programme book

ECM2015
7th European
Combustion Meeting
30 March - 2 April 2015, Budapest, Hungary
PROGRAMME BOOK
PROGRAM OVERVIEW
GENERAL INFORMATION
LOCAL ORGANIZING COMMITTEE
Tamás Turányi (Head of the Hungarian Section of the Combustion Institute; ELTE, Budapest)
László Barta (MATÜZ Ltd., Budapest)
Ákos Bereczky (BME, Budapest)
Sándor Dóbé (HAS, Budapest)
Árpád B. Palotás (University of Miskolc)
István Gy. Zsély (ELTE, Budapest)
REGISTRATION DESK OPENING HOURS
The Registration Desk, where advanced and on-site registrants may pick up their conference
material, is operating in the lobby of Hilton Hotel (close to the main entrance).
The staff of the Conference Secretariat will be at your service at the Registration Desk. All inquiries about registration, hotel bookings, social arrangements, conference tours and transport will
be assisted at the desk.
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31
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2
March (Monday) March (Tuesday) April (Wednesday) April (Thursday) 8:00 – 19:00
8:00 – 19:00
8:00 – 18:00
8:00 – 14:00
PLENARY LECTURES
Plenary lectures will take place in the Ballroom, on the 1st Floor.
POSTER SESSION
Poster sessions and coffee breaks will take place in the Corvina Rooms on the Ground Floor
(Lobby level)
EXHIBITION
Sponsors of ECM 2015 have their exhibition stand the Corvina Rooms on the Ground Floor
(Lobby level).
BADGE
Participants will receive a badge upon registration. Since your personal badge entitles you to
enter the sessions, please make sure that you wear your badge at all times during all conference
activities and social events.
CERTIFICATE OF ATTENDANCE
A Certificate of Attendance can be obtained upon request at the Registration Desk.
Please submit your request before Thursday, 2 April 2015.
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REGISTRATION FEE INCLUDES
• Admission to the Conference and the Exhibitions
• Conference material including the Program book and Abstract book, as well as a pendrive containing the Full Papers
• Welcome Reception on Monday
• Coffee breaks and lunch on Tuesday, Wednesday and Thursday
• Banquet Dinner and Cruise on EUROPA Boat on Wednesday
(€ 20 contribution is requested).
SOCIAL EVENTS
WELCOME RECEPTION – Monday, 30 March
Registered participants are cordially invited to the Welcome Reception starting at 19:00 in the Ballroom on the 1st floor. You are kindly requested to wear your badge for admission.
GROUP PHOTO SESSION – Tuesday, 31 March
We invite you to join the ECM 2015 Group Photo Session on Tuesday, 31 March at 15:00 (right after
the plenary session) in the courtyard between Hilton Hotel and Fishermen’s Bastion.
indicated by the Hungarian National Bank. American Express, Visa, and Eurocard/Master Card
are accepted at the registration desk, in hotels, first class restaurants and city stores, but you
should ask or look for the logo before ordering a service.
INSURANCE
The Organizing Committee cannot take responsibility for injuries or losses occurring to persons or
personal belongings during the Congress. Participants are therefore advised to travel with a valid
insurance package.
PARKING
Please note that car traffic is limited in the Castle District to preserve its historic heritage. Guests of Hilton
Budapest are allowed to enter the Castle Area by validating the parking ticket at the Front Desk of the
hotel. Visitors can leave the protected area free of charge within 15 minutes of their entry at the same gate.
Parking on the street with validated ticket costs HUF 525/EUR 1.81 per hour. Hilton Budapest offers a secured and convenient underground garage for HUF 900/EUR 3.10 per hour or HUF 9900/EUR 34 per day.
BANQUET DINNER – Wednesday, 1 April
We invite you to join a splendid buffet dinner on board of a Danube cruiser between 19:00-22:00
on Wednesday, 1 April from Batthyanyi Square. Name of the boat is EUROPA.
Boat leaves from the pier at 19:15.
LOCAL TRANSPORTATION IN BUDAPEST
Public transport in the city is well organized. Trams, buses and metro trains operate without conductors. Tickets must be purchased in advance at metro stations or at vendor machines at some
tram and bus stops. Weekly and Tourist (valid for 3 days) passes allowing free travel on all means of
transportation within the city limits can be bought at each metro station.
A Budapest public transport route planner and live (GPS-based) timetable is available for smartphones and tablets (Android/Apple/Windows Phone). The name of the app is "BKK FUTÁR".
COFFEE BREAKS
Refreshments will be served during coffee breaks in the Corvina Rooms on the Ground Floor (Lobby Level) where the exhibition and poster sessions will take place.
TAXIS
Taxis are yellow in Budapest. We suggest that you use only taxis equipped with a taximeter, such as
Főtaxi, City Taxi, TaxiPlus or Buda Taxi. Beware of private cabs, especially those without a taximeter.
LUNCH
Lunch will be served at ICON Restaurant and Gizella Room on the Ground Floor (Lobby level).
Upon registration you will receive a lunch ticket for each day. You are kindly requested to give this
ticket to the waiters at the entrance of the restaurant.
ELECTRICITY SUPPLY
In Hungary, electricity is supplied at 230 V, 50 Hz. The 2-pin connecting plug is different from that
used in some other countries, e.g. the USA, the UK and Japan.
NOTICE FOR DRIVERS (ZERO ALCOHOL)
Drivers should be aware that there is a zero tolerance of blood alcohol level while driving in Hungary.
TOURS & EXCURSIONS
Tickets and information on Sightseeing tours and Excursions are available at the ECM2015 Registration Desk in the hotel Lobby (Ground floor)
USEFUL INFORMATION
SHOPPING HOURS
The usual shopping hours in Budapest are from 10:00 to 18:00, in big shopping centers around the
city up to 21:00. Shops are closed on Sundays.
For further information please contact the Registration Desk.
CURRENCY, EXCHANGE, CREDIT CARDS
The official currency in Hungary is Hungarian Forint (HUF). Exchange facilities are offered to
participants at the airport, in hotels, at the exchange desk of the banks at around the daily rate
SMOKING
Smoking is not permitted inside the conference building or at the venues for the social functions.
Smokers are required to smoke outdoors in the designated area.
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FLOOR PLAN
GROUND FLOOR (Lobby level)
FLOOR PLAN
1ST FLOOR
EXHIBITORS
Nr.
1.
2.
3.
4.
5.
6.
6
Company name
LaVision
Dantec Dynamics
Quantel laser
TSI
Kintech Laboratory
Photron
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PLEANARY LECTURES
[PL1] – Tuesday, 31 March, 9:00-10:00
What do we really know about the low-temperature oxidation of alkanes?
Battin-Leclerc, Frédérique
LRGP, CNRS-Nancy, Nancy, France
[PL2] – Tuesday, 31 March, 14:00-15:00
Gas turbine combustor ignition: experiments and simulations
Mastorakos, Epaminondas
Hopkinson Lab, Engineering Department, University of Cambridge, Cambridge,
United Kingdom
[PL3] – Wednesday, 1 April, 9:00-10:00
The temperature and pressure dependences of the laminar burning velocity:
experiments and modelling
Konnov, Alexander
Division of Combustion Physics, Lund University, Lund, Sweden
[PL4] – Wednesday, 1 April, 14:00-15:00
A systematic approach for combustion models development
Pitsch, Heinz; Trisjono, Philip
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany
[PL5] – Thursday, 2 April, 9:00-10:00
Kinetic processes in complex burning plasma
Starik, Alexander
Central Institute of Aviation Motors, Moscow, Russian Federation
POSTERS
Poster Session 1 - Tuesday, 31 March, 10:00-13:00
[P1-01]
Singularity analysis of non-isothermal reactions
1*
Csikja Rudolf; 1Tóth János
1
Department of Mathematical Analysis, Budapest University of Technology and Economics,
Budapest, Hungary
[P1-02]
Energy gain at pyrolysis and combustion of acetylene
1
Emelianov Alexander; 2*Eremin Alexander; 3Golub Victor; 1Gurentsov Eugeny; 4Fortov Vladimir
1
Lab. of Nonequilibrium Processes, Joint Institute for High Temperatures Russian Academy of Sciences, Russian Federation; 2Joint Institute for High Temperatures Russian Academy of Sciences, Moscow,
Russian Federation; 3Physical Gasdynamics, Joint Institute for High Temperatures Russian Academy
of Sciences, Russian Federation; 4Director, Joint Institute for High Temperatures Russian Academy of
Sciences, Russian Federation
P1-04]
ReSpecTh: a joint reaction kinetics, spectroscopy, and thermodynamics information
system
1;2
Varga Tamás; 1*Turányi Tamás; 1Czinki Eszter; 1;2Furtenbacher Tibor; 1;2Császár Attila G.
1
Institute of Chemistry, Eötvös University (ELTE), Hungary; 2MTA-ELTE Research Group on Complex
Chemical Systems, Budapest, Hungary
[P1-06]
Kinetic investigation of the reactions of 2,5-dimethylfuran and 2-methylfuran with
hydroxyl radicals
1*
Eble Julia; 1Bänsch Cornelie; 1Olzmann Matthias
1
Institute of Physical Chemistry, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany
[P1-07]
Molecular resonance absorption spectroscopy of CF2 radicals at the pyrolysis of CF3H
behind shock waves
1*
Emelianov Alexander; 1Drakon A. V.; 1Eremin A.v.; 1Yatsenko A.i.
1
Laboratory of Nonequilibrium Processes, Joint Institute for High Temperatures RAS,
Moscow, Russian Federation
8
9
[P1-08]
An experimental and theoretical study of the unimolecular dissociation of 1,3,5-trioxane
at high temperatures
1*
Giri Binod; 1Alquaity Awad B.s.; 2Lo John M. H.; 1Farooq Aamir
1
Physical Science and Engineering, KAUST, Thuwal, Saudi Arabia; 2Department of Chemistry,
University of Calgary, Canada
[P1-09]
Investigations of the oxy-fuel coal char gasification reactions kinetics in the isothermal
drop-tube furnace
1*
Hercog Jaroslaw; 1Świątkowski Bartosz
1
Thermal Processes Department, Institute of Power Engineering, Warsaw, Poland
[P1-10]
Kinetics of the reaction of OH radicals with the biofuel molecule 2-methyltetrahydrofuran
1*
Illés Ádám; 2Farkas Mária; 2Gombos Erzsébet; 2Dóbé Sándor
1
Institute of Materials and Environmental Chemistry, Hungarian Academy of Sciences Research Centre for Natural Sciences Research Centre of Natural Sciences, Budapest, Hungary; 2Institute of Materials and Environmental Chemistry, Hungarian Academy of Sciences Research Centre for Natural
Sciences, Hungary
[P1-11]
Ab Initio Study of the Reactions of OH Radical with 2,5-Dimethylfuran
1*
Bauerfeldt Glauco; 1Ferraz Thanízia
1
Chemistry Departament, Universidade Federal Rural do Rio de Janeiro, Seropédica, Brazil
[P1-12]
Update of key reactions in the low-temperature oxidation chemistry of dimethyl ether
and analytic ignition delay times
1;4*
Döntgen Malte; 2Beeckmann J.; 1;4Leonhard K.; 2Pitsch H.; 3Klippenstein S. J.
1
Chair of Technical Thermodynamics, RWTH Aachen University, Aachen, Germany; 2Institute for Combustion Technology, RWTH Aachen University, Germany; 3Chemical Sciences and Engineering Division,
Argonne National Laboratory, United States; 4AICES Graduate School, RWTH Aachen University, Germany
[P1-13]
Computational chemistry of cyclopentane low temperature oxidation
1*
El Rachidi Mariam; 2Zádor Judit; 1Sarathy S. Mani
1
Clean Combustion Research Center, King Abdullah University of Science and Technolgy, Thuwal,
Saudi Arabia; 2Combustion Research Facility, Sandia National Laboratories, United States
10
[P1-14]
Numerical and experimental study of the distribution of charged species in a flat stoichiometric premixed CH4/O2/Ar
1*
Han Jie; 1Alquaity Awad; 2Murphy Daniel C.; 1Belhi Memdouh; 1Farroq Aamir; 1Sarathy S. Mani;
1
Bisetti Fabrizio
1
Department of Mechanical Engineering, King Abdullah University of Science and Technology
(KAUST), Jeddah, Saudi Arabia; 2Department of Mechanical Engineering, The University of California
Berkeley, Berkeley, United States
[P1-15]
Efficient method for the calculation of rate constants for reactions with unimolecular steps
1*
Koksharov Andrey; 1Yu Chunkan; 1Bykov Viatcheslav; 2Pfeifle Mark; 1Maas Ulrich; 2Olzmann Matthias
1
Institute of Technical Thermodynamics, Karlsruhe Institute of Technology, Karlsruhe, Germany; 2Institute of Physical Chemistry, Karlsruhe Institute of Technology, Germany
[P1-16]
Plasma-Assisted Combuston for turbines application: Combustion enhancement and pollutants emission control
1*
Lebedev Alexander; 2Deminsky M. A.; 2Strelkova M. I.; 2Potapkin B. V.; 3Sommerer T. J.; 3Boespflug M. P.; 3Benett G. A.; 3Saddoughi S.
1
Kintech Lab Ltd.,Moscow, Russian Federation; 2Kintech Lab Ltd., Russian Federation; 3GE Global Research, General Electric, United States
[P1-17]
A comparative study of the kinetics and dynamics of the reaction of H atoms with groundstate and excited O2
1
Szabó Peter; 1;2*Lendvay György
1
University of Pannonia, Hungary; 2Institute for Materials and Environmental Chemistry, Research
Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary
[P1-18]
Theoretical Investigation of Formaldehyde Reactions Initiated by OH Radicals
1*
Machado Gladson
1
Department of Chemistry, Universidade Federal Rural do Rio de Janeiro, Seropédica, Brazil
[P1-19]
Reduced dimensionality study of the reaction of methane with H atoms
1
Vikár Anna; 1*Nagy Tibor; 1Lendvay György
1
Institute of Materals and Environmental Chemistry, Hungarian Academy of Sciences, Research Centre for Natural Sciences, Hungary
11
[P1-21]
The self-reaction of acetylene
1*
Zádor Judit; 2Miller James A.
1
Combustion Chemistry Department, Sandia National Laboratories, Livermore, United States;
2
Chemistry Division, Argonne National Laboratory, United States
[P1-29]
Chemical kinetic modeling of 2-methylhexane combustion
1*
Mohamed Samah; 1Sarathy S.m.
1
Clean Combustion Research Center, King Abdullah University of Science and Technology (KAUST),
Thuwal, Saudi Arabia
[P1-22]
A versatile coupled progress variable / REDIM model for auto-ignition and combustion:
Parametrization, Coupling and Implementation Strategies
1*
Benzinger Marc-Sebastian; 1Schießl Robert; 1Ulrich Maas
1
Institute of Technical Thermodynamics, Karlsruhe Institute of Technologie, Karlsruhe, Germany
[P1-30]
Validation of an aqueous UAN alternative fuel combustion mechanism
1*
Mosevitzky Bar; 2Grinberg Dana Alon; 1Shter Gennady E.; 1Grader Gideon S.
1
The Wolfson Department of Chemical Engineering, Technion - Israel Institute of Technology, Haifa, Israel;
2
Nancy and Stephen Grand Technion Energy Program, Technion - Israel Institute of Technology, Israel
[P1-23]
Characterizing Ignition behavior through morphing to generic curves
1*
Blurock Edward
1
Department of Computer Science, Malmö Högskola, Lund, Sweden
[P1-31]
Investigation of perturbed premixed flame structure using REDIM model reduction
concept
1*
Neagos Alexander; 1Bykov Viatcheslav; 1Maas Ulrich
1
Institute of Technical Thermodynamics, Karlsruhe Institute of Technology, Karlsruhe, Germany
[P1-25]
Effect of polycyclic aromatic hydrocarbons on soot formation
1;2*
Era Koki; 1Ono Kiminori; 1Matsukawa Yoshiya; 1Watanabe Aki; 1Dewa Kazuki; 1Takahashi
Kaname; 1Saito Yasuhiro; 1Matsushita Yohsuke; 1Aoki Hideyuki; 2Aoki Takayuki; 2Yamaguchi Togo
1
Department of Chemical Engineering, Graduate School of Engineering, Tohoku University, Niigata,
Japan; 2Department of research and development, ASAHI CARBON CO., LTD., Japan
[P1-26]
Using genetic algorithm for reduced chemical schemes optimization
1*
Jaouen Nicolas; 1Domingo Pascale; 1Vervisch Luc
1
INSA de ROUEN, CORIA-CNRS, Saint-Etienne-Du-Rouvray, France
[P1-27]
RCCE-reduced chemical mechanisms for surrogate aviation fuels
1
Jones W. P.; 1*Koniavitis Panayiotis; 1Rigopoulos S.
