Project: University of San Francisco, John Lo Schiavo, S.J. Center for Science and Innovation
Location: San Francisco
Architect: NBBJ
Glass: Pilkington Profilit™ translucent channel glass system with Lumira® aerogel insulation
Glass Supplier: Technical Glass Products
The University of San Francisco’s new John Lo Schiavo Center for Science and Innovation (CSI) brings science to the forefront of academic life. Its glossy, three-story exterior invites students into the facility, and then flows sleekly down into the hillside where below-grade laboratories and classrooms make efficient use of space on the landlocked campus.
For NBBJ architects, the inspiration for the new building came from the faculty’s desire to bring passion to the study of science within the USF academic curriculum. “A key driver behind the CSI was to put science on display and create buzz within the student body,” says Lilian Asperin-Clyman, principal at NBBJ.
To meet functional demands and generate the desired interest in the science facility, the design team looked to high-performance materials. A curtain wall with fritted glass and flexible shades provides students with views to informal learning areas and outdoor spaces to encourage scientific discovery.
Skylights and glazed teaching walls with a writable surface and visual connectivity help bathe lower, “garden level” education areas in sunlight to blur the boundary between above- and below-grade. Sloped walkways promote seamless circulation between the building’s main campus and garden-level spaces.
Glazed channel glass corridor uses borrowed light. Photo: Technical Glass Products/NBBJ
In implementing the design vision, one challenge was to create an attention-grabbing, garden-level façade that satisfies acoustic and thermal performance demands. NBBJ found their solution with Pilkington Profilit™ channel glass from Technical Glass Products (TGP).
The linear, “U”-shaped, cast-glass channels are self-supporting and mounted in an extruded metal perimeter frame. In the case of CSI, they were installed vertically, forming tight radii as they animate and follow the curve of the building’s adjacent walkway. The combination of raked and curved channel glass heads and sills make the size and positioning of each channel glass piece unique, and allow the façade to transition between curved and straight sections. The lighting strategy where channel glass is used creates a dramatic “lantern” effect that contributes to the character of the exterior spaces after dark.
At the CSI’s main-level entrance, a second layer of channel glass mirrors a portion of the exterior channel glass façade to create a glazed corridor. Its clear channel glass interior and translucent channel glass exterior combine to create what San Francisco Chronicle architecture critic John King hailed as the building’s “most potent architectural treat.”
“The glazed hallway adds dynamism to the building by highlighting the silhouette of students walking inside,” adds Asperin-Clyman. “It also improves safety on campus by allowing borrowed light to spill out from the building on to an area frequently traversed by students, faculty and visitors.” The sloped walkway complies with ADA accessibility requirements and connects the entrance lobby to the entry to the main lecture hall.
Both the exterior façade and glazed channel glass hallway help the design team meet thermal and acoustic performance goals. The design incorporates clear channel glass with a low-emissivity coating in a custom painted thermally improved frame with head receptor. In select locations, the use of Lumira® aerogel in the enclosed space between the channels helps enhance energy performance and reduce sound transmission.
“By using unique, structurally sound and high-performing materials like Pilkington Profilit channel glass, we were able to experiment with geometry, layering and lighting to create spaces that not only attract students, but also satisfy the facility’s highest functional requirements,” concludes Asperin-Clyman.
Today, the innovative CSI building embodies the university’s mission to bring science and discovery into the everyday lives of students. It is designed to LEED Gold standards.
For more information on Pilkington Profilit, along with TGP’s other specialty architectural glass and framing products, visit tgpamerica.com.
Technical Glass Products
800.426.0279
800.451.9857 – fax
sales@tgpamerica.com
tgpamerica.com
Related Stories
| Nov 8, 2013
S+T buildings embrace 'no excuses' approach to green labs
Some science-design experts once believed high levels of sustainability would be possible only for low-intensity labs in temperate zones. But recent projects prove otherwise.
| Nov 8, 2013
Net-zero bellwether demonstrates extreme green, multifamily style
The 10-unit zHome in Issaquah Highlands, Wash., is the nation’s first net-zero multifamily project, as certified this year by the International Living Future Institute.
| Nov 8, 2013
Walkable solar pavement debuts at George Washington University
George Washington University worked with supplier Onyx Solar to design and install 100 sf of walkable solar pavement at its Virginia Science and Technology Campus in Ashburn, Va.
| Nov 6, 2013
PECI tests New Buildings Institute’s plug load energy use metrics at HQ
Earlier this year, PECI used the NBI metrics to assess plug load energy use at PECI headquarters in downtown Portland, Ore. The study, which informed an energy-saving campaign, resulted in an 18 percent kWh reduction of PECI’s plug load.
| Nov 5, 2013
Net-zero movement gaining traction in U.S. schools market
As more net-zero energy schools come online, school officials are asking: Is NZE a more logical approach for school districts than holistic green buildings?
| Nov 5, 2013
New IECC provision tightens historic building exemption
The International Energy Conservation Code has been revised to eliminate what has been seen as a blanket exemption for historic buildings.
| Nov 5, 2013
Living Building Challenge clarifies net-zero definitions and standards
The Living Building Challenge has released the Net Zero Energy Building Certification to provide clearer definitions regarding what net zero really means and how it is to be achieved.
| Nov 5, 2013
Oakland University’s Human Health Building first LEED Platinum university building in Michigan [slideshow]
Built on the former site of a parking lot and an untended natural wetland, the 160,260-sf, five-story, terra cotta-clad building features some of the industry’s most innovative, energy-efficient building systems and advanced sustainable design features.
| Nov 4, 2013
Architecture and engineering industry outlook remains positive on all major indicators
While still below pre-recession levels, all of the key indicators in the latest Quarterly Market Forecast (QMF) report from PSMJ Resources remain in positive territory.
| Nov 1, 2013
CBRE Group enhances healthcare platform with acquisition of KLMK Group
CBRE Group, Inc. (NYSE:CBG) today announced that it has acquired KLMK Group, a leading provider of facility consulting, project advisory and facility activation solutions to the healthcare industry.
