paid supplement 2011 excellence in structural engineering · pdf fileoutstanding excellence in...
TRANSCRIPT
p a i d s u p p l e m e n t
structural engineers association of northern california
2011Structural EnginEEring
Excellence in
Awards
Greetings!
On behalf of the Structural Engineers Association of Northern California (SEAONC) membership and Board of Directors, I invite you to share in the celebration of SEAONC’s 2011 Excellence in Structural Engineering Awards with this issue of the San Francisco Business Times (SFBT) advertorial supplement. With a record number of award entries and awarded projects this year, this 24-page supplement marks the 5th consecutive year of the SEAONC – SFBT awards advertorial.
Founded in 1930, SEAONC is committed to advancing the art and science of structural engineering and providing the public with structures of safe and dependable performance. SEAONC is respected as an authoritative world leader in the practice of structural and earthquake engineering; as a nationally influential participant in structural code and standard development and as a valuable resource to practicing structural engineers in California.
The SEAONC membership is actively involved in volunteer committee work and outreach in focused areas which include continuing education, structural standards, seismology, existing buildings, disaster and emergency services, construction quality assurance, infrastructure, sustainable design, professional practices, public relations and public affairs. This work, along with SEAONC’s philanthropic initiatives, is central to SEAONC’s leadership role at local, regional, state and national levels. In celebrating these awards with San Francisco Bay Area’s business, government, design and construction community, SEAONC thanks you for your support of its mission and goals.
This year, a distinguished jury panel, selected awarded projects from a highly qualified set of award entries. We offer our congratulations to the SEAONC award recipients, as well as, their owners and project design and construction teams that made these projects a reality. We thank the jury in its difficult and hardworking deliberations in determining the awards from the many project entries exhibiting design excellence and outstanding achievement in creative design, technical innovation, best practices and demonstrated contributions to the public and profession.
I would like to thank the SEAONC Board for their commitment to the awards program, and to the Awards committee, led by Director Richard Dreyer, in orchestrating the Excellence in Structural Engineering Awards program including the organization and layout of this San Francisco Business Times awards supplement. I especially thank those firms, companies and industry partners that contributed in making this advertorial possible, as well as, SEAONC and its membership for their excellent work.
Thank you,
Peter LeePresident 2011-2012
now in its fifth year, this San Francisco Business times advertorial supplement celebrates the results of SEaOnc’s 2011 Excellence in Structural Engineering awards program as recognized at the May 3rd, 2011 SEaOnc awards ceremony held at the city club of San Francisco. the awards were presented by SEaOnc Director richard Dreyer and Past SEaOnc & SEaOc President and SEaOc Fellow, Maryann Phipps.
JURY PANEL
the judging of entries and selection of award recipients was made by the following jury panel.
Reinhard Ludke, SE, Principal creegan + D’angelo, San Francisco, ca
Ephraim Hirsch, SEconsulting Structural Engineer, San Francisco, ca
Professor Steve Vukazich, SEDepartment of civil Engineering, San Jose State university
Carolyn Kiernat, AIA, PrincipalPage & turnbull architects, San Francisco, ca
Jeff Gherardini, Construction ManagerPlant construction inc., San Francisco, ca
Structural Engineers Association of Northern California575 Market Street, Suite 2125San Francisco, CA 94105-2870www.seaonc.org
SEAONC BOARD
Peter Lee, SEPresident
Grace Kang, SEVice President
Colin Blaney, SEtreasurer
Richard Dreyer, SE Tim Hart, SE Taryn Stubblefield, SEDarrick Hom, SEMichael Gemmill, SEDirectors
Kelly Cobeen, SEPast President
Ken MilesExecutive Secretary
AWARD CATEGORIES
Entries were submitted in seven categories: Study/research/guidelines Special-use Structures Historic Preservation retrofit/alteration new construction Sustainable Design landmark Structures infrastructure JUDGING CRITERIA
Entries were judged on demonstrated excellence and achievement in structural engineering including the following criteria:
Design creativity technical innovation System Efficiency and Economy constructability complexity of Problems Solved Design integration Quality of Execution Significant contribution to the Public and Profession
p a i d s u p p l e m e n t
category :: Landmark StructureSOutstanding excellence in the structural engineering analysis, design and construction of a significant project achieving “Landmark Structure” status.
