Administrators at the University of Connecticut Health Center in Farmington didn’t think much of the 1970s building they planned to turn into the school’s Cell and Genome Sciences Building. It’s not that the former toxicology research facility was in such terrible shape, but the 117,800-sf structure had almost no windows and its interior was dark and chopped up.
Enter the Building Team of Goody Clancy (architect) and FIP Construction (GC), who worked with the university to create an open, bright, and sustainable home (targeting LEED Silver) for three major research programs: UConn Stem Cell Institute, the R.D. Berlin Center for Cell Analysis and Modeling, and the Department of Genetics and Developmental Biology.
But how to get daylight deep into the lab spaces? Fortunately, the one-story framework allowed light to be brought in from above. The Building Team ran a 464-foot-long skylight the length of the main corridor, and clerestory windows were installed above the “Crossroads,” a central gathering and eating space that features a newly raised roof.
Additional daylighting comes from 56 new windows installed in exterior walls—not an easy task, given the building’s concrete panel construction. The team calculated the maximum window size allowable without compromising the panels and then standardized all windows to that size. Louvered sunshades were added above each of these.
Interior walls were also punched through with window openings to further distribute daylight. Leaving interior walls largely in place also kept construction costs down, to $259/sf (inclusive of site work). Also helping the budget: refurbishing and reconfiguring existing metal casework in research labs, which were extensively upgraded to modern research and safety standards, and finishing the new 100-seat auditorium in wood paneling left over from another campus project.
The facility’s wetlands site was carefully reconfigured to accommodate extra parking, and a bioretention pond was added to control runoff and keep stormwater out of the town’s sewer system. Also, because the existing building lacked a recognizable “front door,” a proper front entrance was added.
“It’s very difficult to do these types of buildings, and this one was very well done,” said David Callan, SVP, Environmental Systems Design, Chicago. “Excellent job on a low budget.” BD+C
PROJECT SUMMARY
Building Team
Submitting firm: Goody Clancy (architect)
Owner/developer: University of Connecticut Health Center
CM: FIP Construction
Structural engineer: LeMessurier Consultants Inc.
M/E engineer: Cosentini Associates
Plumbing engineer: BVH Integrated Services
General Information
Size: 117,813 gsf
Construction cost: $30.53 million
Construction time: September 2008 to June 2010
Delivery method: CM at risk
Related Stories
| Jun 13, 2013
Health Product Declaration Collaborative names Knott as Executive Director
John L. Knott Jr. has been named as the Health Product Declaration Collaborative’s (www.hpdcollaborative.org) first Executive Director following a national search. The Health Product Declaration Collaborative (HPDC) is a customer-led standards-setting organization committed to the continuous improvement of the building industry’s environmental and health performance, through transparency and innovation in the building product supply chain.
| Jun 13, 2013
AIA partners with industry groups to launch $30,000 'Designing Recovery' design competition
The program will award a total of $30,000 to three winning designs, divided equally between three locations: Joplin, Mo., New Orleans, and New York.
| Jun 12, 2013
More than 90% of New York City schools have code violations
More than 90% of New York City schools have at least one outstanding building code violation. Loose wires, stuck doors and inadequate ventilation are just some of the problems.
| Jun 12, 2013
5 building projects that put the 'team' in teamwork
The winners of the 2013 Building Team Awards show that great buildings cannot be built without the successful collaboration of the Building Team.
| Jun 12, 2013
Sacred synergy achieves goals for religious education [2013 Building Team Award winner]
A renovation/addition project at Columbia Theological Seminary unites a historic residence hall with a modern classroom facility.
| Jun 12, 2013
‘Talking’ Braille maps help the visual impaired
Talking pen technology, combined with tactile maps, allows blind people to more easily make their way around BART stations in the Bay Area.
| Jun 11, 2013
Music/dance building supports sweet harmony [2013 Building Team Award winner]
A LEED Gold project enhances a busy Chicago neighborhood, meeting ambitious criteria for acoustical design and adaptability.
| Jun 11, 2013
Vertical urban campus fills a tall order [2013 Building Team Award winner]
Roosevelt University builds a 32-story tower to satisfy students’ needs for housing, instruction, and recreation.
| Jun 11, 2013
Building a better box: High-bay lab aims for net-zero [2013 Building Team Award winner]
Building Team cooperation and expertise help Georgia Tech create a LEED Platinum building for energy science.
| Jun 11, 2013
Finnish elevator technology could facilitate supertall building design
KONE Corporation has announced a new elevator technology that could make it possible for supertall buildings to reach new heights by eliminating several problems of existing elevator technology. The firm's new UltraRope hoisting system uses a rope with a carbon-fiber core and high-friction coating, rather than conventional steel rope.
