FIRM QUALIFICATIONS / P2S ENGINEERING

Transcription

FIRM QUALIFICATIONS / P2S ENGINEERING
Engineers & Commissioning Agents
Long Beach
5000 E. Spring Street, 8th Floor
Long Beach, CA 90815
562.497.2999
www.p2seng.com
P2S Engineering, Inc.
A full-service engineering firm with a passion for sustainable design
For nearly 25 years, P2S has brought innovative and sustainable engineering solutions to Southern California businesses.
From mechanical and electrical design to plumbing and technology services, we take a holistic, performance-based
approach to every single project we undertake. That means we don’t just find a solution that works – we find a solution
that works for each individual client. What sets us apart:
We have experts in nearly every industry. From
We’re more than engineers. We perform feasibility
healthcare and higher education to aerospace and
studies, energy audits, master plans, and even
port design, our team of 80+ engineers and technical
commissioning reports for new or existing buildings.
staff are able to find the smartest design for even
And because our commissioning services division
the most challenging engineering problems. What’s
works so closely with our engineering team, we do
more, our diverse team has worked with almost
more than help you find inefficiencies within your
every kind of structure, including hospitals, university
buildings – we can help you fix them.
campuses, cleanroom laboratory environments,
central plants, ports and marine structures, and more.
Sustainable design is at the heart of our company.
Our work gets noticed. We’ve been named as one
Think green, build strong: it’s the P2S philosophy. We
of the Top 40 Electrical Design Firms of 2014 by
believe that optimizing efficiencies and saving money
EC&M, a Top 25 University Sector Engineering Firm
go hand-in-hand with preserving the environment.
of 2014 by BD+C, and we’re nationally ranked as one
We create systems that use renewable power
of the MEP Engineering Giants in North America.
sources, minimize the use of natural resources, and
We have even been voted one of the Best Places to
offer reduced operation costs. Our team can also
Work in Los Angeles – seven times running – by the
provide life-cycle studies to illustrate the long-term
Los Angeles Business Journal.
savings of your chosen design.
OUR SERVICES
Long Beach
San Diego
Mechanical
5000 E. Spring Street
9665 Chesapeake Dr.
www.p2seng.com
Electrical
8th Floor
Suite #230
Established: 1991
Plumbing
San Diego, CA 92123
Staff: 111
Technology
562.497.2999
619.618.2347
Commissioning
P2S ENGINEERING | FIRM QUALIFICATIONS |
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Industry Leaders
P2S does more than follow the latest engineering standards—our team is at
the forefront of developing future standards for the industry. Our in-house
incubator group frequently publishes white papers focusing on current
industry issues. We’re also committed to playing meaningful roles in the
following organizations.
President and CEO Kevin Peterson is
currently the working group chair for
IEEE 80005, developing international
standards for shore power
applications. He serves in leadership
American Council of Engineering Companies (ACEC)
Kevin Peterson is Chair of ACEC’s Coalition of American
Mechanical & Electrical Engineers
American Energy Engineers (AEE)
positions for several local non-profits
including the boards for Community
Hospital of Long Beach, Memorial
Medical Center Foundation, and the
YMCA of Greater Long Beach.
American Society of Healthcare Engineering (ASHE)
American Society of Heating, Refrigerating and Air-Conditioning
Engineers (ASHRAE)
Kent Peterson is former president of ASHRAE and former chair of ASHRAE
Standard 189.1
American Society of Mechanical Engineers (ASME)
American Society of Plumbing Engineers (ASPE)
Building Industry Consulting Services International (BICSI)
Federal Green Building Advisory Council
Kent Peterson is a current member of the Federal GBAC
Illuminating Engineers Society (IES)
Institute of Electrical & Electronic Engineers (IEEE)
Kevin Peterson is former president of IEEE’s Industry Applications Society
Vice President and Chief Engineer
Kent Peterson has guestlectured around the globe. His
technical papers on maximizing
energy efficiency and minimizing
International Association of Electrical Inspectors (IAEI)
environmental impact have appeared
U.S. Green Building Council (USGBC)
in top industry journals and news
outlets around the world, including
the New York Times.
P2S ENGINEERING | FIRM QUALIFICATIONS | 3
Design Awards
In the past five years, P2S has received numerous industry awards for outstanding engineering design. While the
desire for recognition does not drive our approach on any particular project, we are proud that the quality of our
work has been noticed by so many industry-leading organizations.