award of exceLLence
TIANJIN WORLD FINANCIAL CENTER TIANJIN, CHINA
structural engineer | Skidmore, Owings & Merrill LLP
the 1,100 ft tall tianjin World Financial center tower, situated at the
historical heart of tianjin, captures the city’s powerful confluence of history,
culture, geography, and art. With the tower’s slender form, and tianjin’s
long history as the ancient entry port to china and a major center for ship
building and steel production, steel plate shear walls were chosen as major
components of the tower’s lateral-force -resisting system.
to satisfy the requirements of both chinese and uS codes, a unique system
of “buckling restrained” stiffened steel plate shear walls was developed,
and validated in depth using advanced analytical studies as well physical
modeling and testing.
J U R Y C O M M E N T
The Jury commented that the project does indeed “create a nuanced public place that embodies the city’s international prominence as a physical and economic gateway to China.” One of the Jury panel members, born in Shanghai, noted
with emphasis that “they are using historicism in the cultural references embedded in the integrated design” – now we know
what a “Landmark” building is!
©Skidmore, Owings & Merrill LLC
©Skidmore, Owings & Merrill LLC
p a i d s u p p l e m e n t
category :: Landmark StructureSOutstanding excellence in the structural engineering analysis, design and construction of a significant project achieving “Landmark Structure” status.
awardS of exceLLence
UNIVERSITY OF CALIFORNIA, SAN FRANCISCO, RAY AND
DAGMAR DOLBY REGENERATION MEDICINE BUILDING
structural engineer | Nabih Youssef Associates - Structural Design Engineer
Forrell/Elsesser Engineers, Inc. - Design-Build,
Structural Engineer of Record
the new ray and Dagmar Dolby regeneration Medicine Building, located
at the university of california, San Francisco’s Parnassus Medical campus,
houses new laboratories for the university’s stem cell research program.
the new 70,000 square foot laboratory and medical facility houses 25
Principal investigators and their teams studying tissue development and cell
based approaches to treating disease.
nabih Youssef associates with rafael Viñoly architects; and Forell/
Elsesser Engineers, inc. with Smithgroup architects and DPr construction
(Design-Build team) collaborated to develop a design that responded to the
demanding and steeply-sloping site, that curves and slopes up to 65 degrees,
ultimately creating a 700 foot long serpentine-shaped building. the teams’
integration of architecture and engineering, on an essentially un-buildable
piece of land, viewed the site constraints and architectural program
demands as both a unique design challenge and opportunity. to achieve the
owner’s desire for seismic performance beyond basic code compliance, a
“triple” Friction Pendulum isolation bearing system was integrated into
the triangular space frame support structure. Furthermore, the design-
build engineer developed, tested, and implemented a unique dynamic uplift
restraint device to address the narrow building’s tendency to uplift during
an earthquake.
J U R Y C O M M E N T
The Jury commented that in recognizing the importance and achievement of design excellence of the project, it moved the
entry from the “New Construction” category to “Landmark” status. This amazing project’s “Integrated Project
Delivery” method was successful in controlling costs and schedule for the University – completing construction in just
two and one-half years after the design-build contract was awarded.
