The University of California at Irvine (UCI) has a track record for sustainability. It recently received LEED Platinum certification for its 23rd campus building. Its under-construction UCI Medical Center is designed, positioned, and built to preserve the nearby San Joaquin Marsh Reserve, to reduce the facility’s solar gain by 85%, and to be the first medical center in the country to operate on an all-electric central plant.
The University of California’s system favors sustainable solutions, including its requirement that new construction be all-electric. Instead of filing for a waiver, UCI determined that it could meet that requirement “at only a modest premium,” says Brian Pratt, UCI Campus Architect and Associate Vice Chancellor. (The premium would be around $2.5 million on a project whose construction cost is $770 million and all-in cost will be over $1 billion.)
UCI Medical Center will consist of a four-story, 357,000-sf hospital with 144 beds, operating rooms, 20 Emergency Department beds, and 16 acute observation beds; a 223,000-sf Comprehensive Cancer and Ambulatory Care Center with 36 exam rooms, outpatient surgery, labs, and a pharmacy; a 35,000-sf central plant; and a parking structure with 1,340 spaces.
The parking structure was completed last year, and the outpatient building and central plant are scheduled for completion next year. The hospital should be done in 2025. To meet California and national code requirements, the power system will be backed up by diesel fuel generators (see Editor's note below).
Electrification without compromise
The decision to go all-electric was made early in the design process, recalls Khristina Stone, Preconstruction Manager for the GC Hensel Phelps, which with CO Architects leads the Progressive Design-Build team on this project. Nick Spady, Hensel Phelps’ Operations Manager, says that installing the buildings’ electrical infrastructure and emergency generators pose the greatest challenges in an all-electric environment.
The bridging documents actually described an electric heating system that allowed for the use of natural gas for steam. But ultimately the design-build team and the university decided to dispense with steam boilers altogether, says Roger Carter, CEO and Senior Principal of tk1sc, the project’s MEP engineer.
Carter notes that state codes now require hospital rooms to have constant air volume, which can impact the heating system’s’ load. An all-electric system will allow UCI’s hospital to leverage the central plant’s heat-recovery chillers to manage the building’s energy performance. Indeed, going all-electric is not expected to compromise the medical center’s operations, whose universal design allows for all patient rooms to be converted to intensive care units.
UCI Medical Center is being built under a Progressive Design-Build contract, which Pratt says has been the university’s bid-out preference for decades. He notes that hospital projects are complicated with many stakeholders, and a Progressive Design-Build agreement “allows for expert feedback earlier in the project.”
He notes, parenthetically, that prior to construction UCI had worked with the architect HOK for a year on the medical center’s programming. “This put up guardrails on the project, but with enough room for flexibility.” Gina Chang, CO Architects’ Principal and Healthcare Team Lead, says there was also a program alignment period, during which the team could receive comment and suggestions from UCI and the hospital’s users.
“The bridging documents weren’t overly heavy, so the contract set up a more positive relationship [with UCI] for flexibility and creativity,” says Stone.
The rest of the Progressive Design-Build team includes Degenkolb (SE), Stantec (CE), Ridge Landscape Architects (LA), Newson Brown Acoustics (acoustical engineer), and Colin Gordon Associates (acoustical vibration).
Indoor and outdoor wellness
Aside from its electrification, UCI Medical Center features other sustainable elements. For example, the choice of brace framing, which Pratt says was “rooted in resilience,” reduces the project’s measurable embodied carbon by 20 percent. CO’s Chang further explains: “We implemented the lightest structural system possible (BRBF buckling restrained braced frame) to reduce the embodied carbon footprint. Though we sought for carbon reduction also with the concrete design, the site had high levels of methane and other greenhouse gasses that needed to be contained, so a larger, mat footing was utilized to mitigate that problem.”
After conducting several frit and shading studies, the design team optimized the building’s envelope to reduce its solar gain by 85 percent, and to minimize bird strikes.
The medical center will also tap into the city of Irvine’s robust recycled water infrastructure.
Chang says the marsh—which is managed by UCI biologists—drove the massing and position of the buildings. “We took seriously being a good neighbor to the marsh,” adds Pratt. The construction site includes a turtle fence. And the biologists said that runoff from the site was fine as long as it was treated.
Like most healthcare facilities, UCI Medical Center is placing a premium on wellness. It has multiple areas for gathering outdoors, including walkable pathways and so-called healing gardens that offer views of the landscaping. (The outside plaza between the hospital and outpatient buildings brushes up against the edge of the marsh.)
“The landscape design and plant palette matter,” says Pratt. “And the marsh in the differentiator.” Indoors are numerous terraces, and other places of respite that include “lavender” rooms where staff members under stress can retreat.