1
Department of Mechanical Engineering, Imperial College London, United Kingdom
[P1-28]
Algorithmic identification of the reactions that support or oppose the development of
explosive modes of the n-heptane/air autoignition
1*
Manias Dimitris; 1Goussis Dimitris A.
1
Department of Mechanics, National Technical University of Athens, Athens, Greece
12
[P1-32]
Kinetic analysis of the thermal release of pyrene from commercial Carbon Black
nanoparticles using a distributed activation energy model
1*
Ströbele Michael; 1Bockhorn Henning
1
Engler-Bunte-Institute, Karlsruher Institute of Technology, Karlsruhe, Germany
[P1-33]
ReactionKinetics: Recent developments and applications
1*
Tóth János; 2Nagy Attila L.; 3Takács Bálint
1
Department of Mathematical Analysis, Budapest University of Technology and Economics, Budapest, Hungary; 2Department of Stochastics, Budapest University of Technology and Economics, Budapest, Hungary; 3Department of Mathematical Analysis, Budapest University of Technology and
Economics, Budapest, Hungary
[P1-34]
Comparison of different approaches to determine the effect of uncertainties in detailed
chemistry on auto-ignition delay for air-hydrogen mixtures
1;2*
Dumont Nicolas; 1;2Vicquelin Ronan; 1;2Gicquel Olivier
1
Ecole Centrale Paris, CNRS EM2C, Châtenay-Malabry, France; 2Laboratoire EM2C, Ecole Centrale Paris,
CNRS, France
13
[P1-35]
Development of an ethanol combustion mechanism based on a hierarchical optimization
approach
1;2;3*
Olm Carsten; 1;3Varga Tamás; 1;3Valkó Éva; 2Hartl Sandra; 2Hasse Christian; 1Turányi Tamás
1
Laboratory for Chemical Kinetics, Eötvös University (ELTE), Budapest, Hungary; 2Chair of Numerical
Thermo-Fluid Dynamics, TU Bergakademie Freiberg, Germany; 3MTA-ELTE Research Group on Complex Chemical Systems, Budapest, Hungary
[P1-37]
Low temperature ignition properties of n-butanol: key uncertainties and constraints
1
Agbro Edirin; 1Materego M.; 1Lawes M.; 1*Tomlin Alison
1
Energy Research Institute, University of Leeds, United Kingdom
[P1-38]
Investigation of ethane pyrolysis and oxidation at high pressures using global optimization based on shock tube data
1
Samu Viktor; 1;2Varga Tamás; 1*Turányi Tamás
1
Institute of Chemistry, Eötvös University (ELTE), Budapest, Hungary; 2MTA-ELTE Research Group on
Complex Chemical Systems, Budapest, Hungary
[P1-39]
Investigation of the effect of correlated uncertain rate parameters on a model of hydrogen
combustion using a generalized HDMR method
1;3
Valkó Éva; 2Tomlin Alison S.; 1;3Varga Tamás; 1*Turányi Tamás
1
Institute of Chemistry, Eötvös University (ELTE), Budapest, Hungary; 2School of Chemical and Process
Engineering, University of Leeds, United Kingdom; 3MTA-ELTE Research Group on Complex Chemical
Systems, Budapest, Hungary
[P1-40]
Ignition Delay Time Measurements of Primary Reference Fuel Blends
1*
Alabbad Mohammed; 1Javed Tamour; 1Khaled Fethi; 1Farooq Aamir
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P1-41]
An experimental investigation of the effect of alkane fuel structure on reactivity demonstrated through the hexane isomers
1*
Banyon Colin; 1Zhang Kuiwen; 1Curran Henry J.
1
Combustion Chemistry Centre, National University of Ireland Galway, Ireland
14
[P1-42]
On losing of ignition inhibiting properties of haloalkanes at elevated temperatures
1*
Drakon Alexander; 2Eremin Alexander V.; 2; 3Mikheyeva Ekaterina Yu.
1
Joint Institute for High Temperatures RAS, Moscow, Russian Federation; 2Laboratory of Nonequilibrium Processes, Joint Institute for High Temperatures RAS, Russian Federation; 3Bauman Moscow State
Technical University, Moscow, Russia
[P1-43]
Mid-IR quantum cascade laser CO concentration measurements of fuel-rich CH4/O2 mixtures doped with dimethyl ether and n-heptane behind reflected shock waves
1
Shu Bo; 1Herzler Jürgen; 1Welz Oliver; 1*Fikri Mustapha; 1Schulz Christof
1
IVG, University of Duisburg-Essen, Germany
[P1-44]
High-pressure shock-tube study of the ignition of fuel-rich CH4/air and CH4/additive/air
mixtures over a wide temperature range
1*
Herzler Jürgen; 1Fikri Mustapha; 1Welz Oliver
1
IVG, University Duisburg-Essen, Duisburg, Germany
[P1-45]
A high-pressure shock tube characterization and auto-ignition delay investigations
1
El Merhubi Hilal; 1*Keromnes Alan; 1Lefort Benoîte; 1Le Moyne Luis
1
DRIVE, University of Burgundy, France
[P1-46]
Auto-ignition delay measurement for methane in a high pressure shock tube
1
El Merhubi Hilal; 1Lefort Benoîte; 1*Keromnes Alan; 1Le Moyne Luis
1
DRIVE, University of Burgundy, France
[P1-47]
An experimental study of butene isomers and 1,3-butadiene ignition delay times at elevated pressures
1*
Li Yang; 1Zhou Chong-Wen; 1Curran Henry
1
Department of Chemistry, National University of Ireland, Galway, Ireland
[P1-48]
Comparison of the activating effect of dimethyl ether and propene on the homogeneous
partial oxidation of methane
1*
Sen Fikri; 1Kasper Tina; 1Haferkamp Stefan; 1Bergmann Ulf; 1Atakan Burak
1
Faculty of Engineering, University of Duisburg Essen, Duisburg, Germany
15
[P1-49]
Kinetic Modeling of Cyclohexane Oxidation including PAH Formation
1*
Slavinskaya Nadezda; 1Abbasi Mehdi; 1Riedel Uwe
1
VT, CKI, DLR, Stuttgart, Germany
[P1-50]
Ignition delay measurements of iso-octane/ethanol blend fuel in a rapid compression machine
1*
Song Hwasup; 1Song Han Ho
1
Department of Mechanical and Aerospace Engineering, Seoul National University Seoul, Republic
Of Korea
[P1-51]
The pyrolysis of ethanol: kinetic modeling of shock tube experiments
1*
Braun-Unkhoff Marina; 1Kathrotia Trupti; 2Kiecherer Johannes; 2Olzmann Matthias
1
Institute of Combustion Technology, DLR, Stuttgart, Germany; 2Institute of Physical Chemistry,
Karlsruhe Institute of Technology (KIT), Germany
[P1-52]
Towards the understanding of 1-, 2-, and 3-pentanol oxidation at high temperatures
1*
Kathrotia Trupti; 2Fischer-Tammer Marileen; 2Riedel Uwe
1
Institute of Combustion Technology for Aerospace Engineering, Stuttgart, Germany; 2Institute of
Combustion Technology, German Aerospace Center (DLR), Germany
[P1-53]
Comparative Investigation of Ethanol and Butanol Combustion Profiles in an Internal
Combustion Engine
1*
Machado Gladson; 1Bauerfeldt Glauco Favilla
1
Department of Chemistry, Universidade Federal Rural do Rio de Janeiro, Seropédica, Brazil
[P1-56]
Experimental investigation of a long chain alkohol: 1-hexanol
1
Rodriguez Anne; 1Herbinet Olivier; 1*Battin-Leclerc Frédérique
1
LRGP, CNRS-Nnancy, France
[P1-57]
Kinetic modeling for the pyrolysis of biomass fuels derived from oil crops
1
Tsekos Christos; 2*Vamvuka Despina; 2Sfakiotakis Stelios; 1Mihailof Chrysa; 3Lemonidou Angeliki;
1
Panopoulos Kyriakos; 2Pentari Despina
1
Centre for Research and Technology Hellas, Chemical Process and Energy Recourses Institute,
Greece; 2Mineral Resources Engineering, Technical University of Crete, Hania, Greece; 3Department
of Chemical Engineering, Aristotle University of Thessaloniki, Greece
16
[P1-58]
Modeling of polycyclic aromatic hydrocarbon (PAH) formation during hydrocarbon pyrolysis
1*
Bensabath Tsilla; 2Monnier Hubert; 2Champmartin Catherine; 3Glaude Pierre-Alexandre
1
LRGP, CNRS, Université de Lorraine / INRS,Nancy,France; 2Ingénierie des Procédés, INRS, France;
3
Cinétique de combustion, LRGP, CNRS, Université de Lorraine, France
[P1-59]
Oxidation of alkane-rich gasoline fuels and their surrogates in a motored engine
1*
Bhavani Shankar Vijai Shankar; 1Al-Qurashi Khalid; 1Ahmed Ahfaz; 1Chung Suk Ho; 1Roberts William L.;
1
Sarathy S. Mani
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal, Saudi Arabia
[P1-60]
Plasma assisted cool flames in a rapid compression machine.
1*
Boumehdi Mohamed Amine; 2Shcherbanev Sergey; 3Desgroux Pascale; 2Starikovskaia Svetlana;
3
Vanhove Guillaume
1
PC2A CNRS/Lille University, Villeneuve D’ascq, France; 2CNRS, Ecole Polytechnique, Sorbonne Universities, Laboratory of Plasma Physics, France; 3PhysicoChimie des Processus de Combustion et de
l’, PC2A, France
[P1-61]
An Investigation of the Thermochemical Parameter and Rate Coefficient Assignments for
the Low-Temperature Oxidation Pathways of Alkanes: A Case Study using the Pentane Isomers
1*
Bugler John; 1;2Somers Kieran P.; 1Silke Emma J.; 1Curran Henry J.
1
Combustion Chemistry Centre, National University of Ireland, Galway, Ireland; 2Shell Global Solutions UK,40 Bank Street, Canary Wharf, London, United Kingdom
[P1-62]
A rapid compression machine and kinetic modelling study of 2-butanone
1*
Burke Ultan
1
Tailor-made fuels from biomass (TMFB), Physico Chemical Fundamentals of Combustion, Aachen,
Germany
[P1-63]
Low-temperature combustion chemistry of isopentanol: Theoretical investigation
1*
Chakravarty Harish; 2Matsugi Akira
1
Theoretical chemistry, Max Planck Institute for chemistry, Mainz, Germany; 2National institute of
advanced industrial science and technology, Tsukuba, Japan
17
[P1-64]
Do the interactions between biomass organic components and alkali metal ions affect pyrolysis liquid composition? A case study on Arundo donax
1*
Giudicianni Paola; 2Gargiulo Valentina; 2Alfè Michela; 2De Joannon Mariarosaria;
2
Ragucci Raffaele
1
Department of chemical engineering, Material and Industrial production,
University Federico II Naples, Napoli, Italy; 2Istituto di Ricerche sulla Combustione, CNR, Italy
[P1-65]
Ignition of DME and DME/CH4 at High Pressure: Flow Reactor Experiments and Kinetic
Modeling
1*
Hashemi Hamid; 1Christensen Jakob Munkholt; 1Glarborg Peter
1
Department of Chemical and Biochemical Engineering, Technical University of Denmark (DTU),
Lyngby, Denmark
[P1-66]
Interpreting Low-Temperature Shock Tube Ignition Delay Data
1*
Javed Tamour; 1Es-Sebbar Et-Touhami; 1Jaasim M.; 2Badra J.; 1Im H.g.; 1Farooq Aamir
1
Mechanical Engineering (Clean Combustion Research Center), King Abullah University of Science and
Technology, Thuwal, Saudi Arabia; 2Fuel Technology Division, R&DC, Saudi Aramco, Saudi Arabia
[P1-67]
Reactive Molecular Dynamics Simulation of Hydrogen/Oxygen Adsorption and Dissociation on Pd/TiO2
1
Mao Qian; 2*Luo Kai
1
Center for Combustion Energy, Tsinghua University, China; 2Department of Mechanical Engineering,
University College London, London, United Kingdom
[P1-68]
Plug Flow Reactor Set-up evaluation with methane decomposition at mild conditions and
overpressure
1*
Rodriguez-Henriquez Jose Juan; 1Seidel Lars; 1Mauß Fabian
1
Thermodynamic and Thermal Process Engineering, Brandenburg University of Technology, Cottbus,
Germany
[P1-69]
Simulating the octane appetite of SI engines: the influence of chemical mechanisms
1;2*
Somers Kieran Patrick; 2Cracknell Roger F.; 1Curran Henry J.
1
School of Chemistry, Combustion Chemistry Centre, Galway, Ireland; 2PTD/FRET, Shell Global
Solutions, United Kingdom
18
[P1-70]
Investigations of available experimental and modeling data on the oxidative coupling
and partial oxidation of methane
1
Pálvölgyi Róbert; 1;2*Varga Tamás; 1Turányi Tamás
1
Institute of Chemistry, Eötvös Lorand University, Budapest, Hungary; 2MTA-ELTE Research Group on
Complex Chemical Systems, Budapest, Hungary
[P1-71]
A Rapid Compression-Expansion Machine: The experimental setup and first results with
DME-air mixtures
1*
Werler Marc; 1Schießl Robert; 1Maas Ulrich
1
Institute of Technical Thermodynamics, Karlsruhe Institute of Technology, Karlsruhe, Germany
[P1-72]
A high-temperature shock-tube study on the optical properties and pyrolysis of anisole
1*
Zabeti Siavash; 1Aghsaee Mohammad; 1Fikri Mustapha; 1Welz Oliver; 1Schulz Christof
1
Institute for Combustion and Gas Dynamics – Reactive Fluids, University of Duisburg-Essen, Duisburg, Germany
[P1-73]
A kinetic modeling study on the oxidation of five hexane isomers
1*
Zhang Kuiwen; 1Banyon Colin K.; 1Bugler John J.; 1Curran Henry J.
1
Combustion Chemistry Center, National University of Ireland, Galway, Ireland
[P1-75]
Analysis of numerical models for the formation of NOx for combustion of gases in the
strong swirl flow
1*
Grzymislawski Przemyslaw; 1Jojka Joanna; 1Slefarski Rafal
1
Laboratory of Gas Technology, Poznan University of Technology, Poznan, Poland
[P1-76]
Study of prompt NO formation during methyl esters combustion in low pressure premixed
flames
1*
Sylla Marame Diamb; 2Lamoureux Nathalie; 3Gasnot Laurent
1
PC2A, Lille, France; 2UFR Chimie- University Lille1, PC2A, France; 3UFR Chimie-University Lille1, PC2A,
France
[P1-77]
A parametric study on the sulfur species distribution within the cylinder of modern diesel
engines
1*
Bösenhofer Markus; 1Winter Franz
1
Institute of Chemical Engineering, Vienna University of Technology, Vienna, Austria
19
[P1-79]
The oxidation of γ-valerolactone in a low pressure flame
1*
Sudholt Alena; 2Glaude Pierre-Alexandre; 1Pitsch Heinz; 2Battin-Leclerc Frédérique
1
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany; 2Laboratoire
Réaction et Génie des Procédés, CNRS, Université de Lorraine, ENSIC, France
[P1-80]
Comparison of different chemical kinetics modeling codes
1*
Van Damme Stefanie; 1Contino Francesco
1
Mechanical Engineering, Vrije Universiteit Brussel, Belgium
Poster session 2 - Tuesday, 31 March, 15:00-18:00
[P2-01]
Surrogate fuel formulation for light naphtha combustion in advanced combustion engines
1*
Ahmed Ahfaz; 1Khurshid Muneeb; 2Badra Jihad; 2Gaillard Pattrick; 1Roberts William L.; 1Sarathy
Mani
1
Clean Combustion Research Center , King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia; 2Fuel Technology Team, R & D Center, Saudi Aramco, Saudi Arabia
[P2-03]
Evaluation of Repeatability of Rapid Compression Machine Under Selected Conditions
1*
Cieslik Wojciech; 1Pielecha Ireneusz; 1Borowski Przemyslaw
1
Institute of Combustion Engines and Transport, Poznan University of Technology, Poznan, Poland
[P2-05]
Characterization of nozzle tip temperature of diesel injector in a dual fuel engine
1;3*
Czarneski Fabio; 1Och Stephan H.; 1Moura Luís M.