Photographer:Bruce Damonte
Photographer: Bruce Damonte
p a i d s u p p l e m e n t
Friction PendulumTM Seismic Isolation
E P S Earthquake Protection Systems, Inc. 451 Azuar Drive, Building 759, Mare Island, Vallejo, California 94592
Tel: (707) 644-5993, www.earthquakeprotection.com
Beyond Code Seismic Protection To Minimize Economic Losses and Disruption
Sabiha Gokcen International Airport, Turkey Mills-Peninsula Hospital, California Cathedral of Christ the Light, California
Triple Pendulum Bearing Components Triple Pendulum Bearing
Pasadena City Hall, California Offshore Platform, Russia
Chile LNG Tanks, after Mag. 8.8 Earthquake
Dumbarton Toll Bridge, California
El Helicoidal Viaduct, Colombia Acapulco City Hall, Mexico Installed Bearings, Acapulco City Hall
p a i d s u p p l e m e n t
©Skidmore, Owings & Merrill LLC
©Skidmore, Owings & Merrill LLCPhotographer: Tim Griffith
category :: new conStructionExcellence in the use of conventional and/or innovative technology in the design of a new construction project to successfully achieve project performance goals.
award of exceLLence
SHANGHAI HUAWEI TECHNOLOGIES CORPORATE CAMPUS
SHANGHAI, CHINA
structural engineer | Skidmore, Owings & Merrill LLP
the Shanghai Huawei technologies corporate campus is a technologically
advanced workplace that fosters community and communication across
the various research, development and business departments. With a
total building area of over 3 million sq ft of research and development
space including ancillary areas, the project serves 7,500 employees. the
project comprises six separate but similar r&D building modules and three
separate ancillary hub buildings. the structural systems employed are
efficient and focused on component innovation and optimization. use of
profiled post-tensioned members at typical floor framing elements led to
greater efficiency and a net material savings of 20%. cast concrete roof
truss elements incorporating steel pinned connections unify the multiple
r&D buildings into a complex with a consistent and lasting identity.
J U R Y C O M M E N T
The Jury commented that the highly sophisticated integrated design achieves significant efficiencies of architectural,
structural and energy components – with just “clean and repetitive” structural elements!
p a i d s u p p l e m e n t
category :: new conStruction
award of merit
UCSF CHILD CARE CENTER
UNIVERSITY OF CALIFORNIA, SAN FRANCISCO, CA
structural engineer | Holmes Culley
the university of california, San Francisco Kirkham child care center is a
new 9,000 square feet facility that provides child care services to the ucSF
Parnassus campus staff. this two-story structure with partial basement was
designed as a modular building system consisting of multiple prefabricated
building elements constructed off-site. Built on a sloping site, the program
included a large multi-purpose room, 5 classrooms and a multi-level play
yard. this pre-fabricated building was completely erected in just two-and-
a-half days.
J U R Y C O M M E N T
The Jury commented that the project is remarkable because it demonstrates “wave of the future” in utilizing modular construction design methods and procedures – very economical while minimizing the amount of noise
and disruption to the surrounding campus and residential neighborhood.
Photographer: Blake Marvin
130 Sutter Street, Suite 400 l San FranciSco, ca l 94104
tel 415 693 1600 l Fax 415 693 1760 l www.holmesculley.com
THINKANALYZE
DESIGNENGINEER
DELIVER
Excellence in the use of conventional and/or innovative technology in the design of a new construction project to successfully achieve project performance goals.
p a i d s u p p l e m e n t
category :: Special-USe StrUctUreSExcellence in engineering design or analysis used on an unusual or special-use project including non-building structures. Examples in this category include a bridge structure, a temporary movie set, an artificial rock climbing wall and an elevated monorail station.
award of exceLLence
PEDESTRIAN WALKWAY, ST. JOSEPH’S
MEDICAL CENTER, STOCKTON, CA
structural engineer | ESE Consulting Engineers, Inc.
the Pedestrian Walkway at Saint Joseph Medical center in Stockton is a
new 320 foot long steel curvilinear, elevated pedestrian bridge connecting
the new Pavilion to the existing hospital. Existing geometric constraints at
the site resulted in the final unique shape of the bridge designed to resist
vertical and lateral loads in compliance with OSHPD requirements.
J U R Y C O M M E N T
“The jury commented that the elegant design of the pedestrian walkway structure is a “clever solution” exhibiting excellence
in its well thought out attention to architectural and functional constraints. An excellent example of design integration, the
highly collaborative effort by the architect and structural engineer, gets “high marks”.”
