilley, B.S. – CF.5
Tilton, Nils – EZ.4
Timothy, Wei – AL.4
Timpe, Amory – EX.1
Ting, Shang-Chieh – HT.2, HT.7
Tiribocchi, Adriano – RF.8
Tiron, Roxana – CZ.8
Titi, Edriss – RA.4
Titmus, Edward C. – HZ.7, HZ.8
Tiwari, Arpit – GQ.2
Tiwari, Himanshu – L1.6
Tjan, Kuan – EG.9
Tkacik, Peter – HF.10
Tomar, Gaurav – EP.1
Tomkins, Chris – EW.3
Tong, Chenning – EC.2
Tong, Penger – AH.1
Tophoj, Laust – GN.8
Toplosky, Norman – EQ.10
Torczynski, J.R. – LR.8, LR.9, QC.4, QC.5,
QM.3
Tornberg, Anna-Karin – CU.1
Torregrosa, M. – ER.2
Torres, A. – HC.2
Torres-Nieves, S. – GB.3, MB.9
Toschi, F. – CV.1, EU.6, GA.10, GH.7, HH.1,
L1.37, QA.5, RB.8
Toth, A. – RH.1
Toth, T. – RH.1
Touber, Emile – HX.1
Towers, Paul – CE.7
Toyabe, Kazutaka – HH.7
Tozzi, Emilio – RV.4
Tran, Hieu Trung – LT.4
Tran, Si Bui Quang – AR.5, AR.7
Tran, T. – MA.3
Tran, Trung-Hieu – RS.5
Tree, Mike – HT.1
Tretheway, Derek – HU.4
Trevelyan, P.M.J. – CF.4, HV.10, LZ.10, RH.2,
RY.2
Triana, Santiago – EZ.3, EZ.5
Triantafyllou, Michael – AN.8, HN.1, LN.6
Trieling, R.R. – MP.6
Trigo Cabrita Gil, Goncalo – L1.48
Tripathi, Anubhav – EM.3
Tripathi, Anurag – QN.8
Trofimchuk, Alexandre – MP.2
Troian, Sandra – AP.1, AP.3, AP.5, EY.5, HY.4
Troianowski, Guillaume – QL.1
Troolin, Dan – HB.8
Troolin, Daniel – RL.4
Trott, Wayne – GU.2
Trouette, Benoit – RH.3
Trujillo, Mario F. – HS.7
Truman, C. Randall – EW.8, EW.9, LZ.8
Truong, Tien Van – LT.4
Truscott, Tadd – MW.7, QM.6
Tryggvason, Gretar – CU.10
Trzakos, James – LT.2
Tsai, Jih-Chiang – QQ.1
Tsai, Peichun – HC.7
Tsai, Scott S.H. – LZ.6, QY.5
Tsang, Alan Cheng Hou – AM.3
Tsang, Yue-Kin – QH.7
Tse, Henry – MP.7
Tseluiko, Dmitri – HY.5
Tsiklashvili, Vladimer – EW.1
Tsimitri, Chrysanthi – L1.49
Tsoumpas, Yannis – LS.2
Tsubokura, Makoto – LX.2, MB.4
Tsubota, Ken-ichi – LK.3
Tsuda, Shinichi – AP.10
Tsuji, Takuya – EV.6
Tsukahara, Michel – QN.1
Tsunemi, Akihiko – LV.2
Tu, Jonathan – AJ.10
Tucker, Don – GX.10
Tuckerman, L.S. – CH.7
Tuckerman, Laurette – AY.8
Tudorache, Marian – GX.7
Tumin, Anatoli – AE.9
Turitsyn, Konstantin – AF.8
Turlier, Herve – RU.3
Tutkun, Murat – CB.9, QB.3, QB.6, QB.8
Tuval, Idan – QS.3
Tzeng, Tzuen Rong – GP.6
U
Udaykumar, H.S. – GD.7
Uddin, Hasib – GD.4
Uddin, Mesbah – HF.10
Ueno, Ichiro – L1.4, L1.29
Uh, Miguel – GD.8