________
Editor's note: After this story was posted, Ray Swartz, an engineer and Senior Principal with tk1sc, the project's MEP engineer, responded to a reader's question about the Medical Center's backup power source in the event of an electrical outage:
Swartz said that California's Department of Health Care Access and Information enforces a minimum of 72 hours of fuel storage for a new NPC-5 building, not the 96 hours required by NFPA 110. However, NFPA 110 requires the main fuel tank(s) to have a minimum capacity of at least 133 percent of the quantity needed by CEC 700.12 (B) (2) Exception 1 or 2. Therefore, for NPC-5 buildings, the minimum capacity requirement is 133 percent of the 72-hour fuel supply, equating to 96 hours.
The UCI Medical Center project includes four 3,000-kW generators operating in parallel. The capacity is adequate to service the campus in a 100 percent business-as-usual format. The generators are diesel fuel type, and the campus has an underground fuel storage capacity of 65,000 gallons. If, in an emergency, refueling the tanks is feasible, the campus could operate continuously under generator power.
Related Stories
| Jan 31, 2011
CISCA releases White Paper on Acoustics in Healthcare Environments
The Ceilings & Interior Systems Construction Association (CISCA) has released an extensive white paper “Acoustics in Healthcare Environments” for architects, interior designers, and other design professionals who work to improve healthcare settings for all users. This white paper serves as a comprehensive introduction to the acoustical issues commonly confronted on healthcare projects and howbest to address those.
| Jan 27, 2011
Perkins Eastman's report on senior housing signals a changing market
Top international design and architecture firm Perkins Eastman is pleased to announce that the Perkins Eastman Research Collaborative recently completed the “Design for Aging Review 10 Insights and Innovations: The State of Senior Housing” study for the American Institute of Architects (AIA). The results of the comprehensive study reflect the changing demands and emerging concepts that are re-shaping today’s senior living industry.
| Jan 21, 2011
Harlem facility combines social services with retail, office space
Harlem is one of the first neighborhoods in New York City to combine retail with assisted living. The six-story, 50,000-sf building provides assisted living for residents with disabilities and a nonprofit group offering services to minority groups, plus retail and office space.
| Jan 21, 2011
Research center built for interdisciplinary cooperation
The Jan and Dan Duncan Neurological Research Institute at Texas Children’s Hospital, in Houston, the first basic research institute for childhood neurological diseases, is a 13-story twisting tower in the center of the hospital campus.
| Jan 19, 2011
Biomedical research center in Texas to foster scientific collaboration
The new Health and Biomedical Sciences Center at the University of Houston will facilitate interaction between scientists in a 167,000-sf, six-story research facility. The center will bring together researchers from many of the school’s departments to collaborate on interdisciplinary projects. The facility also will feature an ambulatory surgery center for the College of Optometry, the first of its kind for an optometry school. Boston-based firms Shepley Bulfinch and Bailey Architects designed the project.
| Jan 19, 2011
New Fort Hood hospital will replace aging medical center
The Army Corps of Engineers selected London-based Balfour Beatty and St. Louis-based McCarthy to provide design-build services for the Fort Hood Replacement Hospital in Texas, a $503 million, 944,000-sf complex partially funded by the American Recovery and Reinvestment Act. The firm plans to use BIM for the project, which will include outpatient clinics, an ambulance garage, a central utility plant, and three parking structures. Texas firms HKS Architects and Wingler & Sharp will participate as design partners. The project seeks LEED Gold.
| Jan 10, 2011
Michael J. Alter, president of The Alter Group: ‘There’s a significant pent-up demand for projects’
Michael J. Alter, president of The Alter Group, a national corporate real estate development firm headquartered in Skokie, Ill., on the growth of urban centers, project financing, and what clients are saying about sustainability.
| Dec 17, 2010
ARRA-funded Navy hospital aims for LEED Gold
The team of Clark/McCarthy, HKS Architects, and Wingler & Sharp are collaborating on the design of a new naval hospital at Camp Pendleton in Southern California. The $451 million project is the largest so far awarded by the U.S. Navy under the American Recovery and Reinvestment Act. The 500,000-sf, 67-bed hospital, to be located on a 70-acre site, will include facilities for emergency and primary care, specialty care clinics, surgery, and intensive care. The Building Team is targeting LEED Gold.
| Dec 17, 2010
Arizona outpatient cancer center to light a ‘lantern of hope’
Construction of the Banner MD Anderson Cancer Center in Gilbert, Ariz., is under way. Located on the Banner Gateway Medical Center campus near Phoenix, the three-story, 131,000-sf outpatient facility will house radiation oncology, outpatient imaging, multi-specialty clinics, infusion therapy, and various support services. Cannon Design incorporated a signature architectural feature called the “lantern of hope” for the $90 million facility.
| Oct 18, 2010
World’s first zero-carbon city on track in Abu Dhabi
Masdar City, the world’s only zero-carbon city, is on track to be built in Abu Dhabi, with completion expected as early as 2020. Foster + Partners developed the $22 billion city’s master plan, with Adrian Smith + Gordon Gill Architecture, Aedas, and Lava Architects designing buildings for the project’s first phase, which is on track to be ready for occupancy by 2015.