Photographer: Joe Fletcher
p a i d s u p p l e m e n t
Excellence in engineering design or analysis used on an unusual or special-use project including non-building structures. Examples in this category include a bridge structure, a temporary movie set, an artificial rock climbing wall and an elevated monorail station.
Photographer: Ilana Spector and Mark Grieve
CYCLISK
SANTA ROSA, CA
structural engineer | ZFA Structural Engineers
the result of a design competition using recycled materials, the cyclisk
was designed by artists Mark grieve and ilana Spector. the project is a
65 foot traditionally shaped obelisk made from discarded bicycles. the
artists collected 340 unusable bicycles from all over california to create
the four-inch-thick skin of this large landmark structure. the cyclisk was
constructed using an efficient steel-trussed superstructure designed to be
both light-weight and efficient using readily available structural steel angles
and reinforced connections. the unusable bicycles were cleaned, then
welded together and attached to the superstructure to create the obelisk
form. the $37,000 community art piece was commissioned by the city of
Santa rosa for Santa rosa nissan as a part of its “art in Public Spaces”
program.
J U R Y C O M M E N T
The work demonstrates a straightforward collaboration between artist and structural engineer. While the Obelisk has
marked public space for millennia, the “Cyclisk” is a unique interpretation of monumental public art.
category :: Special-USe StrUctUreS
award of merit
Dealey, Renton & AssociatesInsurance Brokers
Oakland Pasadena Santa Ana
tel 510.465.3090 fax 510.452.2193
www.dealeyrenton.com An ESOP Company License #0020739
Think protection.Think of us.
p a i d s u p p l e m e n t
category :: Special-USe StrUctUreSExcellence in engineering design or analysis used on an unusual or special-use project including non-building structures. Examples in this category include a bridge structure, a temporary movie set, an artificial rock climbing wall and an elevated monorail station.
award of merit
THE BOWLS PROJECT
SAN FRANCISCO, CA
structural engineer | Degenkolb Engineers
the Bowls Project is a unique, pro-bono multimedia art installation in
which antiquity meets high-tech seismic design. it consists of two domes
– totaling 40,000 pounds – that sit atop a state-of-the-art base-isolated
platform designed for seismic safety. the temporary structure housed
various artistic performances and workshops during its run at the Yerba
Buena center for the arts. the tile-vaulted masonry domes are homage to
ritualistic bowls used in ancient Babylon 1,500 years ago. the platform,
supported by 30 Ball-n-cone seismic isolators, was designed employing
unconventional full-scale testing methods in lieu of traditional testing and
served as an alternate means of code compliance while accommodating the
project’s aggressive schedule and budget.
J U R Y C O M M E N T
The Jury commented that the completely re-useable, multi-media art installation features a very innovative structural system and a pretty clever testing procedure. The project
demonstrated a collaborative design and approval process for all involved – The City + Artist + Structural Engineer.
Photographers: Rien van Rijthoven & Degenkolb
p a i d s u p p l e m e n t
category :: HiStoric PreServationExcellence in the achievement of creative, innovative, and precedent-setting approaches to structural engineering in the rehabilitation and preservation of a significant historic structure.
award of exceLLence
UC BERKELEY BOWLES HALL RETRO FIT FOR HAYWARD FAULT OFFSET
BERKELEY, CA
structural engineer | Rutherford & Chekene
Bowles Hall is the oldest dormitory at the university of california, Berkeley
campus. built in 1927. the building is a tudor style mansion of seven floors
that steps up the slopes of the Berkeley hills. in a study commissioned by
the university, geologists found that two corners of the building sit atop
a potentially active “western trace” of the Hayward fault. to mitigate
the potential hazard of the ground beneath the building moving several
feet along the rupture zone of the fault, a unique retrofit solution was
implemented allowing for large ground movements to occur without causing
significant damage to the building.
J U R Y C O M M E N T
The Jury commented that for this historically important building, the design “eliminated the problem” rather than to try
and solve it by brute force – very creative thinking.