Ujiie, Tomohiro – RY.5
Ukeiley, Lawrence – AX.6, EX.1, EX.5, LJ.9
Ulerich, Rhys – AW.10
Ulker, Erman – AE.9
Um, Soong Ho – EQ.3
Umbanhowar, Paul – CT.9, RN.4, RN.5
Umemura, Akira – EU.3
Uminsky, David – AN.5
Underhill, Patrick – MF.9
Ungarish, Marius – MH.3, MH.4
Upadhyay, Harshal – LX.1
Upadhyay, Rochan – MR.1
Uribe, Francisco J. – GX.9
Usta, O. Berk – HP.6
Utz, Marcel – LP.6
Uzun, Ali – EK.5
V
Vaccaro, John – HJ.6
Vaidya, Haresh – ME.5
Vaillant, Regis – HP.1
Vainchtein, Dmitri – LF.10
Valade, Nadine – AK.7
Valchar, Kathryn – HC.1
Valente, Pedro – GA.4
Valerioti, Joseph – QJ.4
Vallikivi, Margit – CB.6, GB.7
Valluri, Prashant – AY.6, CY.4, EP.7, RH.5
Valsecchi, Pietro – CW.7, ML.9
Van Buren, Tyler – HJ.3
Van den Akker, Harrie – LR.7
van den Berg, Albert – GM.3
van der Meer, Devaraj – GQ.7, HK.6, HK.7,
HQ.10
Van Dyke, Alan – RX.7
van Gils, Dennis – AU.7, MZ.8, MZ.9, MZ.10
van Heijst, GertJan – MN.6, MZ.8
van Hoeve, Wim – GM.3, GR.1, GR.6
van Nierop, Ernst – AK.4
Van Noordt, Paul – GS.4
van Rees, Wim – AN.1
van Sommeren, D.D.J.A. – QG.9
van Straalen, Brian – MY.2
van Veen, Lennaert – GZ.10
van Wijngaarden, Leen – QZ.3
VanderHeyden, Brian – CF.8
Vanderhoff, Julie – L1.14, L1.16, LG.3, LG.8
Vandre, Eric – AK.5
Vanella, Marcos – CD.2, LT.7
VanGordon, Samuel – QE.8
Vanka, S.P. – MY.5, QG.4, RD.5
Vannozzi, Carolina – GS.6
Vanrhein, Timothy – EL.5
Vantieghem, Stijn – MY.6
Vantini, Simone – RL.2
Varanasi, Kripa – ES.7, ES.9, ES.10
Vargas, Minerva – CS.10, GH.6
Variano, Evan – MX.6, RU.5, RU.6
Varsakelis, Christos – QN.4
Vasil, Geoffrey – MZ.1, MZ.2
Vasile, Joseph – GJ.3
Vasilyev, Oleg – AG.5, AW.2, CD.7, LD.1
Vasseur, Romain – MM.8
Vassilicos, C. – GA.4, LJ.5
Vassilicos, John Christos – ED.3
Vatistas, Georgios H. – CZ.1
Vaughan, David – HV.7
Vaughan, Jr., Benjamin L. – EL.10
Vazquez-Torres, Maria – CT.7
Vedel, Soren – EM.1
Vedula, Prakash – EM.5, QC.1
Veerapaneni, Shravan – RK.3, RK.4
Velasco, R.M. – ME.2
Velasco Fuentes, Oscar – MN.8
Velez, Carlos – HN.6
Veligura, Vasilisa – ES.3
Vella, Dominic – AF.5, GW.1, LY.9
Velte, Clara – LN.5
Venayagamoorthy, Subhas – EG.6, MA.7,
MH.10
Veneziani, Alessandro – RL.2
Venkatraman, Kartik – QJ.3
Ventura, Brian – HV.7, MU.10
Verhulst, Claire – QD.2
Verma, Aman – LD.5
Verma, Siddhartha – AA.8