1
PPGEM, Pontifícia Universidade Católica do Paraná - PUCPR, Brazil; 3Robert Bosch Limitada
[P2-07]
Comparison of diesel fuel and hydrogenated vegetable oil combustion in an optical engine by means of simultaneous two-colour imaging and OH* chemiluminescence
1*
Dragomirov Plamen; 1Sauerhering Joerg; 2Hadler Jens; 3Rottengruber Hermann; 1Schmidt Juergen; 1Beyrau Frank
1
Department of Fluid Dynamics and Thermodynamics, Otto von Guericke University Magdeburg,
Magdeburg, Germany; 2Department of competence in automobility, Otto von Guericke University
Magdeburg, Germany; 3Department of Mobile Systems, Otto von Guericke University Magdeburg,
Germany
[P2-10]
Syngas production in piston engines - operating conditions proposed by numerical optimization
1*
Gossler Hendrik; 1Deutschmann Olaf
1
Institute for Chemical Technology and Polymer Chemistry, Karlsruhe Institute of Technology, Karlsruhe, Germany
[P2-11]
A Novel Injector Deposit Fuel Test Method: “ENIAK”
1*
Hoffmann Hajo; 1Koch Winfried; 2Lucka Klaus
1
Fuels, OWI Oel-Waerme-Institut GmbH, Herzogenrath, Germany; 2CEO, OWI Oel-Waerme-Institut
GmbH, Germany
20
21
[P2-12]
Analysis of stress and temperature distribution of the outlet valve made of titanium alloy
Ti6Al4V
1*
Moćko Wojciech
1
Motor Transport Institute, Warsaw, Poland
[P2-15]
LES analysis of super-knock in a downsized spark ignition engine
1*
Robert Anthony; 1Truffin Karine; 1Colin Olivier; 1Angelberger Christian
1
Engine and Vehicle Modeling Department, IFP Energies nouvelles, Paris, France
[P2-16]
Simultaneous high-speed imaging and laser-induced incandescence (LII) for investigation
of the sooting combustion of ethanol fuel blends in a DISI engine
1;2*
Storch Michael; 1;2Nguyen Anh Duc; 1;2Wensing Michael; 1;2Will Stefan; 1;2Zigan Lars
1
Institute of Engineering Thermodynamics (LTT), Friedrich-Alexander-Universität Erlangen-Nürnberg
(FAU), Erlangen, Germany; 2Erlangen Graduate School in Advanced Optical Technologies (SAOT),
Germany
[P2-17]
Particulate matter emissions from a heavy duty vehicle fuelled by petroleum diesel and
used cooking oil blends
1*
Tomlin Alison; 1Dizayi Buland; 1Li Hu
1
Energy Research Institute, University of Leeds, Leeds, United Kingdom
[P2-18]
A comparative study on the effect of simulated EGR environment on spray characteristics
under engine-like conditions
1
Hong Christopher; 1Ramaswamy Kumara G; 1Touloupis Dimitris; 1;5Keramiotis Christos;
1
Soulopoulos Nikolaos; 2Founti Maria A.; 3Mastorakos Epaminondas; 1Hardalupas Yannis; 1Taylor
Alex M.k.p.; 4;5*Vourliotakis George
1
Thermofuids Division, Imperial College London, United Kingdom; 2School of Mechanical Engineering, National Technical University of Athens, Greece; 3Department of Engineering, University of Cambridge, United Kingdom; 4Mechanical Engineering Department, Imperial College London, London,
United Kingdom; 5Lab. of Heterogeneous mixtures and combustion systems, National Technical
University of Athens
[P2-19]
A parametric investigation of HCCI operating conditions on engine performance characteristics using detailed kinetic simulations
1*
Vourliotakis George; 2Malliotakis Zisis; 2Keramiotis Christos; 3Hatziapostolou Antonios;
2
Founti Maria A.
1
Mechanical Engineering Department, Imperial College London, London, United Kingdom; 2School
of Mechanical Engineering, National Technical University of Athens, Greece; 3Department of Energy
Technology Engineering, Technological Educational Institute of Athens, Greece
[P2-20]
Experimental Study on Low Temperature and Diesel Conventional Combustion by Fueling
Blends of RON70
1*
Wang Shuli; 1Visser A.j.m. De (arjan); 1Somers L.m.t. (bart)
1
Department of Mechanical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands
[P2-21]
Effect of pilot injection timing on the two-stage combustion characteristics of diesel fuel
and n-heptane studied in a rapid compression machine
1;2*
Will Stefan; 1;2Werblinski Thomas; 1Schmid Christian; 1;2Zigan Lars
1
LTT - Inst. of Engineering Thermodynamics, Univ Erlangen-Nürnberg, Erlangen, Germany; 2Erlangen
Graduate School in Advanced Optical Technologies (SAOT), Universität Erlangen-Nürnberg, Erlangen, Germany
[P2-23]
Impact of the Air to Fuel Jet Momentum Ratio on the NOx Emissions of a Hydrogen Combustion Chamber
1*
Borm Oliver
1
Graz University of Technology, Graz, Austria
[P2-24]
Effect of Exhaust Gas Dilution Rate on Formation of Flameless Combustion of Liquid Fuel
1*
Cha Chunloon; 1Lee Hoyeon; 1Hwang Sangsoon
1
Department of Mechanical System Engineering, Incheon National University, Incheon, Republic Of
Korea
[P2-25]
Prediction of the combustor emissions using chemical reactors network.
1*
Chechet Ivan V.; 1Krasovskaia Iuliia V.; 1Lukachev S. V.; 1Matveev Sergey G.
1
Scientific Educational Center of Fluid Dynamic Researches, Samara State Aerospace University,
Samara, Russian Federation
22
23
[P2-26]
Fuel-specific compact kinetic models for conventional and alternative aviation fuels
1*
Dooley Stephen; 2Haas Francis M; 2Santner Jeffrey; 2Won Sang Hee; 2Dryer Frederick
1
University of Limerick, Limerick, Ireland; 2Mechanical & Aerospace Engineering, Princeton University,
United States
[P2-27]
Detailed Ignition Sequence Studied with a Fast Infrared Camera
1*
Guyot Eric; 2Dechamplain Alain; 2Jean Joël; 2Fossi Alain
1
Telops France, Athis-Mons, France; 2Dep. of Mechanical Engineering, Combustion Lab., Université
Laval, Canada
[P2-28]
Numerical Study of Stabilizer Jets Effects on Combustion Characteristics in a Jet Stabilizer
Combustor
1*
Hamed Zeinivand
1
Department of Aerospace engineering, Sharif University of Technology, Tehran, Islamic Republic Of Iran
[P2-30]
Analysis of Spray Combustion in a Micro Turbine Combustor by using LES Modelling
1
Yang Z.; 1Grote M.; 2*Hermanns Roy
1
Modelling, OWI Oel-Waerme-Institut GmbH, Germany; 2OWI Oel-Waerme-Institut GmbH,
Herzogenrath, Germany
[P2-31]
Flow dynamics in turbulent stratified lean-premixed flames under acoustic velocity forcing
1*
Kamal M. Mustafa; 1Hochgreb Simone
1
Engineering, University of Cambridge, Cambridge, United Kingdom
[P2-35]
Effect of turbulence and temperature fluctuations on syngas auto-ignition
1*
Pal Pinaki; 2Im Hong G.; 1;3Wooldridge Margaret S.; 1Mansfield Andrew B.
1
Mechanical Engineering, University of Michigan, Ann Arbor, United States; 2Clean Combustion
Research Center, King Abdullah University of Science and Technology, Saudi Arabia; 3Department of
Aerospace Engineering, University of Michigan, Ann Arbor
[P2-36]
An alternate approach for processing data on nonlinear flame-acoustic interaction
1*
Sailor Anna; 2Saurabh Aditya; 2Kabiraj Lipika; 3Karimi Nader; 4Mastorakos Epaminondas;
4
Dowling Ann; 2Paschereit Christian Oliver
1
University of Wisconsin-Madison, Madison, United States; 2Chair of Fluid Dynamics, Technische Universitaet, Berlin, Germany; 3School of Engineering, University of Glasgow, United Kingdom; 4Department of Engineering, University of Cambridge, United Kingdom
[P2-37]
Experiments on the effect of noise on a model thermoacoustic system at its stability
boundary
1
Steinert Richard; 1Kabiraj Lipika; 1Paschereit Christian Oliver; 1*Saurabh Aditya
1
ISTA, Chair of Fluid Dynamics, Germany
[P2-38]
Transfer function measurements for a transversally forced swirl flame
1*
Saurabh Aditya; 1Paschereit Christian Oliver
1
ISTA, Chair of Fluid Dynamics, Berlin, Germany
[P2-40]
Prediction of Spark Ignition Performance in an Industrial Gas Turbine Combustor
1*
Soroudi Mohammad Ali; 1Mollahasanzadeh Ehsan; 1Rasooli Nasser
1
Combustion Chamber Group, Turbotec Company, Tehran, Islamic Republic Of Iran
[P2-41]
Chemical kinetic modeling of JET A combustion in a turbojet combustor - CFD simulation
and experimental studies
1*
Suchocki Tomasz; 1Lampart Piotr
1
Turbine Department, The Szewalski Institute of Fluid-Flow Machinery Polish Academy of Sciences,
Gdansk, Poland
[P2-42]
Entrainment rate and mixing process in a COnfined COunterflow Reactor (CO²Re)
1;2*
Varea Emilien; 2Berger Lukas; 2Kruse Stephan; 2Pitsch Heinz
1
Combustion and Turbulence Research Department, CORIA, Rouen, France; 2Combustion Research,
ITV RWTH Aachen University, Germany
[P2-43]
Investigation of Thermo-acoustic Oscillations in a Trapped Vortex Model Combustor
1*
Xavier Pradip; 1Vandel Alexis; 1Godard Gilles; 1Renou Bruno; 1Grisch Frédéric; 1Cabot Gilles; 1Boukhalfa
Mourad A; 2Cazalens Michel
1
Department of Reactive flow, CNRS-CORIA research lab, Saint Etienne Du Rouvray, France; 2R&T, SAFRAN, France
24
25
[P2-44]
Effect of combustion on swirled flow structure after an industrial burner
1*
Zubrilin Ivan; 1Mishenkov Sergey Yu.; 1Didenko Aleksey A.; 1Matveev Sergey G.
1
Scientific and Educational Center of Fluid Dynamic Research, Samara State Aerospace University,
Samara, Russian Federation
[P2-52]
Beta -PDF numerical modeling of swirling flames
1*
Santos Teresa P.; 2Perez José R.; 2Rodriguez Miguel A.
1
University of Valladolid, Valladolid, Spain; 2Energy and Fluid Mechanics, University of Valladolid,
Spain
[P2-45]
Ignition of sprays from impinging jets of green propellants: ethyl alcohol and hydrogen
peroxide
1*
Indiana Clément; 1Boust Bastien; 1Bellenoue Marc
1
Fluids Thermics and Combustion Department, Institut PPRIME, CNRS/ISAE-ENSMA/Université de
Poitiers, Futuroscope Chasseneuil Cedex, France
[P2-53]
Experimental investigation of a concept for scale free reheating of semi-finished metal
products
1*
Schwotzer Christian; 1Schnitzler Matthias; 1Pfeifer Herbert; 2Ackermann Helen; 2Lucka Klaus
1
Dept. for Industrial Furnaces and Heat Engineering, RWTH Aachen University, Aachen, Germany;
2
High Temperature Engineering, OWI Oel-Waerme-Institut GmbH, Germany
[P2-47]
Simulation of detonation in particulate systems with applications to pulse detonation
engines
1
Bulat Pavel; 2*Volkov Konstantin
1
Gas Dynamics Laboratory, St Petersburg National Research University of Mech, Russian Federation;
2
Centre for Fire and Explosion Studies, Kingston University, London, United Kingdom
[P2-54]
Development of the Low NOx Two-Staged Tubular Flame Burner with Intercooling under
Near Stoichiometric Conditions
1*
Shiraga Yosuke; 2Hori Tsukasa; 2Hayashi Jun; 2Kegasa Akeshi; 2Akamatsu Fumiteru
1
Energy Technology Laboratories, OSAKA GAS CO., LTD., Osaka, Japan; 2Graduate School of
Engineering, Osaka University, Japan
[P2-48]
PIV measurements of flow field in a partially premixed bluff body burner
1*
Dutka Marcin; 2Ditaranto Mario; 1Løvås Terese
1
Department of Energy and Process Engineering, Norwegian University of Science and Technology,
Trondheim, Norway; 2Energy Research, SINTEF, Norway
[P2-55]
Development of sulfur-tolerant ATR catalysts for portable auxiliary low-power units
1
Zarvalis Dimitrios; 1*Skevis George; 1Karagiannakis George; 1Zygogianni Alexandra; 1Lorentzou
Souzanna; 1Konstandopoulos Athanasios G.
1
Aerosol & Particle Technology Laboratory (APTL), Chemical Process & Energy Resources Institute/
Centre for Research & Technology Hellas (CPERI/CERTH), Greece
[P2-49]
Investigations on the use of biogas for glass melting
1*
Leicher Jörg; 1Giese Anne; 2Fleischmann Bernhard; 3Wuthnow Hartmut
1
Industrial Combustion Technology, Gas- und Wärme-Institut Essen e.V., Essen, Germany; 2Glass Technology, HVG e.V., Germany; 3Refractory Materials, Forschungsgemeinschaft Feuerfest e.V., Germany
[P2-51]
Large Eddy Simulation of Co-Firing of Biomass with Coal in a Large-Scale Furnace
1;3*
Rabacal Miriam; 1Costa Mario; 2Kempf Andreas
1
Department of Mechanical Engineering, Instituto Superior Técnico, University of Lisbon, Lisbon,
Portugal; 2Department of Mechanical Engineering, University of Duisburg-Essen, Germany; 3Chair of
Fluid Dynamics, University of Duisburg-Essen, Germany
26
[P2-57]
Extension of the limitations of use of flameless oxidation for small burner capacities
1*
Blinn Sajoscha; 1Schnitzler Matthias; 1Pfeifer Herbert; 2Wünning Joachim G.; 2Cresci Enrico
1
Dept. for Industrial Furnaces and Heat Engineering, RWTH Aachen University, Aachen, Germany;
2
Research and Development, WS Wärmeprozesstechnik GmbH, Germany
[P2-58]
Thermal behavior and gaseous emission analysis during combustion of some coal
samples using TG-MS-FTIR
1
Jun-Jie Weng; 1Guan-Fu Pan; 1Hong-De Xia; 1*Tian Zhen-Yu
1
Institute of Engineering Thermophysics, Chinese Academy of Sciences, China
27
[P2-59]
Dynamics and Responses of Small Diffusion Flames Under Low Frequency AC Electric Fields
1*
Xiong Yuan; 1Cha Minsuk; 1Chung Sukho
1
CCRC, KAUST, Jeddah, Saudi Arabia
[P2-65]
Improvement of the numerical framework for selective catalytic reduction applications
1*
Baleta Jakov; 2Vujanović Milan; 2Duić Neven; 3Pachler Klaus; 3Schellander David
1
University of Zagreb, Zagreb, Croatia; 2FMENA, University of Zagreb, Croatia; 3AST, AVL List GmbH, Austria
[P2-60]
Numerical and experimental investigation of early iron particle formation in Fe(CO)5
doped premixed H2/O2/Ar flames at low pressure
1*
Deng Lei; 2Kluge Sebastian; 1Sikalo Nejra; 1Hasemann Olaf; 2Wiggers Hartmut; 2Schulz Christof;
1
Kempf Andreas; 1Wlokas Irenaeus
1
Fluid Dynamics, University of Duisburg-Essen, Duisburg, Germany; 2Reactive Fluids, University of
Duisburg-Essen, Germany
[P2-66]
A Nuclear Magnetic Resonance Orientated Combustion Property Regression
1*
Dooley Stephen; 2Dryer Frederick; 2Won Sang Hee
1
University of Limerick, Limerick, Ireland; 2Mechanical and Aerosapce Engineering,
Princeton University, United States
[P2-61]
A Polygeneration Process Concept for Methane fueled HCCI-Piston Engines Modeling of
syngas cleanup and exergy losses
1*
Hegner Robert; 1Atakan Burak
1
Mechanical Engineering - Thermodynamics, University of Duisburg-Essen, Duisburg, Germany
[P2-62]
Synthesis of carbon nanotubes on catalysts prepared by solution combustion on glass-fibers
1;4
Smagulova Gaukhar T; 2Mansurov Nurkadir B; 1Prikhodko Nikolay G; 1Mironenko Anatoly V;
3
Zahidov Anvar A; 1;4Mansurov Zulkhair A;
1
Synthesis of hydrocarbon materials in flame, Institute of Combustion Problems, Kazakhstan;
2
RSPMSBS, Institute of Combustion Problems, Kazakhstan; 3NanoTech Institute, University of Texas at
Dallas, United States; 4Al – Farabi University, Almaty, Kazakhstan
[P2-63]
Synthesis of single and few layer graphenes in flames
1;2*
Mansurov Zulkhair; 1Prikhodko Nikolay G; 1;2Auyelkhankyzy Moldir; 1;2Lesbayev Bakhytzhan T;
1;2
Nazhipkyzy Meruyert
1
Synthesis of hydrocarbon materials in flame, Institute of Combustion Problems, Almaty, Kazakhstan; 2Al - Farabi Kazakh National University, Almaty, Kazakhstan
[P2-64]
Approach to standardize a spray-flame nanoparticle synthesis burner
1*
Menser Jan; 1Kluge Sebastian; 1;2Wiggers Hartmut; 1;2Dreier Thomas; 1;2Schulz Christof
1
Institute for Combustion and Gasdynamics - Reactive Fluids, University of Duisburg-Essen,
Duisburg, Germany; 2CENIDE, Center for Nanointegration, Duisburg, Essen
28
[P2-67]
Microwave stimulated combustion investigated by laser diagnostics and chemical kinetics
1*
Ehn Andreas; 1Petersson Per; 2Hurtig Tomas; 1Zhou Bo; 1Zhongshan Li; 1Aldén Marcus;
2
Larsson Anders; 3Larfeldt Jenny; 2Niklas Zettervall; 2Fureby Christer
1
Physics Department, Lund University, Lund, Sweden; 2Defense & Security Systems and Technology,
Swedish Defense Research Agency – FOI, Sweden; 3Siemens Industrial Turbomachinery AB, SIEMENS, Sweden
[P2-68]
Oxidation and combustion characteristics of 2-methylhexane in a micro flow reactor with
a controlled temperature profile
1*
Khurshid Muneeb; 1Lee Bok; 2Nakamura Hisashi; 1Goteng Gokop; 2Maruta Kaoru; 1Sarathy Mani
1
Clean Combustion Research Center, KAUST, Thuwal - Jeddah, Saudi Arabia; 2Institute of Fluid Science, Tohoku University, Japan
[P2-69]
Experimental investigation of MILD/Flameless Combustion in a lab-scale cyclonic burner.