©Rutherford & Chekene
p a i d s u p p l e m e n t
category :: HiStoric PreServationExcellence in the achievement of creative, innovative, and precedent-setting approaches to structural engineering in the rehabilitation and preservation of a significant historic structure.
award of merit
THE SHERRY HOUSE & DEPOT SALOON SEISMIC RETROFIT AND RENOVATION
ST. HELENA, CA
structural engineer | KPFF Consulting Engineers
the ramos Sherry House and Depot Saloon constructed circa 1880 in St.
Helena, california are often described as historic jewels and were recently
nominated to the national register of Historic Places. as part of the
preservation and revitalization of this historic site, the goal was to make
each building structurally sound, accessible, and designed to meet 21st
century needs without disturbing the historic and aesthetic architectural
fabric. requiring creative engineering solutions, the seismic upgrade
included reinforcement of the existing stone walls utilizing pressure
injection grouting techniques, as well as, strengthening of the existing floor
and roof diaphragms.
J U R Y C O M M E N T
The Jury commented that the design is both “tough” and “delicate” demonstrating as restrained approach as reasonably
possible! The structural design could have been much heavier handed.
Photographer: Adrian Gregorutti
p a i d s u p p l e m e n t
©Cushing Associates
category :: HiStoric PreServation
award of merit
SATHER TOWER SPIRE
UNIVERSITY OF CALIFORNIA, BERKELEY, CA
structural engineer | Cushing Associates, Inc.
uc Berkeley’s Sather tower, commonly known as the campanile, was
designed by architect John galen Howard and completed in 1914. the
iconic 307-foot Sather tower is a city of Berkeley landmark, a california
Historic landmark, and is on the national register of Historic Places.
condition assessment and design team investigations revealed needed
restoration work at the significantly corroded upper portions of the spire’s
structural steel frame. a glass- fiber-reinforced-concrete encasement and
a new stainless steel frame was utilized along with careful restoration
techniques to allow the uc Berkeley campus beacon to shine for another
hundred years.
J U R Y C O M M E N T
The Jury commented that the design strategies and restoration work of the historic “Campanile” is a true “Gem” with
sensitively executed structural solutions – very impressive!
Cushing AssociatesStructural EngineersConsultation and Project Management
2570 Appian Way, Ste., 150, Pinole, CA 94564
Ph: 510.222.6030Fax: 510.222.6064
Cushing Associates
Excellence in the achievement of creative, innovative, and precedent-setting approaches to structural engineering in the rehabilitation and preservation of a significant historic structure.
p a i d s u p p l e m e n t
category :: infraStructureThe Jury created the new Award category to better differentiate those projects that demonstrate excellence in structural engineering analysis and design, both new and retrofit, involving infrastructure transportation and utility type projects.
award of exceLLence
SEISMIC RETROFIT - CORE BART SYSTEM WEST OAKLAND AERIAL STATION OAKLAND, CA
structural engineer | Creegon + D’Angelo Infrastructure Engineers
in 2002, San Francisco’s Bay area rapid transit (Bart) system developed
a $1.2 billion Earthquake Safety Program charged with assessing system
wide vulnerability and expected performance under major earthquakes.
the program provides upgrades using performance-based earthquake
engineering standards to improve the structural integrity of Bart facilities
with the goal to protect public safety, return Bart service quickly and
avoid highway gridlock after a major earthquake.
comprehensive evaluations of existing Bart facilities involved engineering
and statistical analyses, developing scenario earthquakes, computer models,
damage predictions, upgrade options, and cost-benefit analyses. Primary
upgrades at the West Oakland Station, the last station prior to westbound
trains entering the transbay tube, included enlarged and reinforced concrete
foundations/beams, fiber-reinforced polymer wrap jackets around concrete
columns, and additional shear keys.
J U R Y C O M M E N T
The Jury commented that the West Oakland Station project, and the program as a whole, represents an excellent example of designing to achieve resilience following major earthquakes engineered to an “Operational Performance Level” under a design basis 500-yr return period event – “Infrastructure” at its best! It deserves its own category.