Vernescu, B. – CF.5
Veron, Fabrice – AG.10
Versluis, Michel – GR.6
Verstappen, Roel – LD.7
Verzicco, R. – GH.7, L1.37, QH.3
Vetcha, Naveen – MY.10
Viaud, Bertrand – L1.23
Vicci, Leandra – L1.2, LY.6
Vidal, Glenn – QV.8
Vidyapati, Vidyapati – RN.6
Viellieber, Mathias O. – QA.10
Vignon-Clementel, Irene – GL.4, QL.1
Vijayakumar, Ganesh – CE.10, EC.9
Villermaux, Emmanuel – AA.9, AA.10, QM.4
Vincent, Olivier – CL.2
Vincenzi, Dario – RA.7
Vinokur, Valerii – CS.1
Vinuesa, Ricardo – AB.1
Violato, Daniele – GE.6
Viotti, Claudio – CZ.8, GC.5
Visbal, Miguel – LX.9
Vistarakula, Krishna – GW.8
Viswanathan, Hari – EV.10
Viswanathan, Sharadha – LV.6
Vlachos, Pavlos – CA.6, EN.5, LC.5, LC.8,
LT.8, LT.9
Vladimirov, Vladimir – LY.2
Vlahou, Ioanna – QH.2
Vlahovska, Petia – AR.4, LL.5, RK.1, RK.3,
RK.4
Vlaskamp, Jozef H.A. – MZ.7
Vogel, Michael – LS.5
Vogus, Doug – HW.3
Voigt, Elizabeth – LC.8
von Ellenrieder, Karl – HN.10
119
Vonnegut, Wynn – GW.5
Vonthron, Manuel – EQ.8
Voorhees, Abram – RL.6
Vorobieff, Peter – EW.8, EW.9, LZ.8
Voronov, Roman – QE.8
Voth, Greg – AV.9, AV.10, GA.2, HA.7, HA.9,
QP.4
Vucelja, Marija – AZ.10
Vukasinovic, Bojan – GJ.4
Vukicevic, Marija – HN.7
Vukoslavcevic, P. – QW.2
W
Wada, Shigeo – LK.3
Waddington, Tom – EL.6
Waechter, M. – GC.3
Waggy, Scott – MD.8
Wagner, Alexander – QA.6, RX.1
Wagner, Claus – CH.3
Wagner, Evert C. – HK.6
Wagner, Justin – GU.2
Waitukaitis, Scott – HK.4
Wakamatsu, Tomoya – EV.6
Walczak, Jakub – CJ.9
Waldman, Rye M. – LC.10
Walker, Lynn – GR.3, HW.3
Walker, Shawn – EJ.4
Walker, Travis – QF.7
Wallace, J. – EB.5, EB.6, QW.2
Wallace, Ryan – CX.3, CX.4, EJ.6
Wan, Jiandi – LK.4
Wang, Bin – RW.4
Wang, Cheng – HM.5, HM.6
Wang, Chengjie – HT.6
Wang, Chu – EU.7
Wang, Chuanxi – GX.8
Wang, D. – CZ.5, CZ.6
Wang, Evelyn – CM.8, ES.8
Wang, Gonghao – GP.5
Wang, Guannan – CJ.9
Wang, Guiren – CA.10, CP.4
Wang, Haifeng – CD.5, LV.6
Wang, Kan – RD.3
Wang, Lei – AN.4
Wang, Lian-Ping – MG.8
Wang, Meng – EK.4, RD.3
Wang, Pengzhi – GS.10
Wang, R. – EC.7
Wang, Shizhao – LT.10
Wang, Wei – LC.7
Wang, Xiaoliang – ME.6
Wang, Xiaowen – CE.5
Wang, Xingshi – AL.5
Wang, Xiuyu – GS.9
Wang, Yanxing – CL.9, CL.10
Wang, Z. Jane – AX.9, ET.1, RU.2
Wang, Zhen – AC.6
Ward, G.M. – QC.6
Ward, Nick – GK.3
Warhaft, Zellman – CV.3, CV.4