1*
Sorrentino Giancarlo; 2Sabia Pino; 2De Joannon Mara; 1Cavaliere Antonio; 2Ragucci Raffaele
1
DICMAPI, Università Federico II di Napoli, Naples, Italy; 2Istituto di ricerche sulla combustione, CNR, Italy
[P2-70]
Effects of gliding arc discharge penetrating a premixed flame
1*
Zhu Jiajian; 1Gao Jinlong; 1Li Zhongshan; 1Ehn Andreas; 1Aldén Marcus; 2Larsson Anders; 2Hurtig Tomas; 3Kusano Yukihiro
1
Division of Combustion Physics, Lund University, Lund, Sweden; 2Swedish Defence Research Agency,
Sweden; 3Department of Wind Energy, Technical University of Denmark, Denmark
29
[P2-71]
An integrated methodology towards a comparison of conventional combustion technology
with microwave technology in energy intensive firing processes
1*
Dorn Corina; 1Behrend Ralph; 1Uhlig Volker; 2Giannopoulos Dimitrios; 2Founti Maria;
3
Trimis Dimosthenis
1
Institute of Thermal Engineering, TU Bergakademie Freiberg, Freiberg, Germany; 2School of Mechanical Engineering, National Technical University of Athens, Greece; 3Engler-Bunte-Institute, Karlsruhe
Institute of Technology, Germany
[P2-74]
CFD modelling of diesel spray and combustion using homogenous gas phase reactions
within the Euler-Eulerian framework
1*
Petranović Zvonimir; 2Edelbauer Wilfried; 1Vujanović Milan; 1Duić Neven
1
Department of Energy, Power Engineering and Environment, University of Zagreb, Zagreb, Croatia;
2
AST, AVL List GMBH, Austria
[P2-75]
Numerical Characterization and Sensitivity Analysis of Post-Compression Temperature
Non-Uniformity in a Twin-Piston Rapid Compression Machine
1;2*
Yousefian Najafabadi Sajjad; 2J. Curran Henry; 2Banyon Colin; 1Gauthier Francois; 1Moran-Guerrero Amadeo; 1Richardson Robert R.; 1Quinlan Nathan; 1;2F. D. Monaghan Rory
1
Mechanical Engineering Department, National University of Ireland, Galway, Ireland; 2Combustion
Chemistry Centre, National University of Ireland, Ireland
Poster session 3. - Wednesday, 1 April, 10:00-13:00
[P3-01]
NH2 detection in fuel-nitrogen combustion using an Alexandrite laser
1*
Brackmann Christian; 1Zhou Bo; 1Li Zhongshan; 1Aldén Marcus
1
Division of Combustion Physics, Lund University, Lund, Sweden
[P3-02]
Quantitative effects of soot annealing on particle sizing with LII modeling
1*
Cenker Emre; 1Lisanti Joel; 1Roberts William L.
1
Clean Combustion Research Center, KAUST, Thuwal, Saudi Arabia
[P3-03]
Soot formation in Partially Premixed Flamesover a Wide Range of Premixedness
1*
Chakraborty Aritra; 1Kumar A. Vinoth; 1T.m. Muruganandam; 1Chakravarthy Satyanarayanan R.
1
Aerospace Engineering, I.I.T. Madras, Chennai, India
[P3-04]
Investigations of BAM:Eu as a tracer material for Thermographic Particle Image Velocimetry
1*
Fond Benoit; 1Abram Christopher; 2Beyrau Frank
1
Mechanical Engineering Imperial College London, London, United Kingdom; 2Lehrstuhl für Technische Thermodynamik, Otto-von-Guericke Universität Magdeburg, Germany
[P3-05]
Simultaneous Mie/OH-PLIF Imaging of the Reaction Zone of Pulverized Coal Combustion
in O2/N2 and O2/CO2
1
Balusamy Saravanan; 1*Kamal M. Mustafa; 1Hochgreb Simone
1
Engineering, University of Cambridge, United Kingdom
[P3-06]
Temperature measurement in plasma-assisted flames: comparison between optical emission spectroscopy and 2-color laser induced fluorescence techniques
1*
Lacoste Deanna; 2Heitz Sylvain; 3Moeck Jonas P.
1
CCRC, KAUST, Thuwal, Saudi Arabia; 2Laboratoire EM2C CNRS, Ecole Centrale Paris, France; 3ISTA, TU
Berlin, Germany
[P3-08]
Comprehensive Laser-induced Incandescence (LII) modeling for soot particle sizing
1*
Lisanti Joel; 1Cenker Emre; 1Roberts William
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
30
31
[P3-09]
Validation of a numerical model of oxy-fuel combustion in laminar and turbulent jet
flames by direct prediction of experimental quantities
1*
Meor Zulkifli Meor Mohd Faisal; 2Hunger Franziska; 2Hasse Christian; 1Williams Benjamin A.o.;
1
Beyrau Frank
1
Mechanical Engineering, Imperial College London, London, United Kingdom; 2Chair of Numerical
Thermo-Fluid Dynamics, Technische Universitat Bergakademie Freiberg, Germany
[P3-10]
Correlation characteristics of laser-induced soot incandescence and flame luminosity in
diesel spray combustion
1*
Montanaro Alessandro; 1Allocca Luigi; 2Zhang A.
1
National Research Council Istituto Motori, Napoli, Italy; 2Michigan Technological University, United States
[P3-11]
Spectroscopic studies of carbon monoxide: application for detection in flames
1*
Orain Mikael; 1Carrivain Olivier; 1Dorval Nelly; 2Morin Celine; 3Legros Guillaume
1
Department of Physics and Instrumentation, ONERA, Palaiseau, France; 2TEMPO, UVHC, France;
3
IJLRDA, UPMC, France
[P3-12]
One-dimensional Rainbow Technique to Characterize the Evaporation at Ambient Temperature and Evaporation in a Flame of Monodispersed Droplets
1;2*
Promvongsa Jantarat; 1Wu Yingchun; 1Grehan Gerard; 1Saengkaew Sawitree; 2;3Fungtammasan Bundit; 3Vallikul Pumyos
1
CNRS UMR 6614-CORIA,Saint Etienne Du Rouvray, France; 2Joint Graduate School of Energy and
Environment, King Mongkut’s University of Technology Thonburi, Thailand; 3Mechanical and Aerospace Engineering, King Mongkut’s University of Tech. North Bangkok, Thailand
[P3-13]
In-situ combustion sensor for methane and acetylene using mid-infrared absorption of a
quantum cascade laser
1*
Sajid Muhammad Bilal; 1Javed Tamour; 1Farooq Aamir
1
Clean Combustion Research Center, King Abdullah University of Science & Technology, KAUST, Thuwal, Saudi Arabia
[P3-14]
PIV measurements of the velocity distribution in an impinging turbulent swirl flame
1*
Schnitzler Matthias; 1Blankenstein Maren; 1Pfeifer Herbert
1
Dept. for Industrial Furnaces and Heat Engineering, RWTH Aachen University, Aachen, Germany
32
[P3-15]
High spatial resolution and sensitivity laser cavity extinction measurements of soot
volume fraction in nitrogen diluted methane flames
1*
Tian Bo; 1Gao Yi; 1Balusamy Saravanan; 1Hochgreb Simone
1
Department of Engineering, University of Cambridge, Cambridge, United Kingdom
[P3-16]
Oxy-fuel combustion analysis in an industry relevant furnace via vibrational CARS
thermometry
1;2*
Tröger Johannes W.; 1;2Seeger Thomas
1
Technical Thermodynamics, University of Siegen, Siegen, Germany; 2Erlangen Graduate School in
Advanced Optical Technologies (SAOT), 91052 Erlangen, Germany
[P3-17]
Supercontinuum Broadband Laser Absorption Spectroscopy for spatially resolved Methane Measurements in Combustion Environments
1
Blume Niels G.; 2;4Ebert Volker; 3Dreizler Andreas; 1*Wagner Steven
1
High Temperature Process Diagnostics, Technische Universität Darmstadt, Germany; 2Analytics
and Thermodynamic State Behaviour of Gas, Physikalisch-Technische Bundesanstalt Braunschweig,
Germany; 3Reactive Flows and Diagnostics, Technische Universität Darmstadt, Germany; 4Center of
Smart Interfaces - Analytical Photonics; Technische Universität Darmstadt, Germany
[P3-18]
3D measurement of burning coal particle field with digital holography
1;2*
Wu Yingchun; 2Wu Xuecheng; 1Grehan Gerard; 2Cen Kefa
1
CNRS UMR 6614/CORIA, Rouen, France; 2Department of energy, Zhejiang University, State Key Laboratory of Clean Energy Utilization, China
[P3-20]
High-precision flow temperature imaging using ZnO thermographic phosphor tracer particles
1*
Abram Christopher; 1Fond Benoit; 2Beyrau Frank
1
Mechanical Engineering, Imperial College London, Falmouth, Cornwall, United Kingdom; 2Lehrstuhl
für Technische Thermodynamik, Otto-von-Guericke Universität Magdeburg, Germany
[P3-21]
Fiber Laser Intracavity Absorption Spectroscopy measurements of combustion product
concentration and temperature
1
Alexey Fomin; 1Tatiana Zavlev; 1Vladimir Tsionsky; 2Igor Rahinov; 1*Cheskis Sergey
1
School of Chemistry, Tel Aviv University, Israel; 2Department of Natural Sceinces,The Open University
of Israel, Israel
33
[P3-22]
Optical heat flux and temperature measurements on a 100 kW oxy-fuel combustor
1*
Draper Teri; 2Toth Pal; 1Eddings Eric; 1Ring Terry
1
Chemical Engineering, University of Utah, Salt Lake City, United States; 2Combustion and Thermal
Energy, University of Miskolc, Hungary
[P3-23]
Comparison and investigation of selected aromatic and ketone fluorescent tracers considering possible self-quenching effects
1*
Fuhrmann Daniel; 1Benzler Thorsten; 1Wellner Mareen; 1Kaiser Sebastian A.; 1Dreier T.; 1Schulz C.
1
Institute for Combustion and Gas Dynamics, University of Duisburg-Essen, Duisburg, Germany
[P3-25]
Comparison of flame-front visualization in internal combustion engines using different
imaging systems via endoscopic and full optical access
1*
Goschütz Martin; 1Schild Martin; 1Shawal Syahar; 1Schulz Christof; 1Kaiser Sebastian A.
1
Institute for Combustion and Gasdynamics, University of Duisburg-Essen, Duisburg, Germany
[P3-26]
Measurement of low concentrations of acetylene at 730 cm-1 (13.7 um) by direct
absorption spectroscopy
1*
Kc Utsav; 1Nasir Ehson; 1Farooq Aamir
1
Clean Combusiton Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P3-27]
Multi-pulse RGB illumination and detection for Particle Tracking Velocimetry
1*
Menser Jan; 1;2Dreier Thomas; 1Kaiser Sebastian; 1;2Schulz Christof
1
Institute for Combustion and Gasdynamics - Reactive Fluids, University of Duisburg-Essen,
Duisburg, Germany; 2CENIDE, Center for Nanointegration Duisburg Essen; Germany
[P3-28]
Application of camera based methods for study of oxygen enriched premixed ethylene/
air flames
1;3*
Ögren Yngve; 2Sepman Alexey; 2;3Wiinikka Henrik
1
Energy technology Centre, Piteå, Sweden; 2Energy Technology Centre, Sweden; 3Energy Engineering,
Luleå University of Technology, Sweden
34
[P3-29]
Development and commissioning of a chemiluminescence imaging system for an optically-accessible high-pressure generic swirl burner
1*
Runyon Jon; 2Marsh Richard; 2Sevcenco Yura; 2Pugh Daniel; 2Morris Steve
1
Cardiff University Gas Turbine Research Centre, Cardiff, United Kingdom; 2School of Engineering,
Cardiff University Gas Turbine Research Centre, United Kingdom
[P3-31]
Development of TDLAS sensor for diagnostics of the key parameters in pilot-scale gasification process.
1*
Sepman Alexey; 2Örgen Yngve; 2Gullberg Marcus; 2Wiinikka Henrik
1
Energy Technology Centre, Piteå, Sweden; 2Energy Technology Centre, Sweden
[P3-32]
Time Averaged Centerline Soot Particle Size Distribution in a Turbulent Diffusion Flame
using a Scanning Mobility Particle Sizer (SMPS)
1*
Chowdhury Snehaunshu; 1Boyette Wesley R.; 1Roberts William L.
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P3-33]
Combination of molecular beam sampling and laser-based techniques for studies of
flame-assisted material synthesis: the case of Iron Oxide
1
Poliak Marina; 1Fomin Alexey; 1Tsionsky Vladimir; 1Cheskis Sergey; 2Wlokas Irenaeus;
3*
Rahinov Igor
1
School of Chemistry, Tel Aviv University, Israel; 2Institute for Combustion and Gasdynamics, University of Duisburg Essen, Germany; 3Department of Natural Sciences, Chemistry Division, The Open
University of Israel, Raanana, Israel
[P3-34]
1D single-shot spontaneous Raman scattering for temperature and multi-species measurements in flame. Comparison of back-illuminated CCD with EMCCD and ICCD cameras
1*
Ajrouche Hassan; 1Lo Amath; 1Vervisch Pierre; 1Ba Abou; 1Cessou Armelle
1
Department of Reactive Flows, CORIA UMR 6614 CNRS, Saint Etienne Du Rouvray, France
[P3-35]
Simultaneous High-Speed Tomography and Schlieren Measurements of Spherically
Expanding Methane/Air Flames
1*
Beeckmann Joachim; 2Varea Emilien; 2Renou Bruno; 1Pitsch Heinz
1
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany; 2CNRS UMR 6614
– CORIA, Université de Rouen, France
35
[P3-36]
Propagation Behaviors of Premixed Flames of R134a/CH4/O2/N2 Mixtures
1*
Choi Byung Chul; 1Park June Sung
1
Korean Register of Shipping, Seoul, Republic Of Korea
[P3-38]
Measurements of the laminar Burning Velocity of ethanol-water-air mixtures
1*
Hermanns Roy; 2Haas-Wittmüß Richard
1
OWI Oel-Waerme-Institut GmbH, Herzogenrath, Germany; 2Combustion Technology, OWI
Oel-Waerme-Institut GmbH, Germany
[P3-40]
Effects of residual combustion gases at Elevated Pressures on Laminar Burning Velocities
for Gasoline and Gasoline Surrogate
1*
Mannaa Ossama; 1;2Morkus Mansour
1
Mechanical Engineering Department, King Abdullah University of Science and Technology, Jeddah,
Saudi Arabia; 2Helwan University, Egypt
[P3-42]
Trends in laminar burning velocities of C2-C7 esters
1*
Nilsson Elna; 1Konnov Alexander A.