Illuminating Engineering Society of North America
Including the Energy & Environmental Design Award of Excellence 2012, OCTA Tustin Metrolink Parking Structure
California Higher Education Sustainability Conference
Including Best Overall Sustainable Design for 2014, SDSU Conrad Prebys Aztec Student Union
ASHRAE (American Society of Heating, Refrigerating and Air Conditioning Engineers)
Including Technology Award for Existing Buildings 2009 — Orange Empire Chapter, Boeing Building 41
Construction Management Association of America (SoCal Chapter)
Including Design Quality Partner Award for Building/Renovation 2014, San Bernardino Valley College Central Plant
American Council of Engineering Companies
Including the Engineering Excellence Merit Award 2010, CSU Northridge Fuel Cell Plant Phase 2
Association of Energy Engineers (Region V)
Project of the Year 2009, Avenal Child Care Center
National Intramural-Recreational Sports Association
Outstanding Sports Facility 2013, Cal Poly San Luis Obispo Student Recreation Center
P2S ENGINEERING
| FIRM QUALIFICATIONS
P2S ENGINEERING | FIRM
QUALIFICATIONS
| EDUCATION | | 4 4
Sustainable Design Experience
At P2S, energy conservation is more than a trend; it’s the heart of our company. Our teamwide philosophy of “Think Green, Build Strong” guides our engineering design decisions,
and we are constantly looking for new ways to enhance energy savings throughout a
structure’s entire life cycle.
20+ YEARS OF EXPERIENCE
WE MAKE “GREEN” EASY
WE GO BEYOND THE BUILDING
We’ve designed hundreds of structures
We know that many costs associated with
Our team provides energy master plans,
using CALGreen, Green Globe and LEED®
green design can be avoided through a
energy modeling, feasibility studies and
standards. In fact, nearly 30% of our
strong, integrated design approach. We
commissioning. We manage tax credit
engineering and technical staff are LEED®
provide a project life-cycle cost analysis
submissions and work with alternative
accredited.
during conceptual design to calculate
energy
costs and help clients better understand
storage, fuel cells, photovoltaic and more.
sources
like
thermal
energy
the value of sustainability over time.
30% of our engineering and technical staff are LEED® accredited
Recent LEED Projects
• San Diego State University, Conrad Prebys Aztec Student Union Building | San Diego, CA
• Roll International | Paramount Child Development Center | Avenal, CA
• Cal Poly SLO | Recreation Center Renovation | San Luis Obispo, CA
• CSU Long Beach | Student Recreation and Wellness Center | Long Beach, CA
LEED PLATINUM
LEED GOLD
LEED SILVER
LEED CERTIFIED
• Loyola Marymount University | William H. Hannon Library | Los Angeles, CA
• P2S Engineering | Office Tenant Improvements | Long Beach, CA
• Port of Los Angeles | TraPac Administration Building | San Pedro, CA
• Saddleback Church | Student Zone Building | Lake Forest, CA
• UCLA | Spieker Aquatic Center | Los Angeles, CA
• The Boeing Company | 15C2 Concept Center | Huntington Beach, CA
• Glendale Community College | New Classroom Building | Glendale, CA
• East LA College | Bailey Library | Los Angeles, CA
• East LA College | Math and Science Complex | Los Angeles, CA
• LA Harbor College | Library Learning Resource Center | Wilmington, CA
• LA Mission College | Media Arts Center | Los Angeles, CA
OUR CLIENTS
Industrial/Transportation
Biotech
Higher Education
• Aerospace Corporation
• 3M Pharmaceuticals
• California Polytechnic
• Boeing, Anaheim
• Salk Institute
• Boeing, El Segundo
• California Polytechnic
• Boeing, Huntington Beach
Healthcare
• Boeing, Long Beach
• Cal State University, San Marcos
• Boeing, Seal Beach
University, Pomona
Health Center
University, SLO
• Cal State University (Bakersfield,
Dominguez Hills, Fresno,
• John Wayne Airport
• Cedars-Sinai Medical Center
Fullerton, Humboldt, Long Beach,
• Laidlaw Transit
• Fountain Valley Regional Hospital
Los Angeles, Monterey Bay,
• Metropolitan Water
• Kaiser Permanente
Northridge, San Bernardino, San
• Long Beach VA Hospital
Diego, San Marcos, Stanislaus)
District (MWD)
• OCTA
• Scripps Green Hospital
• Chaffey College
• Port of Hueneme
• Scripps Memorial Encinitas
• Citrus College
• Port of Long Beach
• Scripps Memorial Hospital La Jolla
• Claremont Colleges
• Port of Los Angeles