Wark, Candace – GG.10
Watanabe, Hiroaki – MX.9
Watanabe, Takeshi – HH.7
Watari, Nobuhiko – LQ.5
Wayne, C. Eugene – AN.5
Webb, Brent – CM.6, HS.4, LW.3
Webb, Paul – RS.2
Webb, Stephen – CH.2, RM.3
Weber, Christopher – EW.5
Webster, D.R. – CL.7, GZ.5, MQ.8
Webster, Keegan – AB.7
Wegener, Jeffrey – LU.8
Wei, Hsien-Hung – LM.7
Wei, Mingjun – AJ.4, HD.8, HD.9
Wei, Ping – CH.4
Wei, Tie – CW.8, EC.10
Wei, Timothy – AL.5, RL.6, RT.8
Wei, Yikun – GQ.6
Weidenfeld, Michael – EY.9
Weidman, P.D. – GW.7, HC.2
Weijs, Joost – EP.6, GQ.3
Weislogel, Mark – AK.2, HU.4
Weiss, Hope – GQ.8
Weiss, Stephan – CH.9
Weisskopf, Carmen – CL.2
Weitz, David A. – AV.3
Wells, Andrew – HH.4
Wen, Ten-Chin – LM.7
Wereley, Steve – HM.1, RW.6
Wereley, Steven – GM.5, RW.7
Wesfreid, Jose Eduardo – GT.9, HE.2, HF.1,
HF.2
Wessling, Matthias – HC.7
Westerdale, John – HT.8
Westerweel, Jerry – HZ.1
Wettlaufer, John – HH.4
Whang, Sung-Im – AZ.1
Wheelus, Jennifer – GF.6, GF.8
Whitaker, Dwight – EN.7
White, Brian – MH.5
White, Christopher – LB.3, MB.1, MF.3, MR.2
White, Edward – AE.5, LJ.4, LS.9
White, Ross – EW.8, LZ.8
Whitehouse, Glen – AX.4
Whitesides, Georges M. – LV.9
Whittlesey, Robert – MT.1
Wibawa, Martin – AN.8
Wiet, Chris – QJ.2
Wiggins, Andrew – HU.1, LB.4
Wiggins, Stephen – GK.9, QN.3
Wijesinghe, Susantha – HA.9
Wilkening, Jon – CK.5, CK.6, QK.4
Wilkinson, Eric – L1.21
Wilkinson, Stephen – CE.1
Willert, Christian – MW.9, RW.6
Williams, David – AJ.5, CJ.3
Williams, Lucy – MK.5
Williams, Owen – LB.10
Williams, Stuart – GM.5
Williamson, C.H.K. – CN.4, GN.6, HN.3
Williamson, Chad – QU.4
Willisson, Eric – LQ.7
Wilson, M.C.T. – GS.5
Wilson, Zachary – QB.6
Winckelmans, G. – AC.7, AN.2, LE.5
Wingate, Beth – RA.4
Winkel, Eric S. – HB.2
Winter, H. Henning – ME.6
Winters, Kraig B. – QH.7
Wittenberg, Ralf – AH.9
Woehl, T.J. – QV.6
Wojcik, Craig – EX.3, LN.2
Wong, Bryan – EP.3
Wong, Jeffrey – GW.5
Wong, Rachel – CT.3
Wong, Zheng Zheng – MS.10
Woo, George T.K. – GJ.2, GJ.7
Wood, Brian – EF.6
Woods, Andrew W. – AG.3, AG.4, LA.3, QG.8,
QG.9
Woodward, Paul – AW.6
Woosley, Stan – HH.10
Worster, Grae – HH.5, QH.1, QH.2
Worthen, George – GP.1
Wosnik, Martin – MB.1
Woudberg, Sonia – L1.41
Wu, Jie-Zhi – QZ.2
Wu, Jingshu – MV.2, QL.8
Wu, Ning – RU.7
Wu, Peng – AP.9