1
Combustion Physics, Lund University, Lund, Sweden
[P3-43]
The laminar burning velocity of iso-octane, ethanol and iso-butanol using the Heat Flux
burner and the closed combustion vessel
1*
Rau Florian; 1Schoen Bertram; 2Hartl Sandra; 1Voss Stefan; 2Hasse Christian; 3Trimis Dimosthenis
1
Institute of Thermal Engineering, TU Bergakademie Freiberg, Freiberg, Germany; 2Chair of Numerical
Thermo Dynamics, TU Bergakademie Freiberg, Germany; 3Engler-Bunte-Institute, Karlsruhe Institute
of Technology, Germany
[P3-44]
Temperature dependency of the laminar burning velocity of fuel-rich methane oxygen
measurements
1*
Sentko Matthias Martin; 1Weis Christof; 1Harth Stefan; 1Habisreuther Peter; 1Zarzalis Nikolaos;
1
Trimis Dimosthenis
1
Engler-Bunte-Institute, Division of Combustion Technology, Karlsruhe Institute of Technology (KIT),
Karlsruhe, Germany
36
[P3-45]
New methodology for the experimental determination of the consumption speed in
spherical vessels
1
Lefebvre Alexandre; 1Larabi Hakim; 1Moureau Vincent; 1Modica Vincent; 1*Varea Emilien; 1Renou Bruno
1
Combustion and Turbulence Research Department, CORIA, France
[P3-46]
A comparative study of laminar burning velocities of methane, methanol and ethanol
using the Heat Flux method
1*
Voss Stefan; 1Rau Florian; 2Alekseev V.a.; 3Konnov Alexander A.; 4Haas-Wittmüß R.; 4Hermanns
Roy T.e.; 5Volkov E.; 5De Goey L.p.h.
1
Institute of Thermal Engineering, TU Bergakademie Freiberg, Freiberg, Germany; 2Division of Combustion Physics, Lund University / Dept. of Physics, Sweden; 3Division of Combustion Physics, Lund
University / Dept. of Physics, Sweden; 4OWI Oel-Waerme-Institut GmbH, OWI Oel-Waerme-Institut
GmbH affiliated to RWTH Aa, Germany; 5Combustion Technology, University of Technology Eindhoven, Netherlands
[P3-47]
Laminar flame speed measurements of multicomponent Jet A1 and Luche kerosene surrogate fuels in elevated pressure and temperature conditions
1*
Wu Yi; 1Modica Vincent; 1Grisch Frédéric
1
Normandie Université, CNRS-Université, CORIA, UMR 6614- INSA de Rouen, Rouen, France
[P3-49]
Positive Ion Measurements in Premixed Methane-Oxygen Flames
1*
Alquaity Awad; 2Hourani Nadim; 2Chahine May; 2Selim Hatem; 2Sarathy S.mani; 1Farooq Aamir
1
Clean Combustion Research Center, Mechanical Engineering, KAUST, Thuwal, Saudi Arabia; 2Clean
Combustion Research Center, KAUST, Saudi Arabia
[P3-50]
Distinguishing reactive isomers in premixed laminar low-pressure flames by using PEPICO
spectroscopy
1*
Bierkandt Thomas; 2Hemberger Patrick; 3Oßwald Patrick; 3Köhler Markus; 4Akyildiz Erdal; 2Bodi
Andras; 2Gerber Thomas; 4Kasper Tina
1
Institute of Combustion and Gas Dynamics, University of Duisburg-Essen, Duisburg, Germany; 2Molecular Dynamics Group, Paul Scherrer Institut, Switzerland; 3Institute of Combustion Technology,
German Aerospace Center, Germany; 4Institute for Combustion and Gas Dynamics, University of
Duisburg-Essen, Germany
37
[P3-51]
The chemical structure of low pressure premixed flames fired by iso butanol / 1,3 butadiene mixtures
1*
Braun-Unkhoff Marina; 1Kathrotia Trupti; 2Hansen Nils
1
Institute of combustion Technology, DLR, Stuttgart, Germany; 2Combustion Research Facility, Sandia National Laboratories, United States
[P3-52]
Comparative study between transverse and longitudinal acoustic modes on a premixed V-shape flame
Cáceres Marcos; 1Lespinasse Florian; 1Domingues Eric; 1Baillot Françoise
Experimental Combustion, CORIA Laboratory, Saint Etienne Du Rouvray Cedex, France
1*
1
[P3-53]
Study on the influence of ethanol addition on exhaust gas composition and soot formation in iso-octane flames
1*
Frenzel Isabel; 1;2Trimis Dimosthenis
1
Institute of Thermal Engineering, TU Bergakademie Freiberg, Freiberg, Germany; 2Engler-Bunte-Institute, Div. of Comb. Technology, Karlsruhe Institute of Technology, Germany
[P3-55]
Photoionization time-of-flight mass spectrometry studies on iron pentacarbonyl-doped
hydrogen/oxygen flat flames
1*
Kluge Sebastian; 1Bierkandt Thomas; 1;2Wlokas Irenäus; 1;2Kasper Tina; 1;2Wiggers Hartmut;
1;2
Schulz Christof
1
Institute for Combustion and Gas Dynamics – Reactive Fluids, University of Duisburg-Essen, Duisburg, Germany; 2CENIDE, Center for Nanointegration Duisburg-Essen, Duisburg, Germany
[P3-57]
Experimental studies and kinetic modeling of ethyl valerate: flat flame structures and
laminar burning velocities
1
Mbuyi Katshiatshia Haddy; 1Dias Veronique; 1Jeanmart Hervé; 2Nilsson Elna; 2*Konnov Alexander
1
Institute of Mechanics, Materials and Civil Engine, Université catholique de Louvain, Belgium; 2Div.
of Combustion Physics, Lund University, Sweden
[P3-58]
The revealing of regularities of the hydrocarbon combustion kinetics via the structure of
a laminar flame front
1*
Kryzhanovskyi Iurii
1
Department of Combustion Engineering, Research Center “EcoEnergoComplex”, Kyiv, Ukraine
38
[P3-59]
Analysis of lift-off height and structure of n-heptane tribrachial flames in laminar jet configuration
1*
Luca Stefano; 1Bisetti Fabrizio
1
Clean Combustion Research Center, KAUST, Thuwal, Saudi Arabia
[P3-60]
Detailed Comparison of the Combustion Chemistry of two Pentanol Isomers
1;3*
Lucassen Arnas; 2Park Sungwoo; 2Sarathy S. Mani; 3Hansen Nils
1
Department 3.3 Thermophysical Properties, Physikalisch technische Bundesanstalt, Braunschweig,
Germany; 2Clean Combustion Research Center, King Abdullah University of Science and Technology,
Saudi Arabia; 3Combustion Research Facility, Sandia National Laboratories, United States
[P3-61]
Flame chemistry of alkane-rich gasoline fuels and a surrogate using photoionization mass
spectrometry: I. Primary reference fuel
1*
Selim Hatem; 2Lucassen Arnas; 2Hansen Nils; 1Sarathy Mani
1
Clean Combustion Research Center (CCRC), King Abdullah University of Science and Technology
(KAUST), Thuwal, Saudi Arabia; 2Combustion Research Facility, Sandia National Laboratories, United
States
[P3-62]
Super-adiabatic flame temperatures in premixed methane-oxygen flames
1*
Stelzner Björn; 1Weis Christof; 1Habisreuther Peter; 1Zarzalis Nikolaos; 1Trimis Dimosthenis
1
Engler-Bunte-Institute, Karlsruhe Institute of Technology, Karlsruhe, Germany
[P3-63]
An experimental and detailed chemical kinetic investigation of the addition of C2 oxygenated species in rich ethylene premixed flames
1*
Vourliotakis George; 2Leplat Nicolas; 3Malliotakis Zisis; 3Keramiotis Christos; 4Skevis George;
3
Founti Maria A.; 2Vandooren Jacques;
1
Mechanical Engineering Department, Imperial College London, London, United Kingdom; 2Laboratoire de Physico-Chimie de la Combustion, Université Catholique de Louvain, Louvain-la-Neuve,
Belgium; 3School of Mechanical Engineering, National Technical University of Athens, Greece; 4APTL,
Chemical Processes & Energy Resources Inst., Centre for Research and Technology Hellas, Thessal,
Greece
[P3-64]
Nonlinear Themoacoustic In/Stability of a Rijke Tube with a Distributed Heat Source
1*
Yang Xiaochuan; 1Turan Ali; 2Lei Shenghui
1
School of Mechanical, Aerospace and Civil Engineering, The University of Manchester, Manchester,
United Kingdom; 2Thermal Management Research Group, Bell Labs, Alcatel-Lucent, Ireland
39
[P3-66]
Experimental and numerical investigation of extinction strain rates of coal devolatilization products under oxy-fuel conditions
1*
Baroncelli Martina; 1Krischer Angelika; 1Kruse Stephan; 1Pitsch Heinz
1
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany
[P3-67]
The bifurcation phenomenon in lifted diffusion flame under acoustic excitation
1*
Golub Victor
1
Department of Physical Gasdynamics s, Institute for High Temperatures, Moscow, Russian Federation
[P3-68]
Influence of detailed chemical mechanisms in the simulation of laminar and turbulent
DME flames
1*
Hartl Sandra; 1Popp Sebastian; 1Zschutschke Axel; 1Hasse Christian
1
Department of Numerical Thermo Fluid Dynamics, TU Bergakademie Freiberg, Freiberg, Germany
[P3-69]
Numerical investigation of unsteady laminar methane/LOx flamelet at supercritical
pressures
1
Ciottoli Pietro Paolo; 1*Lapenna Pasquale Eduardo; 1Valorani Mauro; 1Creta Francesco
1
Dept. of Mechanical and Aerospace Engineering, University of Rome, Italy
[P3-70]
Autoignition and Extinction of Mixtures of Dimethyl Ether (DME) and Ethanol
1*
Loukou Alexandra; 2;4Reiter Johannes; 2Gehmlich Ryan; 3Hasse Christian; 4Pucher Ernst; 2Seshadri Kalyanasundaram
1
Institute of Thermal Engineering, TU Bergakademie Freiberg, Freiberg, Germany; 2Department of
Mechanical and Aerospace Engineering, University of California at San Diego, United States; 3Chair
of Numerical Thermo-Fluid Dynamics, ZIK Virt, TU Bergakademie Freiberg, Germany; 4Institute for
Powertrains and Automotive Technology, Vienna University of Technology, Austria
[P3-72]
Experimental Study On Laminar Lifted Methane Jet Flame Diluted With Nitrogen And
Helium
1*
Sapkal Narayan; 1Lee Won June; 1Park Jeong; 1Kwon Oh Boong
1
Department of Mechanical Engineering, Pukyong National University, Busan, Republic Of Korea
40
[P3-74]
Direct numerical prediction of OH-LIF Signals in the Simulation of a laminar partial oxidation flame
1
Hunger Franziska; 2*Stelzner Björn; 3Trimis Dimosthenis; 1Hasse Christian
1
Department for Energy Process Engineering and Chemical Engineering, TU Bergakademie Freiberg,
Germany; 2Engler-Bunte-Institute, Karlsruhe Institute of Technology, Karlsruhe, Germany; 3Engler-Bunte-Institute, Karlsruhe Institute of Technology, Germany
[P3-75]
A Study on Comparison of Lewis-number-induced with Buoyancy-driven Self-excitations
in Laminar Lifted Coflow-Jet Flames.
1*
Van Gyu Ho; 1Lee Wonjune; 1Park Jeong; 1Kwon Oh Boong; 2Keel Sang In; 2Yun Jin Han; 3Lim In Gwon
1
Dep. of Mechanical Engineering, Pukyong National University, Busan, Republic Of Korea; 2Environment & Energy Research Division, Korea Institute of Machinery and Materials, Republic Of Korea;
3
Dep. of Mechanical Engineering, Myongji University, Republic Of Korea
[P3-76]
Investigation of mass and energy coupling between soot particles and gas species in modelling counterflow diffusion flames
1*
Zimmer Leonardo; 1Pereira Fernando M.; 2Van Oijen Jeroen A.; 2De Goey Laurentius P. H.
1
Department of Mechanical Engineering, Federal University of Rio Grande do Sul, Porto Alegre, Brazil;
2
Department of Mechanical Engineering, Eindhoven University of Technology, Netherlands
[P3-77]
Propagation Speed and Wrinkling of Spherically Expanding Hydrogen/Air Flames: Asymptotical and Experimental Investigation
1*
Beeckmann Joachim; 1Hesse Raik; 1Kruse Stephan; 1Peters Norbert; 1Pitsch Heinz; 2Matalon
Moshe
1
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany; 2Mechanical Science and Engineering, University of Illinois, United States
[P3-78]
Preferential diffusion effects for laminar flame in a co-flow mixing layer with widely
varying Lewis numbers greater than unity
1*
Bhatt David; 1Chakravarthy Satyanarayan
1
Dept. of Aerospace Engg, Indian Institute of technology Madras, Chennai, India
[P3-79]
Simulating kerosene/air flames with hybrid transported-tabulated chemistry
1*
Duboc Bastien; 2Ribert Guillaume; 2Domingo Pascale
1
CORIA, Rouen, France; 2Numerical Combustion, CORIA, France
41
[P3-80]
Effects of inert gases on NOx formation in the conventional burner
1*
Hudak Igor; 1Belohradsky Petr; 1Skryja Pavel
1
Institute of Process and Environmental Engineering, Faculty of Mechanical Engineering, Brno
University of Technology, Brno, Czech Republic
[P3-81]
Probability of hotspot ignition in turbulent hydrogen-air mixtures using Direct Numerical
Simulations
1*
Janiga Gábor; 1Fru Gordon; 1Abdelsamie Abouelmagd; 1Thévenin Dominique
1
Laboratory of Fluid Dynamics and Technical Flows, University of Magdeburg, Magdeburg, Germany
[P3-82]
Experimental characterization of fuel droplet temperature in a spray jet flame
1*
Verdier Antoine; 2Renou Bruno; 3Cordier Matthieu; 2Vandel Alexis; 4Saengkaew Sawitree; 2Cabot
Gilles; 4Gréhan Gérard; 2Boukhalfa Mourad
1
Experimental Analysis of combustion, CORIA (Complexe de Recherche Interprofessionnel en
Aérothermochimie), Saint Etienne Du Rouvray, France; 2Experimental Analysis of combustion,
CORIA, INSA ROUEN, France; 3Experimental analysis of combustion, CORIA, INSA ROUEN, France;
4
Laser/Particle interactions, CORIA, INSA ROUEN, France
Poster session 4. - Wednesday, 1 April, 15:00-18:00
[P4-01]
Schlieren measurements of the pressure wave induced by low energy electrical discharges
1*
Essmann Stefan; 1Markus Detlev; 2Maas Ulrich
1
Explosion Protection in Energy Technology, Physikalisch-Technische Bundesanstalt, Braunschweig,
Germany; 2Institute of Technical Thermodynamics, Karlsruhe Institute of Technology, Germany
[P4-02]
Application of a stand-alone PDF method to investigate the ignition of propane/air and
hydrogen/air mixture by unsteady turbulent jets
1*
Ghorbani Asghar; 2Fischer Simon; 2Steinhilber Gerd; 3Markus Detlev; 2Maas Ulrich
1
Physikalisch-Technische Bundesanstalt (PTB), Braunschweig, Germany; 2Institute of Technical
Thermodynamics, Karlsruhe Institute of Technology, Germany; 3Flame Transmission Processes,
Physikalisch-Technische Bundesanstalt (PTB), Germany
[P4-03]
Impact of hydrogen content on explosion overpressures in syngas
1*
Li Tao; 1Hampp Fabian; 1Lindstedt R. Peter
1
Department of mechanical engineering, Imperial College London, London, United Kingdom
[P4-04]
Explosion of C2H4-N2O-N2 in enlongated closed vessels
1*
Movileanu Codina; 1Razus Domnina; 1Mitu Maria; 1Giurcan Venera; 2Oancea Dumitru
1
Chemical kinetics, Ilie Murgulescu Institute of Physical Chemistry, Bucharest, Romania; 2Physical
Chemistry, University of Bucharest, Romania
[P4-05]
Ignition of nitromethane+O2+N2 in a shock tube
1*
Naucler Jenny; 2Li Yang; 1Nilsson Elna J. K.; 1Konnov Alexander A.; 2Curran Henry J.