• Scripps Mercy Hospital
• Coast Community College District
• Raytheon
• St. Mary’s Health Care
• Long Beach City College
• Roll International
• UCLA Hospital
• Los Angeles Community
• THUMS Oil Company
• University of Southern California
• US Navy
Municipal
College District
• Loyola Marymount University
Hospitality
• Marymount College
• Marriott Hotel, Costa Mesa
• North Orange County
• City of Long Beach
Community College District
• City of Huntington Beach
Entertainment
• Ocean Institute
• City of Los Angeles
• Disneyland
• Pomona College
• City of El Segundo
• NBC Universal
• Riverside Community College
• City of Orange
• Paramount Pictures
• County of Los Angeles
• Pixar
• County of Riverside
Telecommunications
• Verizon
District
• University of California (Davis,
Irvine, Los Angeles, Riverside, San
Diego, Santa Barbara)
• University of Southern California
“P2S has exceeded our expectations of what an engineering partner can be. They have helped us modernize half
of our district campuses – all on an accelerated job schedule. Even better, they have become a trusted adviser for
mechanical & electrical systems for our campuses.”
Margaret Brown, Director of Facilities
Garden Grove Unified School District
EXAMPLES OF
OUR WORK
SAN DIEGO STATE UNIVERSITY
LEED® Platinum Design Aztec Student Union
ABOUT THE PROJECT
P2S Engineering was proud to be selected as the MEP design partner for the creation of a high-profile,
highly sustainable student union building at San Diego State University. As part of the project, we developed
a complex range of innovative, water- and energy-saving systems for what is on track to become the
largest LEED® Platinum education building in California. The energy-efficient structure represents the
vision of the next generation—the SDSU students who demanded and ultimately selected the team’s
LEED intensive design.
OUR SOLUTIONS
• The HVAC system consumes 40% less energy than Title 24
standards and incorporates several low-pressure variable
air volume (VAV) systems with economizers to allow for
appropriate flow depending on need
• A radiant slab heating and cooling system with a dedicated
outside air system was used in parts of the building to
simultaneously reduce fan energy and improve indoor air
quality. Carbon dioxide sensors also provide demand-based
ventilation for high occupancy spaces.
P2S included sub-metering of all utility systems within the
building to allow the owner to better understand energy
and water consumption patterns.
OUR RESULTS
The structure presents reported annual energy
and cost savings of 49.8% compared to the
existing structure.
AWARDS
• The building’s lighting system is an effective mix of natural
light (through daylighting and skylight features) and
innovative electrical design, including highly efficient light
fixtures and task lighting to illuminate the interior spaces
within the buildings
California Higher Education Sustainability
Conference, Best Overall Sustainable Design 2014
• Demand controls to harvest daylight savings and reduce
overall lighting power densities were also used. Energy
efficient distribution transformers helped to further reduce
energy losses.
BUILDING FEATURES
• A photovoltaic (PV) system on the roof offsets a portion
of the building energy usage via the provision of onsite
renewable power
• Rainwater collection to reclaim and save water
ACEC Engineering Excellence Awards Competition,
Honor Award 2015
206,000 SF
Multipurpose theater (300 seats)
1,200-seat ballroom
Bowling and games center
Dining and retail space
Student and community affairs offices
Indoor and outdoor WiFi
CSU FULLERTON
Mihaylo Business & Economics Hall
ABOUT THE PROJECT
In creating the Steven G. Mihaylo Business and Economics Hall, CSU Fullerton wanted to design a
sustainable building that would serve as an inviting and welcoming “front door” to the campus community,
encouraging social interaction and exchange among students and teachers alike. They called on P2S to
provide MEPT and construction support for the high-profile project.
The building infrastructure was designed to meet the requirements of a multi-purpose, multi-space structure, while also serving
as a comfortable and inviting space for students to gather and socialize—all while keeping green design principles in mind.