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3D Analyssis
p a i d s u p p l e m e n t
category :: retrofit / aLterationExcellence in the use of conventional and/or innovative technology in the evaluation, design and retrofit/alteration of an existing structure to successfully achieve project performance goals. Includes seismic strengthening, additions and other structural building alterations.
award of exceLLence
BULGARI FLAGSHIP STORE
SAN FRANCISCO, CA
structural engineer | Holmes Culley
While “Bulgari” is known the world over for high fashion fine jewelry,
watches, handbags and accessories, their existing 10,000 square foot retail
space, located in a 1986 reinforced concrete building in union Square, San
Francisco was a dark, confusing maze of stairs, ramps and low ceilings in
three split levels. Working with an international design team, the retrofit
includes an extensive structural alteration of the building’s lower stories
providing a new four-level store with open atria, accentuated by a glass
elevator, four separate glass-tread stairways, and an architecturally exposed
horizontal truss. the retrofit maintained the building’s structural integrity
and compliance with current seismic code provisions while allowing for the
“Bulgari” brand to shine through.
J U R Y C O M M E N T
The Jury commented that the brand name retail store retrofit is an excellent example of transforming an existing building
into a high-profile design focus – utilizing the horizontal steel trusses and making them a design feature was a very
innovative way to open up the space.
Photographer: Mariko Reed
PLANT CONSTRUCTION COMPANY, L.P.THE FINEST CONSTRUCTION SERVICES, EFFICIENTLY PERFORMED, DELIVERED ON SCHEDULE
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BVLGARI FLAGSHIP STORESAN FRANCISCO UNION SQUARE
PHOTOGRAPH BY MARIKO REED
p a i d s u p p l e m e n t
category :: retrofit / aLterationExcellence in the use of conventional and/or innovative technology in the evaluation, design and retrofit/alteration of an existing structure to successfully achieve project performance goals. Includes seismic strengthening, additions and other structural building alterations.
awardS of merit
EAST BAY CENTER FOR THE PERFORMING ARTS
RICHMOND, CA
structural engineer | Jon Brody Structural Engineers
Only the exterior concrete walls of the original 1923 Winters Building, once
an elegant 1920s dance hall and phonograph store, remain preserved in
this important retrofitted urban facility located in the heart of richmond,
california. the gutted retrofit includes new drilled concrete piers, grade
beams and basement level concrete walls supporting steel columns, girders,
beams and seven concentric braced frames. the new facility with the old
walls will boast two theatre spaces, practice rooms and administrative
offices. the non-profit organization offers music and arts training for
disadvantaged youth from in and around the city of richmond.
J U R Y C O M M E N T
The Jury commented that they were very much impressed by the comprehensive structural retrofit design. In particular,
the mathematical rigor applied to the “tapered” design of the steel frame gusset plate connections based on the “The Ricker Method” optimization algorithm was very impressive. The carefully executed structural retrofit represents a “significant
contribution” to the community and future young artists of Richmond.
SEISMIC RETROFIT & REHABILITATION OF TERMINAL 2 SAN FRANCISCO INTERNATIONAL AIRPORT
SAN FRANCISCO, CA
structural engineer | OLMM Consulting Engineers
Dating back to the early 1950s, “terminal-2”, previously the old
international terminal at San Francisco international airport, is actually
comprised of five buildings separated by seismic joints. the new 640,000
sq. ft. and $380 million seismic retrofit, rehabilitation and expansion of
terminal-2 have transformed the once shuttered terminal into the newest
“crown jewel” of the San Francisco international airport. the fast-
track construction project was designed and executed utilizing multiple
phased permit and bid packages allowing a remarkable 36 months from
design to finished construction. the lEED™ gold retrofit project utilized
conventional cost-effective measures in upgrading the facility and keeping
the project on-track and within budget.
J U R Y C O M M E N T
The Jury commented that the project entailed simple answers to a set of complex and challenging existing
conditions and new program requirements – a practical solution, very competently executed!