1
Departement of Combustion Physics, Lund University, Lund, Sweden; 2Combustion Chemistry Centre, National University of Ireland, Ireland
[P4-06]
Evaluation strategies for LIF-based measurements of the mixing field in a transient free jet
1
Seitz Franziska; 1*Schießl Robert; 2Asghar Ghorbani; 2Markus Detlef
1
ITT, KIT, Germany; 2PTB, Physikalisch-Technische Bundesanstalt (PTB), Germany
42
43
[P4-07]
Ignition processes of palm oil biodiesel and diesel fuels using a two stage lagrangian
approach
1*
Alfazazi Adamu; 1Olawole Abiola; 1Sarathy Mani
1
Clean Combustion and Research Center, King Abdullah University of Science and Technology, Saudi
Arabia, Thuwal, Jeddah, Saudi Arabia
[P4-13]
Numerical Investigation into Fast Deflagration and Transition to Detonation in Smooth
Tube
1*
Liu Weiming
1
Centre for Research in Fire and Hazards Science, University of Central Lancashire, Preston, United
Kingdom
[P4-08]
A novel plasma test rig for auto-ignition studies of turbulent non-premixed flows
1
Eitel Felix; 1Pareja Jhon; 2Geyer Dirk; 1*Dreizler Andreas
1
Mechanical Engineering, TU Darmstadt, Germany; 2Mechanical Engineering, Hochschule
Darmstadt, Germany
[P4-15]
Mixing dynamics and fluid residence time in split-injection gaseous jets
1*
Shin Dong-Hyuk; 1Richardson Edward R.
1
Faculty of Engineering and the Environment, University of Southampton, Southampton, United
Kingdom
[P4-09]
Ignition at sub-millimeter sized hot particles
1*
Roth David; 1Häber Thomas; 1Bockhorn Henning; 2Sharma Pratyush; 2Schiessl Robert;
2
Maas Ulrich
1
Engler-Bunte-Institute, Division of Combustion Engineering, Karlsruhe Institute of Technology
(KIT),Karlsruhe, Germany; 2Institute of Technical Thermodynamics, Karlsruhe Institute of Technology
(KIT), Germany
[P4-16]
Coupled simulations of turbulent flame and pyrolysis of combustible material
1*
Snegirev Alexander; 1Kokovina Ekaterina
1
Fluid Dynamics (Thermal Physics), St-Petersburg Polytechnic University, St. Petersburg, Russian Federation
[P4-10]
Numerical investigation of hydrogen-air mixtures ignition near lean flammability limit
1
Ivanov Mikhail; 1Kiverin Alexey; 1*Smygalina Anna
1
Department of Combustion and Thermal Processes, Joint Institute for High Temperatures of the Russian Academy of Sciences, Russian Federation
[P4-11]
Experimental study and theoretical analysis of a ‘strange wave’ behavior
1*
Yanez Jorge; 1Kuznetsov Mike; 1Lelyakin Alexander
1
Institute for Nuclear and Energy Technologies, Karlsruhe Institute of Technology, Karlsruhe,
Germany
[P4-12]
An Effect of Detailed Chemistry on Flame Acceleration and Detonation Preconditioning
1*
Kuznetsov Mike; 1Yanez Jorge; 1Lelyakin Alexander
1
Institute for Nuclear and Energy Technologies, Karlsruhe Institute of
Technology, Karlsruhe, Germany
44
[P4-17]
An Experimental Study on n-heptane/ethanol Mixture Pool Fires in a Longitudinally Ventilated Tunnel Model
1*
Yozgatligil Ahmet; 1Yamali Uluc; 1Shafee Sina
1
Mechanical Engineering, Middle East Technical University, Ankara, Turkey
[P4-18]
Flame Spread Behaviors over inclined Polyethylene insulated Electrical Wire with AC Electric Field
1*
Lim Seungjae; 2Kim Minkuk; 3Park Jeong; 4Fujita Osamu; 5Chung Sukho
1
Interdisciplinary Program of Biomechanical Engineering, Pukyong National University, Busan, Republic Of Korea; 2Environmental and Energy System Research Division, Korea Institute of Machinery
and Materials, Republic Of Korea; 3Mechanical Engineering, Pukyong National University, Republic
Of Korea; 4Division of Mechanical & Science, Hokkaido University, Japan; 5Clean Combustion Research Center, King Abdullah University of Science and Technology, Saudi Arabia
[P4-19]
An experimental and numerical investigation of externally venting flames developing in
an under-ventilated fire compartment-façade configuration
1*
Asimakopoulou Eleni-Marina; 1Kolaitis Dionysios; 1Founti Maria
1
Department of Mechanical Engineering, National Technical University of Athens, Athens, Greece
45
[P4-20]
Validation of Fire Dynamic Simulator (FDS) for pool fire in large enclosure
1*
Pachera Matteo; 1Brunello Pierfrancesco
1
Department of industrial engineering, University of Padova, Padova, Italy
[P4-22]
Combustion experiments in reduced gravity space environment using 1second drop
tower and the challenges faced
1*
Bj Arjun; 1Nm Manu; 1Kumar Amit; 1Tm Muruganandam
1
Department of Aerospace Engineering, Indian Institute of Technology Madras, Chennai, India
[P4-23]
Numerical investigation of soot formation and radiative heat tranfer in ethylene microgravity laminar boundary layer diffusion flames
1*
Contreras Jorge; 2Consalvi J.l.; 3Fuentes A.; 4Liu F.
1
IUSTI/UMR CNRS 7343 , Aix-Marseille Université, Marseille Cedex 13, France; 2IUSTI/UMR CNRS 7343,
Aix-Marseille Université, France; 3Departamento de Industrias, Universidad Técnica Federico Santa
María, Chile; 4Measurement Science and Standards, National Research Council of Canada, Canada
[P4-24]
Progress Towards a Validated Cantera-based Turbulent Flame Speed Solver
1*
Burke Eoin; 2Singlitico Alessandro; 3Morones Anibal; 3Petersen Eric L.; 4Guthe Felix; 4Bunkute
Birute; 5Speth Raymond L.; 2Monaghan Rory F. D.
1
Mechanical Engineering, NUI Galway,Galway, Ireland; 2Combustion Chemistry Centre, National
University of Ireland, Galway, Ireland; 3Department of Mechanical Engineering, Texas A&M University, United States; 4GSTRB, Alstom Power, Switzerland; 5Laboratory for Aviation and the Environment,
Massachusetts Institute of Technology, United States
[P4-25]
Impact of nanosecond repetitively pulsed electric discharges on the ignition of methane-air mixture
1*
Castela Maria; 1Fiorina B; 2Coussement A; 1Gicquel O; 1Laux C. O.; 1Darabiha N
1
Lab. EM2C, Ecole Centrale Paris, Chatenay-Malabry, France; 2Universite Libre de Bruxelles, Universite
Libre de Bruxelles, Belgium
[P4-26]
A-priori Direct Numerical Simulation assessment of sub-grid scale stress tensor closures
for turbulent premixed combustion
1
Klein Markus; 1Kasten Christian; 2Gao Yuan; 2*Chakraborty Nilanjan
1
Department of Aerospace Engineering, Universität der Bundeswehr München, Germany;
2
Mechanical and Systems Engineering, Newcastle University, United Kingdom
46
[P4-27]
Flame Structure Analysis for Turbulent Lean Premixed Spherical Flames at Elevated Pressures
1*
Dinesh Ranga; 1Shalaby H; 2Luo K.h; 3Thevenin D.
1
Faculty of Engineering and the Environment , University of Southampton, Southampton, United
Kingdom; 2Mechanical Engineering, University College London, United Kingdom; 3Fluid Dynamics
and Technical Flows, University of Magdeburg “Otto von Guricke”, Germany
[P4-28]
Influence of Preferential Diffusion in Turbulent Lean Premixed Hydrogen-Rich Syngas
Spherical Flames at Elevated Pressure
1*
Dinesh Ranga; 1Shalaby H; 2Luo K.h; 3Thevenin D.
1
Faculty of Engineering and the Environment , University of Southampton, Southampton, United
Kingdom; 2Mechanical Engineering, University College London, United Kingdom; 3Fluid Dynamics
and Technical Flows, University of Magdeburg “Otto von Guricke”, Germany
[P4-29]
Differential diffusion effects in FGM context for premixed LES of hydrogen blended fuels
1*
Doost A. Samim; 2Ketelheun Anja; 2Sadiki Amsini; 2Janicka Johannes
1
Institute of Energy and Power Plant Technology, Darmstadt, Germany; 2Institute of Energy and Power Plant Technology, Germany
[P4-30]
Systematic Investigation of Premixed Methane Impinging Flames
1*
Fu Jin; 1Leung C.w.; 2Huang Zuohua;
1
Department of Mechanical Engineering , Hong Kong Polytechnic University, Hong Kong, Hong
Kong; 2Combustion and Spray Laboratory , Xi’an Jiaotong University, China;
[P4-31]
Detailed studies on turbulent premixed lean flames using combined 1D-Raman and OHLIF
1*
Goldman Anatoly; 1Marathe Siddharth; 1Schiessl Robert; 1Maas Ulrich
1
Institut für Technische Thermodynamik (ITT), Karlsruhe Institute of Technology (KIT), Karlsruhe,
Germany
[P4-33]
Statistical Multi-Fluid Description of Combustion Regime Transitions
1*
Hampp Fabian; 1Lindstedt R. Peter
1
Mechanical Engineering Department, Imperial College London, London, United Kingdom
47
[P4-34]
Direct Numerical Simulation analysis of turbulent kinetic energy transport in head on
quenching of turbulent premixed flames
1*
Jiawei Lai; 1Chakraborty Nilanjan
1
Mechanical and System Engineering, Newcastle University, Newcastle Upon Tyne, United Kingdom
[P4-35]
The effect of the flame shape on pollutant emission of premixed burner
1*
Józsa Viktor; 1Kun-Balog Attila
1
Department of Energy Engineering, Budapest University of Technology, Budapest, Hungary
[P4-36]
Thermal structure of turbulent premixed and stratified methane/air flames
1*
Kamal M. Mustafa; 1Hochgreb Simone
1
Engineering, University of Cambridge, Cambridge, United Kingdom
[P4-37]
Effects of Hydrocarbon Fuel Structure on Experimental Laminar & Turbulent Burning Rates
1*
Mandilas Harry; 2Burluka A.a.; 3Gaughan R.g.; 4Griffiths J.f.; 2Sheppard C.g.w.; 5Woolley R.
1
Aerosol and Particles Laboratory (APTL), Centre for Research and Technology Hellas (CERTH),
Thessaloniki, Greece; 2School of Mechanical Engineering, University of Leeds, United Kingdom;
3
Paulsboro Technical Center, ExxonMobil Research and Engineering Company, United States; 4School
of Chemistry, University of Leeds, United Kingdom; 5Department of Mechanical Engineering, The
University of Sheffield, United Kingdom
[P4-38]
Characteristics of Turbulent Piloted Flames with Different Levels of Stratification
1*
Masri Assaad; 1Juddoo Mrinal
1
Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, Australia
[P4-39]
Lewis Number and Markstein Length Effects on Turbulent Expanding Flames in a Spherical Vessel
1
Berquigny Pierre; 2Halter Fabien; 3Dubois Thomas; 1*Mounaim-Rousselle Christine
1
Laboratoire PRISME, University of Orléans, France; 2ICARE Orléans, CNRS, France; 3MArketing and
Services, TOTAL, France
48
[P4-41]
Linear stability analysis of turbulent swirling combustor flows: impact of flow field and
flame shapes on the PVC
1*
Oberleithner Kilian; 2Stöhr Michael; 2Im Seong Ho; 3Paschereit Christian Oliver
1
Institut of Fluid Dynamics and Technical Acoutstics, Tu Berlin, Berlin, Germany;
2
Institute of Combustion Technology, German Aerospace Center (DLR), Germany; 3Mechanical Engineering and Transport Systems, Institut of Fluid Dynamics and Technical Acoutstics,
Tu Berlin, Germany
[P4-42]
Experimental study of the structure of a lean hydrogen-methane-air two-dimensional
Bunsen flame tip with implication to turbulent flames
1*
Shoshin Yuriy; 2Sepman Alexey; 1De Goey Philip; 3Mokhov Anatoli; 3Levinsky Howard
1
Department of Mechanical Engineering, Eindhoven University of Technology, Eindhoven, Netherlands; 2Energy Technology Centre, Piteå, Sweden; 3Faculty of Mathematics and Natural Sciences,
University of Groningen, Netherlands
[P4-43]
Redistribution and Dilatation Effects in Turbulent Premixed Opposed Jet Flames
1*
Tian Lu; 1Lindstedt Peter
1
Department of Mechanical Engineering, Imperial College London, London, United Kingdom
[P4-44]
Flame stretch and flow patterns induced by Darrieus-Landau instability on a turbulent
premixed flame
1*
Troiani Guido; 2Creta Francesco; 3Matalon Moshe
1
Sustainable Combustion Laboratory, ENEA C.R. Casaccia, Rome, Italy; 2Dept. of Mechanical and
Aerospace Engineering, University of Rome “La Sapienza”, Italy; 3Dept. of Mechanical Science and
Engineering, University of Illinois at Urbana-Champaign, United States
[P4-46]
CFD analysis and application of dynamic mode decomposition for resonant-mode identification and damping in an SGT-100 DLE combustion system
1*
Abou-Taouk Abdallah; 2Sadasivuni Suresh; 3Lörstad Daniel; 1Eriksson Lars-Erik
1
Department of Applied Mechanics / Division of Fluid Dynamics, Chalmers University of Technology,
Gothenburg, Sweden; 2PO Box 1, Waterside South, Lincoln, LN5 7FD, Siemens Industrial Turbomachinery Ltd, United Kingdom; 3Combustion, Siemens Industrial Turbomachinery AB, Sweden
49
[P4-47]
Modelling of soot formation in a turbulent diffusion flame using a comprehensive CFDPBE model with full chemistry
1*
Akridis Petros; 1Rigopoulos Stelios
1
Mechanical Engineering, Imperial College of London, London, United Kingdom
[P4-54]
Spray ignition behaviour of n-hexane in subcritical and supercritical environments
1*
Kapusta Łukasz; 2Pielecha Ireneusz; 2Czajka Jakub; 2Wisłocki Krzysztof; 1Teodorczyk Andrzej
1
Faculty of Power and Aeronautical Engineering, Warsaw University of Technology, Warsaw, Poland;
2
Faculty of Machines and Transport, Poznan University of Technology, Poland
[P4-48]
Experimental Investigation of the impact of imposed air inlet velocity oscillations on Soot
Formation and Oxidation using an advanced 2-Colour-TIRE-LII
1*
Aleksandrov Aleksandar; 1Bockhorn Henning
1
Engler-Bunte-Institute, Division of Combustion Technology, Karlsruhe Institute of Technology, Karlsruhe, Germany
[P4-55]
Analysis and implementation of large eddy simulation in CFD based simulation of confined high swirling flames
1*
Klančišar Marko; 1Schloen Tim; 2Samec Niko; 2Hriberšek Matjaž
1
Research and Development, Max Weishaupt GmbH, Schwendi, Germany; 2Faculty of mechanical
engineering, University of Maribor, Slovenia
[P4-50]
Investigation of small scale turbulence statistics in nonpremixed turbulent jet flames via
DNS
1*
Attili Antonio; 1Bisetti Fabrizio
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P4-56]
Simultaneous line Raman/Rayleigh measurements for mixture fraction determination in
turbulent, partially premixed slot burner flames
1*
Kruse Stephan; 1Varea Emilien; 2Elbaz Ayman M.; 3Grünefeld Gerd; 4Mansour Mohy M.; 1Pitsch Heinz
1
RWTH Aachen University, Institute for Combustion Technology, Aachen, Germany; 2King Abdullah
University of Science and Technol, Clean Combustion Research Center, Saudi Arabia; 3RWTH Aachen
University, Institute of Technical Thermodynamics, Germany; 4The American University in Cairo, Mechanical Engineering Department, Egypt
[P4-51]
An experimental investigation on dynamics of turbulent non-premixed swirling oxygen-enriched flames
1
Merlo Nazim; 1;2*Boushaki Toufik; 1Chauveau Christian; 1Gökalp Iskender
1
CNRS, ICARE, France; 2Université d’Orléans, IUT, GTE – 45067 Orléans cedex 2, France
[P4-52]
Consistent turbulence modeling in a hybrid LES/RANS PDF method for non-premixed
flames
1*
Ferraro Federica; 1Ge Yipeng; 1Pfitzner Michael
1
Department of Aerospace Engineering - Institute for Thermodynamics, University of the federal
armed Forces Munich, Neubiberg, Germany
[P4-53]
The role of Acoustic Reynolds Stress in Flame-Acoustic Coupling of Combustion Instability
in a dump combustor
1*
Kannan Ashwin; 1Chakravarthy Satya Narayanan; 2Chellappan Balaji
1
Aerospace Engineering, Indian Institute of Technology Madras, Chennai, India; 2Aerospace Engineering, Metacomp Technologies Private Limited, India
50
[P4-57]
A fuel mapping strategy for unsteady injection processes within the representative interactive linear eddy model (RILEM)
1*
Lackmann Tim; 2Kerstein Alan; 3Oevermann Michael
1
Department Applied mechanics, Chalmers University, Gothenburg, Sweden; 2Consultant, Consultant, United States; 3Department of Applied mechanics, Chalmers University, Sweden
[P4-58]
A comparative numerical simulation study of turbulent non-premixed CO/H2/N2 syngas
jet flames
1;2*
Lewandowski Michał; 1Pozorski Jacek
1
Group of Multiphase Flows, Institute of Fluid Flow Machinery PAS, Gdańsk, Poland; 2Gdańsk
University of Technology, Poland
[P4-59]
Effects of combustion regime on localised forced ignition of turbulent homogeneous mixtures: A Direct Numerical Simulation Analysis
1*
Patel Dipal; 1Chakraborty Nilanjan
1
School of Mechanical and System Engineering, Newcastle University, Newcastle Upon Tyne, United
Kingdom
51
[P4-60]
Analysis of Turbulent Flame Propagation in Equivalence Ratio-Stratified Flow
1*
Richardson Edward; 2Chen Jacqueline H.