OUR SOLUTIONS
• The building’s lighting was designed to be approximately
15% more efficient than the stipulated Title 24, Part 6
requirements
• Self-calibrating carbon dioxide sensors monitor the outdoor
air supply in each classroom to improve energy savings
• An innovative lighting design qualified the building for
incentives under the Savings by Design program offered by
the local utility company
• A flexible telecommunications infrastructure consisting
of conduit and cable trays supports many generations of
technology, including a Category 6 structured cabling
system that ensures sufficient future bandwidth through a
1000baseT data system
AWARDS
ASHRAE Technology Award for New Buildings Orange Empire Chapter, 2009
BUILDING FEATURES
190,000 SF
5 stories
30 classrooms
Lecture hall
Technology area
Network lab
Faculty offices
CHAFFEY COLLEGE
Visual and Performing Arts Complex
ABOUT THE PROJECT
With a desire to create a world-class performing arts center for its students, Chaffey College decided to
renovate two existing buildings while also building new music and performing arts facilities for its creative
student population. P2S provided the MEPT engineering and construction support to create an inspiring
environment, while also ensuring meaningful energy savings.
OUR SOLUTIONS
• The buildings are served by an existing central chilled and
heating plant with air handlers located on the roofs of the
buildings. The entire building HVAC system is connected to
the campus energy management system
• The building is illuminated with energy efficient lighting
comprising of low ballast factor ballasts and efficient T8
fluorescent lamps
• Occupancy controls combined with automatic low voltage
relay shut-off system provides optimum usage of energy
OUR RESULTS
The building qualified for incentives under the
Savings by Design program offered by local utility
companies.
BUILDING FEATURES
50,000 SF
Savings by Design incentives
3M PHARMACEUTICALS
Cleanroom upgrade
ABOUT THE PROJECT
To help grow and upgrade 3M’s cleanroom facilities, P2S provided engineering drawings and design for
both new and existing cleanroom spaces, for a variety of functions.
OUR SOLUTIONS
Raw materials sampling room & powder potent rooms: We provided engineering drawings for the upgrade of existing
raw material sampling and powder potent rooms to meet current Good Manufacturing Practice (GMP) guidelines. Our work
included room pressurization, airflow, ventilation and temperature control.
New cleanroom design: We created drawings and MEP and process piping systems for new 21,000 SF Class 10,000
manufacturing cleanrooms for new products.
HVAC modifications: We provided engineering drawings for mechanical upgrades of existing 16,000 SF transdermal (TDD)
and conventional (COD) drug delivery areas to meet current GMP requirements. New mechanical air handling, chilled water
cooling, steam heating and air, and piping distribution design were required for the renovated area.
BUILDING FEATURES
21,000 SF Class 10,000 cleanrooms
16,000 SF TDD and COD drug delivery areas
APPLIED MAGNETICS CORP.
BAXTER HEALTHCARE CORP.
New clean room expansion
Water system upgrade
ABOUT THE PROJECT
ABOUT THE PROJECT
To help Applied Magnetics Corporation (AMC) expand
its Class 100 clean room facilities, P2S provided
full-service engineering support, including project
management, engineering, design, construction
documents, cost estimates and construction
administration.
As a healthcare company, Baxter needed to ensure that
its water system was of the highest quality. They hired P2S
to help modernize their system, which involved replacing
an existing water still with a new one, while also ensuring
that systems remained functional during the installation.
The new 12,200 SF cleanroom space utilizes a clean
bay and service alley configuration. Clean bays are 12
ft. wide by 10 ft. high. Service alleys are 16 ft. wide
and 14 ft. high. The 2,200 SF of support area consists
of chemical distribution and chemical mix, as well as
electrical areas built on the side of the building.
OUR SOLUTIONS
• Two new make-up air handling units and 10 new
recirculation air handling units were installed on the
roof to serve the expanded cleanroom space
• Two new chillers, three steam boilers, two heating
hot water boilers and two new rotary vacuum
pumps were added to the existing central plant
• A new process chilled water plant and new deionized water plant were provided for the facility
• The mechanical piping systems for Fab 3, Phase II
included process chilled water piping, compressed
dry air, nitrogen, vacuum, de-ionized water, acid
waste, and high purity gases
• Three new low voltage substations and one motor
control center were built for this expansion.