Photographer: Sunil Gupta, PhD, SE ©OLMM Photographer: Brendan Beazley
p a i d s u p p l e m e n t
category :: retrofit / aLteration
award of merit
CALTRANS DISTRICT 4 HEADqUARTERS SEISMIC UPGRADE
OAKLAND, CA
structural engineer | Degenkolb Engineers & The Crosby Group
located just five miles from california’s Hayward Fault, the california
Department of transportation’s (caltrans) District 4 headquarters, is a
15-story 750,000 square foot steel moment frame structure that houses
the San Francisco Bay area’s transportation management center including
its emergency response team. the team under the direction of Degenkolb
Engineers as prime design consultants, and included the crosby group,
employed extensive state-of-the-art analysis techniques, a building damping
system, and full scale upgraded connection testing program in designing a
retrofit scheme for the building’s original construction consisting of pre-
northridge steel-moment-frame connections. the phased retrofit design
allowed the facility to remain in full operation during construction.
J U R Y C O M M E N T
The jury commented that the joint EOR comprehensive seismic retrofit design demonstrates a level of depth,
“cutting-edge” analysis and utilization of new technology that both promotes sustainable and disaster resilient
communities. Well done!
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TAY26007 NewBraceAd_TAY26007 NewBracePostcard_Rev 8/19/10 4:49 PM Page 1Photographer: Rien van Rijthoven
Excellence in the use of conventional and/or innovative technology in the evaluation, design and retrofit/alteration of an existing structure to successfully achieve project performance goals. Includes seismic strengthening, additions and other structural building alterations.
p a i d s u p p l e m e n t
222 Main ■ LEED Gold Certification ■ 2010 Gold Best of Awards Oustanding Office Project ■ 2011 SEAONC Excellence in Structural Engineering Award in Sustainable Design ■ Use of CoreBrace BRBs resulted in a 16% cost savings
Phone 801.280.0701Fax 801.280.3231w w w . c o r e b r a c e . c o m
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222 Main, LEED Gold, 2010 Gold Best of Awards Outstanding Office Project, 2011 SEAONC Excellence in Structural Engineering Award in Sustainable Design
p a i d s u p p l e m e n t
category :: SuStainabLe deSignExcellence in use of structural design, materials and concepts that demonstrates innovation, integration, and achievement of sustainable design goals. Successful application of strategies for adaptive reuse of existing structures, performance based seismic design for disaster resilience, structural optimization (efficiency), de-constructability or life-cycle assessment to achieve sustainable built environments.
award of exceLLence
HAMILTON PARTNERS OFFICE BUILDING
SALT LAKE CITY, UT
structural engineer | Skidmore, Owings & Merrill LLP
completed in 2009, the Hamilton Partners Office Building project was
the first major office building complex to be built in Salt lake city in
over ten years. the 22-story office tower and adjacent 7-story concrete
parking garage was carefully designed within neighboring site constraints
to contribute to Salt lake’s urban renaissance. located in a region of high
seismicity, the steel-framed office tower utilized field bolted connections for
the buckling restrained braced frames and special moment resisting frames
in achieving economy of material and time.
the cast-in-place reinforced concrete parking structure included long-span
post-tensioned spans allowing for column free bays and an integrated design
approach between architectural forms for ventilation and natural light. the
complex has been awarded lEED® gOlD certification from the uSgBc.
J U R Y C O M M E N T
The Jury commented that the project gets high marks. Entered in the “New Construction” category, the Jury moved
the project to “Sustainable Design” in recognition of its overall achievement in design integration, efficiency, economy of
material and sustainability.