1
Faculty of Engineering and the Environment, University of Southampton, Southampton, United
Kingdom; 2Combustion Research Facility, Sandia National Laboratories, United States
[P4-61]
Mixing Dynamics and Scalar Dissipation Rate in Split-Injection Gaseous Jets
1
Shin Dong-Hyuk; 1*Richardson Edward
1
Faculty of Engineering and the Environment, University of Southampton, United Kingdom
[P4-62]
Joint-scalar transported PDF modelling of soot in a turbulent diffusion flame
1*
Schiener Marcus A.
1
Mechanical Engineering, Imperial College London, London, United Kingdom
[P4-63]
The (mis)alignment of diffusive fluxes in turbulent combustion: DNS analysis and treatment in the Reaction-Diffusion Manifold (REDIM) model
1*
Schießl Robert; 1Bykov Viatcheslav; 1Maas Ulrich
1
ITT, KIT, Karlsruhe, Germany
[P4-64]
Experimental study on combustion process of non-standard gaseous fuels in turbulent
flames
1*
Slefarski Rafal; 1Jojka Joanna
1
Laboratory of Gas Technology, Poznan University of Technology, Poznan, Poland
[P4-66]
Analysis of the MMC mixing model using DNS of an evolving double shear layer with
strong extinction and reignition
1
Vo Son; 1*Stein Oliver; 1Kronenburg Andreas; 2Cleary Matthew J.
1
Institut fuer Technische Verbrennung, ITV, University of Stuttgart, Germany; 2School of Aerospace,
Mechanical & Mechatronic Eng., The University of Sydney, Australia
[P4-67]
Identification of the dynamics of technically premixed flames as multiple-input, single-output system from LES
1*
Ulhaq Ahtsham; 1Silva Camilo; 1Polifke Wolfgang
1
Institute of Thermodynamics, Technical University Munich, Munich, Germany
52
[P4-68]
Simulation of Partial Oxidation Process by using Flamelet/Progress Variable Approach
1*
Vascellari Michele; 1Xu Hongbin; 1Hartl Sandra; 1Hasse Christian
1
Chair of Numerical Thermo-Fluid Dynamics, TU Bergakademie Freiberg, Freiberg, Germany
[P4-71]
Modeling Heat Loss Effects in Oxy Fuel Flames with a Multidimensional Non-Premixed
Flamelet Approach
1*
Wollny Patrick; 2Rogg Bernd; 1Kempf Andreas
1
Fluid Dynamics, University Duisburg-Essen, Duisburg, Germany; 2Fluid Mechanics, Ruhr University
Bochum, Germany
[P4-72]
Characterization of the Reaction Zone Structures in a Laboratory Combustor using Optical
Diagnostics
1*
Zhou Bo; 2Costa Mario; 1Li Zhongshan; 1Aldén Marcus
1
Division of Combustion Physics, Lund University, Lund, Sweden; 2Mechanical Engineering Department, Instituto Superior Técnico, Portugal
[P4-73]
Methodology for theoretical screening of the efficiency of halogenated inhibitors of hydrogen-air flames
1*
Zaev Ivan; 2Strelkova Marina; 2Potapkin Boris; 2Bryukov Michail
1
Reactive fluid dynamics, Kintech Lab Ltd., Moscow, Russian Federation; 2Chemical and plasma-chemical kinetics, Kintech Lab Ltd., Russian Federation
[P4-74]
Oxyfuel combustion and reactant preheating adapted to low calorific gases
1*
Bâ Abou; 1Cessou Armelle; 2Paubel Xavier; 1Honore David
1
experimental combustion, UMR6614-CORIA, Saint Etienne Du Rouvray, France; 2AirLiquide R&D, AirLiquide, France
[P4-75]
Experimental and numerical studies of the impact of hydrogen enrichment on a non-adiabatic confined swirled flame
1
Mercier Renaud; 1Guiberti Thibault; 1Zimmer Laurent; 1Durox Daniel; 1Gicquel Olivier; 1Darabiha
Nasser; 1Schuller Thierry; 1*Fiorina Benoit
1
EM2C laboratory, Ecole Centrale Paris, France
53
[P4-76]
Impact of magnetic fields on the stability of non-premixed flames
1*
Jocher Agnes; 2Pitsch Heinz; 3Gomez Thomas; 3Bonnety Jérôme; 3Legros Guillaume
1
Institute for Combustion Technology, RWTH Aachen, Aachen, Germany; 2Institute for Combustion
Technology, RWTH Aachen University, Germany; 3CNRS, UMR 7190 Institut Jean le Rond d’Alembert,
Sorbonne Universités, UPMC Univ. Paris 06, France
[P4-77]
A comparison of the structure of N2 and CO2 diluted CH4/O2 premixed flames in a swirled
combustor
1;2;3*
Jourdaine Paul; 1;3Mirat Clément; 1;2Beaunier Jerome; 1;3Darabiha Nasser; 1;3Schuller Thierry;
2
Joumani Youssef; 2Labegorre Bernard
1
Department of combustion, EM2C, Chatenay Malabry, France; 2Combustion, Air Liquide, France;
3
Ecole Centrale Paris; France
[P4-82]
Numerical modeling of swirl-stabilized turbulent lean non-premixed flames
1*
Santos Teresa P.; 2Mendoza Victor; 2Perez Jose; 2Castro Francisco
1
University of Valladolid, Valladolid, Spain; 2Energy and Fluid Mechanics, University of Valladolid, Spain
[P4-83]
Experimental study of transient coupling of PVC formation and flame shape transition in
a bi-stable turbulent swirl flame
1*
Stöhr Michael; 2Oberleithner Kilian; 1Arndt Christoph M.; 3Steinberg Adam M.; 1Meier Wolfgang
1
Institute of Combustion Technology, German Aerospace Center (DLR), Stuttgart, Germany; 2Inst. für
Strömungsmechanik und Technische Akustik, Technische Universität Berlin, Germany; 3Institute for
Aerospace Studies, University of Toronto, Canada
[P4-78]
High speed Diagnostics of Blow out precursors in a plate stabilized flame
1*
Kochuparampil Arun; 1T. M. Muruganandam
1
Department of Aerospace Engineering, IIT Madras, India, Chennai, India
[P4-79]
Approach to evaluate statistical measure of thermo-acoustic instability properties of premixed burners
1*
Kornilov Viktor; 2De Goey Philip
1
Department of Mechanical Engineering, Technical University of Eindhoven, Eindhoven, Netherlands; 2Department of Mechanical Engineering, Technical University of Eindhoven, Netherlands
[P4-80]
Impact of the air-side and methane-side dilution (CO2, N2, Ar) on the lifting process of a
non-premixed jet-flame
1*
Marin Ospina Yohan Manuel; 1Godard Gilles; 1Baillot Françoise
1
Experimental Combustion, CORIA, Saint Etienne Du Rouvray, France
[P4-81]
Flame Oscillation and Extinction in Buoyancy-suppressed Methane-Air Non-premixed
Counter Triple Co-flow Flame
1
Park Jinwook; 2Park Jeong; 3Yun Jin-Han; 3Keel Sang-In
1
Interdisciplinary Program of Biomedical Engineerin, Pukyong National University, Republic Of Korea; 2Department of Mechanical Engineering, Pukyong National University, Republic Of Korea; 3Environment & Energy Research Division, Korea Institute of Machinery and Materials, Republic Of Korea
54
55
Poster session 5. - Thursday, 2 April, 10:30-13:00
[P5-01]
Investigation of soot morphology and particle size distribution in a turbulent nonpremixed flame via Monte Marlo simulations
1*
Abdelgadir Ahmed; 2Lucchesi Marco; 1Attili Antonio; 2Casciola Carlo M; 1Bisetti Fabrizio
1
Mechanical Engineering, King Abdullah University of Science & Technology (KAUST), Jeddah, Saudi
Arabia; 2Mechanical and Aerospace Engineering, Universit`a `La Sapienza’, Italy
[P5-02]
Numerical modeling of soot formation in laminar axisymmetric ethylene-air coflow flames
at atmospheric and elevated pressures
1*
Abdelgadir Ahmed; 1Rakha Ihsan Allah; 1Steinmetz Scott; 1Attili Antonio; 1Bisetti Fabrizio; 1Roberts William
1
Mechanical Engineering, King Abdullah University of Science & Technology (KAUST), Jeddah, Saudi
Arabia
[P5-03]
Laser induced incandescence investigation of radial soot distribution in atmospheric
premixed sooting flames
1*
Boufflers Damien; 3Betrancourt Christopher; 1El Bakali Abderrahman; 3Mercier Xavier
1
Université de Lille1, PC2A, Villeneuve D’ascq, France; 3CNRS, PC2A, France
[P5-04]
Chemical Characterization of Airplane Soot Particles and Surrogates Using Laser Desorption Ionization and Secondary Ion Mass Spectrometry
1;2*
Irimiea Cornelia; 2Carpentier Y; 2Ortega I K; 2Ziskind M; 3Faccinetto A; 3 Desgroux P; 3Therssen E.
1
PhysicoChimie des Processus de Combustion et de l’Atmosphère, Universite Lille 1,Hellemmes,
France; 2PhLAM, Lille 1 University, France; 3PC2A, Lille 1 University, France
[P5-05]
Chemical Characterization of Soot Particles Formed in Kerosene and Diesel Diffusion Laboratory Flames
1;2*
Irimiea Cornelia; 2Carpentier Y; 2Ortega I K; 2Ziskind M; 2Focsa C; 3Faccinetto A; 3Desgroux P;
3
Therssen E.
1
PhysicoChimie des Processus de Combustion et de l’Atmosphère, Universite Lille 1,Hellemmes,
France; 2PhLAM, Lille 1 University, France; 3PC2A, Lille 1 University, France
[P5-07]
Evidence of nucleation flames: A valuable tool for the study of soot particles inception
1*
Mercier Xavier; 2Mouton Thomas; 3Desgroux Pascale;
1
CNRS, Villeneuve D’ascq, France; 2Université de Lille1, PC2A, France; 3CNRS, PC2A, France
56
[P5-08]
Sublimation temperature of soot in dependence on particle size and formation conditions
1
Eremin Alexander; 1Gurentsov Evgeny; 2;3*Mikheyeva Ekaterina
1
Laboratory of Nonequilibrium processes, Joint Institute for High Temperatures of Russian Academy
of Sciences, Russian Federation; 2Joint Institute for High Temperatures of Russian Academy of Sciences, Moscow, Russian Federation; 3Bauman Moscow State Technical University, Russia
[P5-09]
Experimental and numerical study of rich methane/hydrogen/air laminar premixed flames
at atmospheric pressure: influence of hydrogen addition on soot precursors
1*
Mze Ahmed Amir Amir; 2El Bakali Abderrahman; 2Desgroux Pascale; 2Gasnot Laurent
1
PC2A, Villeneuve D’ascq, France; 2UFR Chimie-University Lille1, PC2A, France
[P5-10]
An Eulerian bivariate soot model based on a method of moments
1*
Pollack Martin; 2Cuoci Alberto; 2Frassoldati Alessio; 2Saggese Chiara; 2Faravelli Tiziano; 1Hasse
Christian
1
Department of Energy Process Engineering and Chemical Engineering, TU Bergakademie Freiberg,
Freiberg, Germany; 2Dept. of Chemistry, Materials and Chemical Eng., Politecnico di Milano, Italy
[P5-12]
Effects of Large Polycyclic Aromatic Hydrocarbons on the Soot Formation in Ethylene-Air
Nonpremixed Flames.
1*
Selvaraj Prabhu; 1Arias Paul G.; 2Gao Yang; 1Park Sungwoo; 1Im Hong G.; 1Sarathy S. Mani; 1Chung
Suk Ho; 2Lu Tianfeng
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia; 2Department of Mechanical Engineering, University of Connecticut, United States
[P5-13]
Fully soot sheet characterization in a vertical wall-flame by Laser Induced Incandescence
(LII)
1*
Valencia Correa Andres; 1Alexis Coppalle; 1Talbaut Martine; 1Godard Gilles; 1Gobin Carole
1
Experimental Combustion, CORIA, Saint Etienne Du Rouvray, France
[P5-14]
Modeling the dehydrogenation of soot in laminar premixed flames with a multivariate
soot particle description
1*
Wick Achim; 1Pitsch Heinz
1
Institute for Combustion Technology, RWTH Aachen University, Aachen, Germany
57
[P5-15]
A PAH growth mechanism and effect of alcohol addition on PAH formation in counterflow
ethylene diffusion flames
1*
Park Sungwoo; 1Wang Yu; 1Chung Suk Ho; 1Sarathy S. Mani
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P5-16]
Microwave Interferometer for Shock Tube Chemi-ionization
1
Murphy Daniel C.; 2*Alquaity Awad; 2Han Jie; 2Farooq Aamir; 2Bisetti Fabrizio
1
Combustion and Fire Processes Lab, The University of California Berkeley, Berkeley CA, United States;
2
Clean Combustion Research Center, Mechanical Engineering, KAUST, Thuwal, Saudi Arabia
[P5-17]
Experimental Study on the Characteristics of Free Jet Flow with Applied Electric Fields
1*
Kim Gyeong Taek; 2Lee Won June; 1Park Jeong; 1Kwon Oh Boong
1
Mechanical Engineeing, Pukyong National University, Busan, Republic Of Korea; 2Interdisciplinary
Program of Biomedical Engineerin, Pukyong National University, Republic Of Korea
[P5-18]
Comparative shock-tube study of autoignition and plasma-assisted ignition of C2H2,
C2H4, C2H6 and C2H5OH
1*
Kosarev Ilya; 2Kindysheva Svetlana; 3Starikovskiy Andrey; 2Aleksandrov Nickolay
1
Moscow Institute of Physics and Technology, Dolgoprudniy, Russian Federation; 2Physics, Moscow
Institute of Physics and Technology, Russian Federation; 3Mechanical and Aerospace Engineering,
Princeton University, United States
[P5-21]
Pollutant emissions analysis of a natural gas gliding arc plasma assisted combustion
system under fuel-rich condition
1*
Varella Roberto; 1Pizzuti Loreto; 1De Almeida Dener S.; 1Lacava Pedro T.; 1Sagás Julio C.;
1
Martins Cristiane A.
1
Department of Aeronautics, Technical Institute of Aeronautics, São José Dos Campos, Brazil
[P5-22]
Influence of oxygen excitation by a RF plasma discharge on the flow field of atmospheric
partially-premixed CH4/O2 and H2/O2 flames
1*
Zähringer Katharina; 1Pliavaka K.; 1Thévenin D.