BUILDING FEATURES
Class 100 Cleanroom / 12,200 SF
OUR SOLUTIONS
The design team temporarily re-routed all utilities
serving the water still, such as clean steam, reverse
osmosis (RO) water, CDA, acid clean piping, and water
for injection (WFI) that interfered with the removal of
the existing unit. Once the existing unit was removed,
the new still unit was installed and certified.
As part of the project, P2S also provided a temporary
water softener system for the RO units serving the plant.
In doing so, we disconnected the existing softeners to
provide a new softener bank with a 10,000-gallon brine
tank. We re-routed existing steam, domestic water,
CDA, and sanitary system to accommodate the new
tank system.
OTHER BAXTER EXPERIENCE
Steam distribution unit
Cooling tower
Softeners
Control panel repairs
Boiler room electrical study
Still No. 2/4
Electrical study
Condensate lines
Line spooling
Central plant study
RO plant
LA fractionation facility
Room 334 coagulation fill line
Manufacturing core upgrade
EM manufacturing
Spectrometer exhaust system
AVENAL CHILD DEVELOPMENT CENTER
LEED® Gold Equivalent Design
ABOUT THE PROJECT
Paramount Farms / Roll International had a goal of creating a safe and effective learning environment
for its employees’ children. The company also wanted the building to be high-performing and energy
efficient. P2S created an innovative design that provided great ventilation, lighting and thermal comfort,
while saving 50,000 kWh of energy per year.
OUR SOLUTIONS
• Highly efficient filtration system that provides minimum
outside air to the child care area, especially during Valley
Fever season, which can be dangerous for young children
AWARDS
• Low energy HVAC system, which includes mixed-mode
ventilation with chilled beams and radiant heat flooring that
exceeds Title 24 regulations by 25%
2009 Illumination Award of Merit
• Specific zones of the building that allow for individual
control; cooling automatically shuts off when windows are
opened in these areas
• Extensive daylighting and lighting control systems, including
a complete 30 kW photovoltaic (PV) farm that equates to
about 20% of total building energy consumption
• Low-flow and waterless fixtures that reduce water use by
more than 30%
OUR RESULTS
With the help of P2S, the design saved 50,000 kWh per
year, 35kW peak demand per year, and 182 million BTUs
per year.
2009 National Illumination Design Award
Honorable Mention
2009 Lumen Award for Energy & Environmental
Design, Illuminating Engineering Society of
North America (IESNA)
2009 Region V Energy Project of the Year,
Association of Energy Engineers Southern
California Chapter (AEE)
2009 Engineering Excellence Merit Award,
American Council of Engineering Companies California
ACEC-CA (CELSOC)
BUILDING FEATURES
11,300 SF
Serves 100 preschool children
Collaborative for High Performing Schools (CHPS)
PIERCE COLLEGE
Parking Lot Photovoltaic Farms
Pierce College prides itself on its commitment to sustainability and environmental stewardship. Its
photovoltaic (PV) and natural gas cogeneration systems are the largest of their kind to be undertaken
by a U.S. community college and yield some 4.4 million kW hours of electricity a year. P2S was proud to
design five PV farm car ports in support of their efforts.
OUR SOLUTIONS
• Design of the layouts of the PV farms, including wiring
details, electrical equipment layouts, single-line diagrams,
connections to existing switchboards and load calculations,
and tilt-angle optimization to maximize kilowatt-hour
production
PROJECT FEATURES
Five PV farm car ports
175kW to 2MW each
• Construction support and project closeout documentation
Lot
System
Inverter
• Workable interfacing with the campus’ 4.16kV electrical
distribution system
Parking Lot 1
175 kW PV
system
225 kW
inverter
Parking Lot 2
250 kW PV
system
250 kW
inverter
Parking Lot 3
630 kW PV
system
375 kW
inverter (Two)
Parking Lot 4
2 MW PV
system
500 kW
inverter (Four)
Parking Lot 5
250 kW PV
system
250 kW
inverter
CSU NORTHRIDGE
Fuel Cell Project
ABOUT THE PROJECT
P2S designed an ultra-clean fuel cell power plant with combined heat and power to help CSUN meet its
goals for greater energy independence, energy cost management, and increased use of green power.
OUR SOLUTIONS
• The 1MW, natural gas-fed direct fuel cell consists of four
DFC300 power plants and supplies 18% of the campus’
electricity needs. It has extra capacity that will allow the
campus to add new buildings to the central heating and
cooling infrastructure in the future.