©Skidmore, Owings & Merrill LLC Photographer: : Alan Blakely
p a i d s u p p l e m e n t
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p a i d s u p p l e m e n t
category :: SuStainabLe deSignExcellence in use of structural design, materials and concepts that demonstrates innovation, integration, and achievement of sustainable design goals. Successful application of strategies for adaptive reuse of existing structures, performance based seismic design for disaster resilience, structural optimization (efficiency), de-constructability or life-cycle assessment to achieve sustainable built environments.
award of merit
COWELL STUDENT HEALTH CENTER
UNIVERSITY OF CALIFORNIA, SANTA CRUZ, CA
structural engineer | Degenkolb Engineers
the new cowell Student Health center at the university of california,
Santa cruz, originally built in the 1960s, features a retrofitted and
expanded healthcare facility designed to achieve high sustainability goals.
the structural design team focused on creative integration of non-disruptive
seismic strengthening and sustainable design strategies. the design of the
first lEED™ gold campus structure for ucSc demonstrated collaboration
across groups: students, administrators, campus architects and the structural
design team while exceeding the campus’ expectations for a modern
healthcare facility in a unique redwood environment.
J U R Y C O M M E N T
The Jury commented that the project exhibits a unique collaboration between structural engineer and design team to achieve significant integration of program requirements and
sustainable design goals in a retrofitted structure.
Photographer: Bernard Andre
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LABORATORY TESTING OF ANCHOR BOLTSCONNECTING WOOD SILL PLATES TO CONCRETE
WITH MINIMUM EDGE DISTANCES
structural engineer | Certus Consulting, Inc.
recognizing inadequate design procedures in aci 318 appendix D
requirements for the determination of anchor bolt capacity when attaching
wood sill plates to concrete foundations, members of the 2008-2009
Structural Engineers association of california Seismology committee
undertook the development of a comprehensive testing program to
characterize typical foundation anchor-bolt to wood sill plate connections.
the committee’s work establishes a basis for evaluating design capacities
while better understanding the behavior of this basic connection. the test
program yielded results indicating that the connection of wood sill plate
to concrete using cast-in-place steel anchor bolts is ductile and that design
capacities (both past and present) are conservative.
category :: Study | reSearcH | guideLineSOutstanding efforts in analysis, engineering calculations, or evaluation for preparation of a study, a research project or preparation of guidelines. This category is intended to encompass projects or efforts that are not intended to be a constructed project.
award of exceLLence (Small project)
J U R Y C O M M E N T
“The Jury commented that this work by the SEAOC Seismology Committee in quite valuable. It provides a reliable
and standardized approach that is otherwise subject to very complex calculations. The project serves as an excellent
example of a SEAOC Committee taking leadership to better define important and practical building code requirements.”
Life Science
Mission Critical
Healthcare
Hospitality
Academic
Retail
Commercial
Mixed-Use
Seismic Retrofit
Setting a higher standard of client care for the engineering community.
find out more at paradigmse.com
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Outstanding efforts in analysis, engineering calculations, or evaluation for preparation of a study, a research project or preparation of guidelines. This category is intended to encompass projects or efforts that are not intended to be a constructed project.
GUIDELINES FOR PERFORMANCE-BASED
SEISMIC DESIGN OF TALL BUILDINGS
structural engineer | Pacific Earthquake Engineering Research Center
PEEr started the tall Buildings initiative to develop performance-based
approaches that would enable tall building construction to reach new
heights while also ensuring safe, usable tall buildings following future
earthquakes. in november 2010 PEEr achieved this goal by publishing
and releasing its “guidelines for Performance-Based Seismic Design of
tall Buildings.” the guidelines present a recommended alternative to the
prescriptive procedures for seismic design of buildings contained in aScE
7 and the international Building code. these guidelines demonstrate how
the earthquake engineering profession can be enhanced by openly and fully
engaging both designers and researchers in a mutually beneficial project.
category :: Study | reSearcH | guideLineS
award of exceLLence (large project)
J U R Y C O M M E N T
“The Jury comments were spirited and vigorous. A Jury senior statesman noted that although “controversial” the non-prescriptive guidelines made contributions that were
“solomonic” which he clarified as “exhibiting or requiring the wisdom of Solomon in making difficult decisions”.
The Jury further noted that the spirit of the work is great – addressing real earthquakes and real performance – a very
useful and valuable “living document”.”
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