Wu, Pin – AX.6
Wu, W.L. – QY.1
Wu, X. – EB.5, EB.6
Wu, Xiaohua – EB.7, EB.9, ED.6, GX.4, MB.7,
QB.4, QB.5
Wu, You – EB.1
Wu, Yueying – QY.2
Wundrow, David – AG.8
Wunsch, Scott – AZ.7, MG.5
Wyatt, Donald C. – CK.4
Wygnanski, Israel – GE.8
Wylock, Christophe – MS.9
X
Xi, Heng-Dong – HA.1
Xi, Li – MF.1
Xia, Ke-Qing – CH.4, EH.5, EH.6, HH.2
Xia, Xi – GJ.5
XIa, Yanjun – AA.6
Xiao, Chang – L1.5
Xiao, Rong – CM.8
Xiaoyi, Li – QM.9
Xinshi, Wang – AL.4
Xiong, Juntao – LJ.8
Xu, Duo – LA.6
Xu, Haitao – GA.2, HA.1
Xu, Jie – HP.1
Xu, Lei – MA.4
Xu, Ling – L1.46
Xu, Min – HD.8
Xu, Sheng – GD.6, RU.2
Xuan, Xiangchun – AM.8, GP.6, GP.7, LM.8
Xue, Qingluan – LU.7
Y
Yada, Hirotaka – EV.6
Yakhot, Victor – MA.2
Yakhshi Tafti, Ehsan – MS.4
Yamanishi, Nobuhiro – GU.4
Yamawaki, Komei – LV.1
Yan, Minhao – GM.5
Yan, Qizheng – QP.1
Yang, Fang – CP.4
Yang, Jianming – HD.3
Yang, Jing-Tang – HT.2, HT.7
Yang, Kyung-Soo – GF.4, GF.7
Yang, Qin – EK.4
Yang, Sylvia – ER.8
Yang, Tao – HD.8, HD.9
Yang, Vigor – QM.2
Yang, Weiguang – QL.1
Yang, Y.S. – QY.1
Yang, Yan-Tao – QZ.2
Yang, Yingchen – QX.6
Yang, Yue – AB.10, MN.7
Yang, Zifeng – LN.8
Yap, Choon-Hwai – QL.6
Yap, Swee Kun – GS.10
Yapalparvi, Ramesh – RM.8
Yarahmadi, Asghar – CM.1
Yariv, Ehud – MS.8
Yarusevych, Serhiy – GF.9, LN.3
Yasotharan, Sanjesh – LP.5
Ybert, Christophe – HS.9, RV.2
Ybert, Cristophe – AP.6
Yen, J. – AQ.5, MQ.8
Yeo, Kyongmin – MV.9
Yeo, Leslie – AY.10
Yeung, P.K. – GA.2, RB.2
Yilmaz, T. – EX.4
Yin, Bo – CU.8
Yin, Youbing – EL.1
Yoda, Minami – AM.4, KT.1, QW.4, QW.6
Yoganathan, Ajit – ML.5, QL.6, QL.8
Yohannes, Bereket – QN.9
Yong, Xin – EP.2
Yoo, Jung Yul – CU.5, QX.9
Yoon, Hyun Gi – RD.7
Yoon, Jinsung – GP.8
Yoshikawa, Hiroyasu – LG.2
Yoshimoto, Yuta – QR.10
Yoshitake, Yumiko – L1.9
You, Donghyun – AC.4, AD.4
Young, James – MK.9
Young, N. – EF.9
Young, William R. – QH.7
Young, Yuan-Nan – AW.6, RK.3, RK.4
Yu, Huidan – GA.1
Yu, Jia – CK.5
Yu, Jie – LG.7
Yu, Kuai – RG.3
Yu, Meilin – AX.9
Yu, Miao – RK.8
Yu, Yue – RL.5
Yuan, Chun – HL.3
Yuan, Junlin – AB.4
Yuan, Quan – RX.3
Yudistira, Hadi Teguh – AR.9
Yue, Pengtao – AU.8, GL.7
Yun, Min – QL.8
Yun, Sungchan – QP.3
Z
Zakharin, Boris – ML.5
Zaki, Tamer – AE.4, AE.7, CY.1, CY.2
Zaleski, Stephane – HR.6, QM.1
Zalts, A. – RH.2
Zamankhan, Parsa – RF.3