• Waste heat from the fuel cells is collected and used to
provide heating for the campus buildings and swimming
pools. The heat is also used to generate the campus’
domestic hot water.
• The carbon dioxide emissions contained in the fuel cells’
waste heat is also recycled; its condensation is used to
enrich plant growth through photosynthesis as part of the
university’s future carbon-dioxide enrichment research.
AWARDS
Consulting Engineers and Land Surveyors of
California (CELSOC)
2007 UC / CSU Sustainability Best Practices Award
BUILDING FEATURES
1MW, natural gas-fed fuel cell
Provides 18% of campus electricity
Subtropical rain forest
• A subtropical rain forest was built a few feet from the fuel-cell
plant and satellite chiller facility. Exhaust gas is distributed
throughout the subtropical rain forest microclimate to
provide enhanced plant growth. This method effectively
sequesters the CO2 emissions from the fuel cells in the
plants of the micro-forest.
UC SAN DIEGO
Mandeville Hall MBCx
ABOUT THE PROJECT
After nearly 40 years in operation, Mandeville Hall was in need of an energy efficiency adjustment. Through
monitoring-based commissioning (MBCx), P2S saved the school more than $50,000/year in energy costs.
Mandeville Hall is connected to the campus central chilled water and high temperature hot water systems, but due to the
compartmentalized nature of the space, the HVAC systems primarily consisted of single-zone constant volume air handlers
or fan coil units. Additionally, at the time of the commissioning, the building controls were a mixture of pneumatic and direct
digital controls (DDC), and some of the DDC controllers had not been integrated into the campus energy management system
(EMS). In most cases the pneumatic valve and damper actuators had been retained. Voltage-to-pressure (E/P) converters were
installed as part of the original DDC system installation.
OUR SOLUTIONS
P2S identified numerous maintenance issues related to the
pneumatic items and made a number of recommendations for
conserving air and water systems including:
• Convert chilled hot water pumping to variable speed and
implement demand control
• Reduce simultaneous heating and cooling
• Integrate air handling unit controls to EMS
• Adjust building operating hours to operate only during
defined hours
OUR RESULTS
158,167 kWh annual savings
25,560 therm annual savings
$50,203 total annual savings
$172,500 implementation cost
$80,882 incentive*
1.8 year simple payback
BUILDING FEATURES
4 stories
72,000 SF
Built 1973
ALLAN HANCOCK COLLEGE
One Stop Student Services Center Technology Design
ABOUT THE PROJECT
Allan Hancock College wanted to ensure that its new One Stop Student Services Center utilized the latest
in modern technology. To help, the P2S technology team designed a data, voice and TV network that
allowed for maximum flexibility—and reliability—for campus students.
OUR SOLUTIONS
• P2S established a full technology infrastructure to support
the buildings, including a total of three telecommunications
rooms designed with the environmental controls needed to
keep the equipment safe
• As part of the design, data, voice and TV services were
connected to the main campus networks
BUILDING FEATURES
(2) 2-story buildings
60,000 SF each
3 telecommunications rooms
Data, voice and TV connection
Structured cabling system
• The telecommunications cabling was designed using a
structured cabling system that is capable of supporting
both data and voice over IP
CHAFFEY COLLEGE
New Central Plant and Utility Infrastructure
ABOUT THE PROJECT
In order to increase the efficiency of its utility services, Chaffey College opted to replace its existing
system of boilers and chillers throughout the campus with a new central plant and underground piping
distribution system.
P2S Engineering served as the prime consultant responsible for the project, which included engineering, design, construction
documents, cost estimates and construction administration. The distribution portion of the project included approximately six
miles of underground piping that connected the 18 buildings being served.
OUR SOLUTIONS
• A new 1,800-ton chiller plant was designed to provide
cooling to campus buildings
• The new 9 MMBtu boiler plant was designed for maximum
efficiency while minimizing output of end products subject
to regulations by the South Coast Air Quality Management
District (SCAQMD)
• A provision was made for new telecommunications, electrical
and gas infrastructure for existing and future buildings on
campus
OUR RESULTS
The new central plant saved Chaffey more than
$500,000 in operating costs in its first three years
of operation.
AWARDS
Consulting Engineers and Land Surveyors of
California (CELSOC)
CITRUS COLLEGE
Central Chiller Plant with Chilled Water Thermal Storage
To increase its overall energy efficiency and increase its capacity for future expansion, Citrus College
decided to create a new centralized chiller plant. P2S helped guide the project from start to finish,
including initial feasibility studies for the plant.
