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
Architects | Apr 19, 2017
Tour Zaha Hadid, Frank Gehry architecture with Google Earth
Google Earth’s new ‘Voyager’ feature allows people to take interactive guided tours.
Multifamily Housing | Apr 18, 2017
Three multifamily, three specialized housing projects among 14 recipients of the AIA’s 2017 Housing Awards
2017 marks the 17th year the AIA has rewarded projects and architects with the Housing Awards.
Projects | Apr 17, 2017
BD+C's 2017 Design Innovation Report
Façades that would make Dr. Seuss smile, living walls, and exterior wall space that doubles as gallery space are all represented in this year's BD+C Design Innovation Report.
Healthcare Facilities | Apr 13, 2017
The rise of human performance facilities
A new medical facility in Chicago focuses on sustaining its customers’ human performance.
Laboratories | Apr 13, 2017
How to design transformative scientific spaces? Put people first
While most labs are designed to achieve that basic functionality, a transformational lab environment prioritizes a science organization’s most valuable assets: its people.
Hotel Facilities | Apr 12, 2017
Hotels embrace place
Today’s hospitality environments emphasize unique, localized experiences to attract and engage guests.
Green | Apr 11, 2017
Passivhaus for high-rises? Research demonstrates viability of the stringent standards for tall residential buildings
A new study conducted by FXFOWLE shows that Building Teams can meet stringent Passivhaus performance standards with minimal impact to first cost and aesthetics.
Curtain Wall | Apr 11, 2017
Masters of geometry
Three firms that specialize in façades that curve, twist, and turn see themselves as artisans of the unthinkable.
Office Buildings | Apr 10, 2017
Innovation lab makes developing eye care solutions a collaborative affair
The Shop East innovation lab presents 13,500 sf of workspace across two floors with an emphasis on collaboration.