Zang, Keke – QZ.5
Zarate, Yair – CZ.2
Zeigler, J. – HX.2
120
Zeineh, Christopher – MU.1
Zeng, Peng – EU.4
Zenit, Roberto – HK.5, HU.9, HU.10, MQ.4,
RS.3
Zern, B. – MK.4
Zhai, Zhiqiang – QE.6
Zhan, Yan – MZ.4
Zhang, Conan – LW.10
Zhang, David – RJ.3, RJ.5
Zhang, Duan – CF.8, GU.9, GU.10
Zhang, F.H. – HQ.3
Zhang, H. – LV.8
Zhang, Hepeng – AG.6
Zhang, Jie – GK.5, QN.1
Zhang, Jun – CT.1, CT.2, HC.3, ME.1
Zhang, Li – ER.1
Zhang, Likun – HS.6, LS.1
Zhang, Lucy – AL.4, AL.5, EP.2, EU.7
Zhang, Q. – LJ.2
Zhang, Rui – EP.9
Zhang, Song – RW.4
Zhang, Wendy – GQ.1, QN.5, RQ.3, RQ.5,
RQ.6, RU.3
Zhang, Xing – EK.9, LT.10
Zhang, Zhexuan – LG.9
Zhao, Hong – RK.2
Zhao, Hui – CM.4
Zhao, Liang – AX.3
Zhao, Longhua – L1.2, LY.6
Zhao, Shunliu – CP.10
Zhao, Wei – CA.10
Zhao, Xiao-Zheng – CH.4
Zhao, Xin – EK.9
Zhao, Yuejun – AR.1
Zheng, Guangfu – LG.7
Zheng, Xudong – QL.4
Zheng, Zheming – HY.8
Zhong, Jin-Qiang – CH.9
Zhong, Xiaolin – CE.5, MC.1, QR.3
Zhou, Bowen – GG.6
Zhou, Chunfeng – RX.4
Zhou, David – EQ.8
Zhou, Quan – EH.6
Zhou, Sheng-Qi – HH.2, MH.8
Zhou, Zhewei – LS.10
Zhu, Junjie – GP.6, GP.7, LM.8
Zhu, Lailai – MQ.2
Zhu, Luoding – MT.2
Zhu, Qiang – HT.3, LK.6, MT.8
Zhvansky, Roman – EU.9
Zia, Roseanna – QV.2
Ziegler, J.L. – MU.8
Ziegler, Jack – LU.2
Zikanov, Oleg – MY.4
Zikoski, Zachary – HV.4
Zimmerman, Daniel – EZ.3, EZ.5
Zimmerman, Jeremiah – HU.4
Zimmerman, Jonathan – EP.3
Zimmermann, Frank – CP.6
Zimoch, Pawel – AF.5
Znaien, J.G. – MP.6
Zobeiri, Amirreza – HN.4
Zoellner, Michael – LG.5
Zonta, Francesco – CH.6, EH.2
Zou, An – CP.4
Zoueshtiagh, Farzam – LZ.9, MJ.2
Zribi, Mohamed – ME.3
Zwieniecki, Maciej – CL.3
■ APS/DFD Exhibits and
■ Meeting
APS/DFDRooms
Exhibits and
■ APS/DFD
Exhibits and
Meeting Rooms
®
® ®
Meeting Rooms
American
Physical
Society
American
American
Physical
Physical
Society
Society
CYAN MAGENTA YELLOW BLACK
63rd
Annual
Meeting
63rd
63rd
Annual
Annual
Meeting
Meeting
Division
Fluid
Dynamics
Division
Division
ofof
of
Fluid
Fluid
Dynamics
Dynamics
2121
21
- 23
23
November
November
2010
2010
--23
November
2010
Long
Long
Beach,
Beach,
California
California
Long
Beach,
California
46423 APS-DFD Cover_mp.indd 1
11/2/2010 2:05:45 PM
Coil Area

DFD 2010 - Caltech

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