OUR SOLUTIONS
• Two variable-speed 600-ton chillers with an above ground
7,200-ton hour (650,000 gallon) chilled water thermal
storage tank to optimize plant efficiency
• Cooling towers sized to provide low entering condenser
water temperature to optimize chiller efficiencies while
charging the thermal storage tanks
• Pumping systems designed with a primary-secondary
variable flow system
AWARDS
ACEC-CA (CELSOC)
BUILDING FEATURES
1,200-ton chiller plant
7,200 ton-hours of chilled water storage
9,800 MBH heating hot water
• A heating hot water plant with six 1,800 MBH boilers
• Sequence of operation system that utilizes several
techniques to maximize energy efficiency
US NAVAL STATION BREMERTON
Pier Replacement
ABOUT THE PROJECT
From demolition to new construction, P2S supported the U.S. Navy’s development of a new pier suitable
for use with aircraft carriers, including the upland utility infrastructure associated with it.
Various mechanical upland utilities were required to support the new pier, whose services required steam, water, compressed
air, a collection/holding/transfer (CHT) system, and oily waste management. The electrical infrastructure also required major
modifications to support the new pier’s high-power demands.
OUR SOLUTIONS
• A new 66 MVA, 115-12 kV substation included autovoltage regulators and remote control, including a 15 kV
powerhouse with 27 vacuum breakers
• A new ring-bus switchgear utilized SEL relays for pilot wire,
bus differential, and overcurrent protection
PROJECT FEATURES
3,900-foot pier suitable for aircraft carrier use
Upland utility infrastructure
• The pier electrical system included three 12kV-480V, 5 MVA
substations with remote control and monitoring, and one
12kV-4.16kV, 20 MVA substation
• Feeders were distributed to concrete ship and shore power
boxes on the pier
• 5 kV PLM receptacles were used on the ship power boxes
• The pier lighting consisted of three 100-foot poles with
lowering devices and high mast fixture
PORT OF LONG BEACH
Middle Harbor Redevelopment
ABOUT THE PROJECT
With a focus on future demand loads, the Port of Long Beach hired P2S to design a new and improved
electrical infrastructure for its Middle Harbor region, including shore power, lighting and other key
improvements.
As part of the project, P2S projected future demand loads for the “mega-terminal,” and made recommendations for serving
the harbor’s future needs. In addition, all existing Southern California Edison (SCE) substations were surveyed, and the existing
connected load was compared against the demand load. The project required close coordination with SCE while collecting
information on existing meters and evaluating service options for the terminal.
OUR SOLUTIONS
• 12.47kV underground distribution to provide power for
crane power systems
• Ship-to-shore power systems
• Area lighting systems
• PTW systems and reefer distribution systems
• Power system analysis including short circuit, load flow and
arc flash
Other recommendations included a new 20 MVA 66kV service with provisions to add a second 20 MVA service in the future
and 12kV crane power service.
RAYTHEON GOLETA
HEWLETT PACKARD
Hollister Facility Design
Manufacturing Facility Expansion
ABOUT THE PROJECT
ABOUT THE PROJECT
Raytheon planned to expand its existing
Hollister facility to support a wide variety of
needs, ranging from an elaborate welcome area
and cafeteria to classified computer labs and
cleanrooms. P2S created design solutions that
would allow for flexibility and energy efficiency,
long into the future.
When Hewlett Packard needed to expand one
of its 75,000 SF printer head cleanroom facilities,
P2S was there every step of the way, performing
everything from trade studies and design to
construction documents, cost estimates and
construction administration.
OUR SOLUTIONS
• Eleven existing and two new air conditioning units
and two new make-up air handling units provide
comfort heating and cooling for the building spaces
while also allowing for diverse use of space
• The conditioned air for the QC cleanrooms is
distributed through the ducting system to the
ceiling banks of high efficiency particulate (HEPA)
filters
• The two make-up air handling units supply
conditioned 100% outside air to the main air
handling units
PROJECT FEATURES
167,000 SF
4 buildings
QC cleanrooms
Metrology lab
Electronics and vibration labs
Equipment rooms
Spray rooms
Anechoic chambers
Classified computer and phone room
Redundant HVAC systems
In addition to expanding space for the printer head
manufacturing facility, the project also involved utility
infrastructure expansions and additions in the existing
energy center. The majority of the manufacturing
space was made up of ISO Class 6 and 7 ballroom type
cleanrooms.