1
Lehrstuhl für Strömungsmechanik und Strömungstechnik, Universität Magdeburg, Magdeburg,
Germany
58
[P5-23]
Effects of droplets on flame structure in premixed spray flames: A Direct Numerical Simulation analysis
1
Wacks Daniel; 1*Chakraborty Nilanjan
1
Mechanical and Systems Engineering, Newcastle University, United Kingdom
[P5-24]
Liquid jet breakup in homogeneous and isotropic turbulence without mean flow
1*
Charalampous Georgios; 1Chounta Pavlina; 1Hardalupas Yannis
1
Mechanical Engineering, Imperial College London, London, United Kingdom
[P5-25]
Combustion characteristics of n-heptane droplets in a horizontal small quartz tube
1*
Li Junwei; 1Yao Rong; 1Qiu Zuozhen; 1Wang Ningfei
1
School of Aerospace Engineering, Beijing Institute of Technology, Beijing, China
[P5-26]
Flow fields and droplet dynamics of turbulent spray flames in curved-wall jet (CWJ) burner
1;2*
Mansour Morkous; 1Alkhesho Issam; 1Scribano Gianfranco; 1Mitsudharmadi Hatsari; 1Bisetti
Fabrizio; 1Chung Suk Ho
1
Clean combustion research center, King Abdullah University of Science and Technology (KAUST),
Jeddah, Saudi Arabia; 2Department of Mechanical Engineering, Helwan University, Cairo, Egypt
[P5-27]
Numerical Study of Rich Spray-Flames
1*
Nicoli Colette; 2Haldenwang Pierre; 3Denet Bruno
1
M2P2, CNRS, Marseille, France; 2M2P2, Aix-Marseille Université, France; 3IRPHE, Aix-Marseille Université, France
[P5-28]
A stochastic modelling for LES of a two-phase combusting flow
1
Jones W P; 1Marquis A J; 1*Noh Dongwon
1
Department of Mechanical Engineering, Imperial College London, United Kingdom
[P5-29]
Eulerian Spray Modeling using a Method of Moments accounting for Evaporation and
transient Droplet Heating
1*
Pollack Martin; 2Salenbauch Steffen; 2Hasse Christian
1
Department of Energy Process Engineering and Chemical Engineering, TU Bergakademie Freiberg,
Freiberg, Germany; 2Dept. of Energy Process Engin. and Chemical Engin, TU Bergakademie Freiberg,
Germany
59
[P5-30]
A Computational Study of Micro-Droplet Dynamics in Water-Oil Emulsion Droplets
1*
Sim Jaeheon; 1Im Hong G.; 1Chung Suk Ho
1
Clean Combustion Research Center, King Abdullah University of Science and Technology, Thuwal,
Saudi Arabia
[P5-31]
Investigation of Soot Structure in Spray Combustion Field with Bunker C Fuel Oil / Crude
Jatropha Oil Mixture using Simultaneous LII and PIV Measurement
1*
Tainaka Kazuki; 2Fan Yong; 1Hashimoto Nozomu; 1Nishida Hiroyuki
1
Energy Engineering Rsearch Laboratory, Central Research Institute of Electric Power Industry, Yokosuka-Shi, Kanagawa-Ken, Japan; 2Department of Mechanical Engineering, The University of Tokyo,
Japan
[P5-37]
The Effect of Equivalence Ratio on the Gasification of Torrefied and Un-Torrefied Biomass
– Miscanthus x Giganteus
1
M. Kwapinska; 2A.Hovart; 2G. Xue; 2W. Kwapinski; 3L.P.L.M. Rabou; 2S. Dooley; 2J.J. Leahy
1
Competence Centre for Biorefining & Biofuels, University of Limerick, Ireland; 2Department of Chemical and Environmental Sciences, University of Limerick, Ireland; 3Energy Research Centre of the
Netherlands (ECN), Biomass & Energy Efficiency, Petten, The Netherlands
[P5-38]
Particle fragmentation during the last stages of pulverized coal combustion in a drop tube
furnace
1
Barbas Nuno; 1*Ferreira Ana; 1Silva Carla; 1Costa Mário
1
Mechanical Engineering Department, Instituto Superior Técnico, Portugal
[P5-33]
The Influence of Particle Size and Swirl Intensities on Pulverized Petroleum Coke Combustion
1*
Cha Chunloon; 1Lee Hoyeon; 1Hwang Sangsoon
1
Department of Mechanical System Engineering, Incheon National University, Incheon, Republic Of
Korea
[P5-39]
Contribution of Gas-phase Reaction to Heat Output from Smoldering Packed-bed of Dried
Leaves
1;2*
Inoue Yasunobu; 2Suzuki Masataro
1
Tobacco science research center, Japan Tobacco Inc., Yokohama, Japan; 2Department of Mechanical Engineering, Nagaoka University of Technology, Japan
[P5-34]
Effect of exhaust gas recirculation and air staging on gaseous and particulate matter
emissions in a domestic boiler
1*
Costa Mário; 1Fernandes Ulisses; 1Mafalda Henriques
1
Mechanical Engineering Department, Instituto Superior Técnico, Lisboa, Portugal
[P5-40]
Influence of surface energetic heterogeneity of microporous adsorbents on adsorptive
separation of CO2, CO, N2, and H2 from a controlled-combustion of solid wastes
1*
Kim Moon Hyeon; 1Cho Il Hum; 1Park Joung Ho; 2Choi Sang Ok; 2Lee In Soo
1
Department of Environmental Engineering, Daegu University, Gyeongsan, Republic Of Korea; 2Experiment & Research Team, Samsung-BP Chemicals Co. Ltd., Republic Of Korea
[P5-35]
Experimental and numerical studies of pulverized coal combustion in a strained
flow configuration
1*
Darabiha Nasser; 2Scouflaire Philippe; 2Xia Meng; 2Fiorina Benoit
1
ECP-CNRS, Chatenay-Malabry, France; 2EM2C, ECP-CNRS, France
[P5-36]
A CFD-based approach for thermochemical conversion of straw
1*
Dernbecher Andrea; 1Tabet Fouzi; 1Ortwein Andreas
1
Thermo-chemical conversion Department, Deutsches Biomasseforschungszentrum gGmbH,
Leipzig, Germany
60
[P5-41]
Analysis of combustion of briquette fuels in a circulating fluidized-bed
1*
Kosowska-Golachowska Monika; 1Musial Tomasz; 1Kijo-Kleczkowska Agnieszka;
1
Wolski Krzysztof; 1Środa Katarzyna
1
Institute of Thermal Machinery, Czestochowa University of Technology, Czestochowa, Poland
[P5-42]
Combustion of sewage sludge in a circulating fluidized-bed
1*
Kosowska-Golachowska Monika; 1Kijo-Kleczkowska Monika; 1Środa Katarzyna; 1Musiał Tomasz;
1
Wolski Krzysztof
1
Institute of Thermal Machinery, Czestochowa University of Technology, Czestochowa, Poland
61
[P5-43]
Experimental research on oxy-fuel combustion of biomass in a circulating fluidized-bed
1*
Kosowska-Golachowska Monika; 1Wolski Krzysztof; 1Kijo-Kleczkowska Agnieszka;
1
Musiał Tomasz; 1Środa Katarzyna
1
Institute of Thermal Machinery, Czestochowa University of Technology, Czestochowa, Poland
[P5-50]
Stereoscopic Camera-Based Investigation of Pulverized Solid Fuel Combustion - particle
temperature, shape and burning rates
1*
Schiemann Martin; 1Vorobiev Nikita; 1Scherer Viktor
1
Department of Energy Plant Technology, Ruhr-University Bochum, Bochum, Germany
[P5-44]
Experimental and numerical study of pulverized lignite combustion in air and oxy-fuel
conditions
1
Pawlak-Kruczek Halina; 2*Lewtak Robert; 1Ostrycharczyk Michal
1
Department of Mechanical and Power Engineering, Wroclaw University of Technology, Poland;
2
Department of Thermal Processes, Institute of Power Engineering, Warsaw, Poland
[P5-51]
Direct numerical simulation of coal particle devolatilization and volatile combustion
1
Tufano Giovanni Luigi; 1*Stein Oliver; 1Kronenburg Andreas; 2Deng Lei; 2Wlokas Irenaeus; 2Kempf
Andreas M.; 3Vascellari Michele; 3Hasse Christian
1
Institut fuer Technische Verbrennung, ITV, University of Stuttgart, Germany; 2IVG, Chair for Fluid
Dynamics, University of Duisburg-Essen, Germany; 3ZIK Virtuhcon, Energy Process & Chemical Eng.,
University of Duisburg-Essen, Germany
[P5-46]
High Speed Imaging of Single Particle Ignition Behavior of Biomass Fuels
1*
Magalhães Duarte; 1Rabaçal Miriam; 1Costa Mário
1
Department of Mechanical Engineering, Instituto Superior Técnico, University of Lisbon, Lisbon,
Portugal
[P5-52]
Numerical analysis and combustion control of Shenmu pulverized semi-coke
1
Pan Guan-Fu; 1Gong Zhi-Qiang; 1Liu Zhi-Cheng; 1Xia Hong-De; 1*Tian Zhen-Yu
1
Institute of Engineering Thermophysics, Chinese Academy of Sciences, China
[P5-47]
A novel approach for analyzing thermal properties of sewage sludges
1*
Magdziarz Aneta; 1Wilk Małgorzata; 1Straka Robert; 2Koziński Janusz A.
1
Faculty of Metal Engineering and Industrial Computer Science, AGH University of Science and Technology, Krakow, Poland; 2Lassonde School of Engineering, York University, Canada
[P5-53]
The behavior of secondary pyrolysis products in oxy-coal flames
1*
Toth Pal; 1Aczel Marton; 2Draper Teri; 1Palotas Arpad; 2Eddings Eric
1
Department of Combustion and Thermal Energy, University of Miskolc, Miskolc, Hungary; 2Department of Chemical Engineering, University of Utah, United States
[P5-48]
Dust explosion severity characteristics of Indonesian sebuku coal in oxy-fuel atmospheres
1*
Norman Frederik; 2Hosseinzadeh Sepideh; 2Van Den Bulck Eric; 3Berghmans Jan; 3Verplaetsen
Filip
1
Adinex N.V., Herentals, Belgium; 2Department of Mechanical Engineering, KU Leuven, Belgium;
3
Adinex N.V., Belgium
[P5-56]
Experimental study on the combustion of Lithium particles in CO2 and CO2/N2 mixtures
1;2*
Fischer Peter; 1Schiemann Martin; 1Scherer Viktor; 2Taroata Dan; 2Schmid Günter
1
Department of Energy Plant Technology (LEAT), Ruhr-University Bochum, Bochum, Germany;
2
Corporate Technology, Siemens AG, Germany
[P5-49]
Carbonyl compounds emission from modern wood combustion appliances: differences
between masonry heater and pellet boiler
1;2;4*
Reda Ahmed; 2Czech H.; 1Schnelle-Kreis J.; 1;4Sippula O.; 1;2;4;Zimmermanna R.
1
Comprehensive Molecular Analytics, Helmholtz Zentrum München, Munich, Germany; 2University
of Rostock, Institute of Chemistry, Germany; 3University of Eastern Finland, Department of Environmental Science, Finland; 4Joint Mass Spectrometry Centre - “Comprehensive Molecular Analytics“,
Helmholtz Zentrum München, Neuherberg, Germany
62
[P5-57]
Influence of percolation threshold of structural phase transition in a solid two-component
propellant mixture on thermal efficiency of combustion chamber of a rocket engine
1*
Futko Sergey; 1Koznacheev Ivan; 1Ermolaeva Elena
1
Chemical Physics Laboratory, Heat and Mass Transfer Institute, National Academy of Sciences of
Belarus, Minsk, Belarus
[P5-58]
Multi-scale simulation of turbulent two-phase flows induced by fluid injection and particles
1*
Volkov Konstantin
1
Centre for Fire and Explosion Studies, Kingston University, London, United Kingdom
63
[P5-60]
Catalytic combustion of methane over hexaaluminates Ba1-xLaxAl11O19 supported on
mullite honeycomb
1*
Feng Xiangbo; 1Qu Zhiguo
1
MOE Key Laboratory of Thermo-Fluid Science and Engineering, Energy and Power Engineering
School, Xi’an Jiaotong University, Xi’an, China
[P5-66]
Direct pore level simulation of premixed gas combustion in porous inert media using
detailed chemical kinetics
1*
Dinkov Ilian; 1Habisreuther Peter; 1Bockhorn Henning
1
Engler-Bunte-Institute, Division of combustion technology, Karlsruhe Institute of Technology (KIT),
Karlsruhe, Germany
[P5-61]
Transition state theory based semi-automatic generation of surface reaction mechanisms
1*
Kraus Peter; 1Lindstedt Peter
1
Mechanical Engineering, Imperial College London, London, United Kingdom
[P5-67]
Influence of the inter-structural gaps between the combustion zones and the flame traps
on the properties of the dual layer porous burners in operation
1;2
Jovicic Vojislav; 1Friedmann Eva; 1Regensburger Christoph; 1*Zbogar-Rasic Ana; 1;2Delgado Antonio
1
Institute of Fluid Mechanics, University of Erlangen-Nuremberg, Germany; 2Erlangen Graduate
School in Advanced Optical Technologies (SAOT), Germany
[P5-62]
Performance characterisation of catalytic combustion with liquid hydrocarbons based on
temperature measurements and emission analysis
1*
Paesler Lars
1
Combustion Technology, OWI Oel-Waerme-Institut, Herzogenrath, Germany
[P5-63]
CVD synthesis of Cu2O films for catalytic combustion of VOCs
1
Pan Guan-Fu; 1Fan Shi-Bin; 1Liang Jing; 1Liu Yue-Xi; 1*Tian Zhen-Yu
1
Institute of Engineering Thermophysics, Chinese Academy of Sciences, China
[P5-68]
Synthesis of titanium dioxide nanoparticles using a curved-wall jet burner with central
port
1*
Ismail Mohamed; 1;3Mansour Morkous S.; 2Memon Nasir K.; 1Chung Suk Ho
1
Mechanical Engineering, Clean Combustion Research Center, King Abdullah University of Science
and Technology, Thuwal, Saudi Arabia; 2Qatar Environment and Energy Research Institute, Qatar
Foundation, Qatar; 3Department of Mechanical Engineering, Helwan University, Cairo, Egypt
[P5-64]
In-situ investigations of the interaction of surface kinetics with transport processes over
catalytic surfaces by planar laser-induced fluorescence
1*
Zellner Alexander; 1Suntz Rainer; 1Deutschmann Olaf
1
Department of Chemistry and Bioscience, Karlsruhe Institute of Technology, EggensteinLeopoldshafen, Germany
[P5-65]
Experimental and numerical investigation of a novel non-catalytic reformer for methane
partial oxidation
1*
Benekos Sotiris; 2Loukou Alexandra; 2Frenzel Isabel; 3Skevis George; 1Founti Maria;
2;3
Trimis Dimosthenis
1
Laboratory of Heterogeneous Mixtures and Combustion Systems, School of Mechanical Engineering, National Technical University of Athens, Athens, Greece; 2Institute of Thermal Engineering,
TU-Bergakademie Freiberg, Germany; 3APTL, CPERI/CERTH, Greece; 3Engler-Bunte-Insitute, Karlsruhe
Institute of Technology, Karlsruhe, Germany
64
65
NOTES
Vezetés nemcsak az utakon!
Az Audi Hungaria ambiciózus szakembereket keres vezetői munkakörbe. Ha
Ön is szívesen csatlakozna a világ legnagyobb motorgyárához, ahol a munkatársakra kihívást és fejlődést jelentő lehetőségek, izgalmas feladatkörök és
fiatalos munkahelyi hangulat vár, akkor pályázzon hozzánk most!
• Feladatok
•
•
•
•
•
önálló gyártósor, illetve motoregységek gyártásának koordinálása
teljes körű szakmai és diszciplináris felelősség egy kb. 80-120 fős munkatársi létszámú területen
optimalizálási javaslatok, folyamatok kidolgozása és bevezetése
felelősség a minőségi-termelékenységi célok és a kitűzött darabszám megvalósításáért
kapcsolattartás és együttműködés az Audi Hungaria kapcsolódó területeivel
(pl. logisztika, minőségbiztosítás)
• a megfelelő működéshez szükséges létszám- és programtervezés
• Elvárások
•
•
•
•
•
felsőfokú végzettség (gépészmérnök vagy villamosmérnök)
legalább 5-10 éves munkatapasztalat termelő vállalatnál
vezetői munkakörben szerzett legalább 5 éves tapasztalat
tárgyalóképes német nyelvtudás
gyártási folyamatok, termelő berendezések,
illetve gyártástechnológiák ismerete
• terhelhetőség, stabilitás, határozott fellépés
• jó konfliktuskezelési és kommunikációs készség
Az alábbi nyitott pozíciókra várjuk jelentkezését részletes magyar és német nyelvű önéletrajz csatolásával:
Vezető – Motorszerelde
Vezető – Mechanikus megmunkálás
66
További információk: www.audi.hu/vezeto
The Local Organizing Committee of ECM2015 wishes to express
its gratitude to the following sponsors for their support.
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