Elson S. Floyd Cultural Center,
Washington State University-Kevin-Scott---LSB-(16)_WEB.jpg "University of Washington Life Sciences Builing")
University of Washington
Life Sciences Building-T17_4131_WEB.jpg "KUMC Health Education Building")
University of Kansas Medical Center
Health Education Building
Alfred R. Goldstein Library,
Ringling College of Art and Design
Baker Hughes Western Hemisphere Education Center
Suzanne & Walter Scott, Jr. Bioengineering Building, Colorado State University
Whitworth Robinson Science Hall, Whitworth Universitiy
Aurora Early Learning Center
Community College of Denver - Confluence Building
Henryville Schools
Lady Bird Johnson Middle School
Ryerson Image Centre - Ryerson University's School of Visual Arts
Northwestern University
Montgomery Ward Building
Lake Erie College of Osteopathic Medicine (LECOM)
Tidewater CC Learning Resource Center
Robert M. Smith Student Center, Slippery Rock University
Loyola University Chicago Marcella Niehoff School of Nursing
Cooper School of Medicine - Rowan University
Virginia Commonwealth University - West Grace Street Housing
Georgia Gwinnett College Library
and Learning Center
Eastern Virginia Medical School (EVMS) Education and Research Building
Tidewater CC Student Center Norfolk Campus
Carmel High School Theatre
Heifer International - Murphy Keller Education Center
Hot Springs Intermediate School
Pennsylvania State University - Dickinson School of Law, Lewis Katz Building
Ohlone Community College Newark Center for Health Sciences and Technology
University of Florida Library West
Neil Armstrong Hall of Engineering - Purdue University
University of Toronto
Terrence Donnelly Centre for
Cellular and Biomolecular Research
The Pennsylvania State University, School of Architecture and Landscape Architecture (SALA)
Ozarka College - Ash Flat Campus
Suzanne & Walter Scott, Jr. Bioengineering Building, Colorado State University
Fort Collins, Colorado, USA
Suzanne & Walter Scott, Jr. Bioengineering Building at Colorado State University has a clear vision: “to create a better world for future generations.” And when the university decided to build a new sustainable and ultra thermal performing engineering building, it was created with that vision in mind. The building’s façade incorporates large expanses of glass to allow increased daylight and visibility. In addition to Kawneer’s ultra thermal products and systems, the building is LEED Gold® and incorporates several other sustainable features including natural ventilation in the atrium space, daylighting controls, evaporative cooling, and hot and cold water provided by a high-efficiency central plant. With its intricate aesthetics and high performance, the building is a showcase for the university to help attract new students and make the university stronger.
Products Used:
Trifab® 451UT (Ultra Thermal) Framing
1600UT System®1 Curtain Wall
Versoleil® SunShade – Outrigger System for Curtain Wall
GLASSvent® Windows
LEED® Gold
ENGINEERING A SMART, SUSTAINABLE FUTURE THROUGH HIGH PERFORMANCE DESIGN AND CONSTRUCTION
Home to five academic departments, the Colorado State University College of Engineering has a clear vision: “to create a better world for future generations.” And when the university decided to build a new engineering building, it was created with that vision in mind. Located in Fort Collins, Colorado, the 122,000-square-foot building, intially known as “Engineering II,” is a significant presence on the campus, housing classrooms, research facilities and administrative spaces.
SLATERPAULL Architects Inc., now part of Hord Coplan Macht, designed Engineering II, taking into account the university’s desire to not only achieve high levels of sustainable performance, but also to give the College of Engineering a “new image for the future.” The building was funded through a private donation from Colorado State alumnus Walter Scott, Jr. and his wife, Suzanne, as well as through increased facility fees from students.
Both the school and design team not only wanted to achieve a high level of Leadership in Energy and Environmental Design (LEED®) certification, but also ultra thermal performance. J.R. Butler, Inc. in Denver was selected as the glazing contractor and was tasked with the final fabrication and installation of approximately 32,000 square feet of curtain wall, storefront and sunshades, which included custom back pans and various sunshade sizes. The Suzanne & Walter Scott, Jr. Bioengineering Building brings students, faculty and researchers together under one roof, encouraging collaboration. With its intricate aesthetics and high performance, the building is a showcase for the university to help attract new students and make the university, as a whole, stronger.
DESIGN HIGHLIGHTS
The building’s façade incorporates large expanses of glass to allow increased daylight and visibility. In addition to Kawneer’s ultra thermal products and systems, the Suzanne & Walter Scott, Jr. Bioengineering Building, which is LEED Gold®, incorporates several other sustainable features including natural ventilation in the atrium space; daylighting controls; evaporative cooling; heat recovery; 33 percent lighting power density savings; and hot and cold water provided by a high-efficiency central plant. And, according to a study conducted by Ambient Energy, the three-story building is predicted to save 50.3 percent in energy usage and 43.5 percent in energy costs.
CHALLENGES
- To create a design that was sustainable and could achieve a high level of LEED® certification.
- To provide daylighting, sun control, high thermal performance and energy efficiency as well as superior aesthetics.
SOLUTIONS
- Kawneer’s Trifab® 451UT (Ultra Thermal) Framing, 1600UT System®1 Curtain Wall, Versoleil® SunShade – Outrigger System – for Curtain Wall and GLASSvent® Windows were used throughout the building.
- The Trifab® 451UT framing system, which employs a dual IsoLock® lanced and debridged thermal break, also enhances the thermal performance of Engineering II and meets the project’s U-factor requirements.
- Built on the success of Kawneer’s flagship 1600 curtain wall platform, the 1600UT System®1 curtain wall delivers the utmost in energy efficiency with high thermal performance, versatility, reliability and value. Because the curtain wall features an engineered polymer thermal separator and can accommodate double or triple insulating glass, it provided the team with options for performance ranges that would suit the project.
- Versoleil® SunShades were used on the exterior of the building and deliver shading capabilities that reduce solar heat gain, which helps maximize energy savings and reduce glare. Not only did the sunshades help the university achieve energy goals for the building, they also helped earn LEED® credits.
ARCHITECT: Hord Coplan Macht, Denver, Colorado
GLAZING CONTRACTOR: J.R. Butler, Inc., Denver, Colorado
Photography: © CJBerg Photographics