OUR SOLUTIONS
As part of the expansion, Hewlett Packard’s manufacturing
areas were fitted with recirculating air handlers and utilities
located in an interstitial space above the cleanrooms.
The make-up air system utilized chilled water return for
re-heat, eliminating the need for a separate diesel-fired
boiler plant.
Utilities included: uninterruptible power supply (UPS),
recirculation air handlers, make-up air handlers, specialty
exhaust systems and a large dust collection system.
Piped utilities included: chilled water, ultra-pure
deionized (DI) water, reverse osmosis (RO) water, high
purity nitrogen, oxygen and helium, clean dry air, high
pressure clean dry air, house vacuum, specialty vacuum,
process vacuum, process cooling water and pumped
chemicals.
PROJECT FEATURES
75,000 SF
ISO Class 6 and 7 cleanrooms
HEWLETT PACKARD
Manufacturing Facility Expansion
ABOUT THE PROJECT
When Hewlett Packard needed to expand one of its 75,000 SF printer head cleanroom facilities, P2S
was there every step of the way, performing everything from trade studies and design to construction
documents, cost estimates and construction administration.
In addition to expanding space for the printer head manufacturing facility, the project also involved utility infrastructure
expansions and additions in the existing energy center. The majority of the manufacturing space was made up of ISO Class 6
and 7 ballroom type cleanrooms.
OUR SOLUTIONS
As part of the expansion, Hewlett Packard’s manufacturing areas were fitted with recirculating air handlers and utilities located
in an interstitial space above the cleanrooms. The make-up air system utilized chilled water return for re-heat, eliminating the
need for a separate diesel-fired boiler plant.
Utilities included: uninterruptible power supply (UPS), recirculation air handlers, make-up air handlers, specialty exhaust
systems and a large dust collection system.
Piped utilities included: chilled water, ultra-pure deionized (DI) water, reverse osmosis (RO) water, high purity nitrogen,
oxygen and helium, clean dry air, high pressure clean dry air, house vacuum, specialty vacuum, process vacuum, process
cooling water and pumped chemicals.
PROJECT FEATURES
75,000 SF
ISO Class 6 and 7 cleanrooms
ORANGE COUNTY TRANSIT AUTHORITY
Parking Structure
ABOUT THE PROJECT
Anticipating an increase in ridership due to a major Tustin Metrolink expansion program, the Orange
County Transit Authority (OCTA) hired P2S to help double the amount of parking available to Metrolink
riders, while keeping energy efficient lighting in mind.
As part of the project, P2S Engineering provided lighting, power, plumbing, fire protection, security and telecommunications for
the new five-story parking structure. The basis of the lighting design for the Tustin Metrolink Station Parking Structure was to
utilize energy efficient and environmentally safe light fixtures while offering a well-lit and safe public parking 24-hours per day.
Engineering duties included site investigation of the existing utility services, capacity studies, coordination with utility companies
and local authorities, and communication with civil engineers. P2S also provided site and building impact input and conceptual
plans to support the delivery of the master plan.
OUR SOLUTIONS
• Built-in sensors reduce power and light output by 80%
when an area is unoccupied for more than five minutes
• Photocell option dims power and light output based on
ambient lighting
• Sensors eliminate the need for a lighting relay control
panel
• 100kW photovoltaic (PV) system produces energy that is
returned to the SCE grid offsetting the energy used in the
structure and parking lot
OUR RESULTS
AWARDS
California Higher Education Sustainability
Conference, Best Overall Sustainable Design 2014
ACEC Engineering Excellence Awards Competition,
Honor Award 2015
BUILDING FEATURES
5 stories
733 spaces
5 electric car charging stations
Transit center
PV rooftop
• 50% reduction in total energy costs
• Parking structure lighting output 78% below Title 24
• Reduced 285,000 lbs of carbon emissions
CONTACT INFORMATION
To learn more about our services, please contact
Jesse Urquidi, Head of Business Development
562.497.2999
[email protected]
Long Beach
5000 E. Spring Street, 8th Floor
562.497.2999
www.p2seng.com

FIRM QUALIFICATIONS / P2S ENGINEERING

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