Smith College's newest building, a 2,300-sf learning center at its nearby field station, has achieved top honors for environmental sustainability by meeting the rigorous performance requirements of the Living Building Challenge, a green building standard overseen by the International Living Future Institute.
The Living Building Challenge is considered the most comprehensive design- and performance-based building standard related to the environment. The Bechtel Environmental Classroom, as Smith College’s building is known, is only the fifth Certified Living Building in the world, and the first such building in New England.
Supported by the S. D. Bechtel, Jr. Foundation and located at Smith's MacLeish Field Station in Whately, Mass., the Bechtel Classroom was completed in 2012.
The single-story wood-framed building was designed by Coldham & Hartman Architects, a firm based in Amherst, Mass., and built by the Deerfield, Mass.-based contractor Scapes Builders. The building comprises a seminar space, a multipurpose room, and an instructional lab. An outdoor gathering space offers visitors a view of the Holyoke Range.
“The Bechtel Environmental Classroom highlights Smith’s commitment to sustainability and the environment in a tangible and meaningful way,” says Drew Guswa, professor of engineering and the director of Smith’s Center for the Environment, Ecological Design and Sustainability (CEEDS), which is a primary user of the classroom. He notes that CEEDS students had input into the design of the building.
To meet the Living Building Challenge, buildings must fulfill the requirements of seven different “Petals”—Equity, Beauty, Health, Site, Water, Energy and Materials—that encompass issues of sustainability, aesthetics and social justice.
“The Living Building Challenge is straightforward, but immensely difficult,” says Bruce Coldham, one of the building’s architects. Even before ground was broken, Coldham and the contractors were conscious of the requirements of the Living Building Challenge. In their design, they incorporated elements like composting toilets and solar panels that return to the grid 50 percent more energy than the building uses. They used local materials and sited the classroom in an area that required clearing mostly invasive species. Also, all materials used were certified free of carcinogenic and endocrine-disrupting chemical agents.
Since the Bechtel Environmental Classroom’s opening in September 2012, students have monitored a range of data points around the building’s electricity and water usage to demonstrate that it operated over its first year of occupancy as a net-zero facility, meaning that it generates more energy than it uses and that it draws solely on a renewable water system.
The building is used by a variety of departments, including landscape studies and Jewish studies, as well as for writing retreats and concerts.
Future plans include poetry readings and dance performances.
Electrical – Martin Electric
For more on the building, visit: http://living-future.org/node/1136
Related Stories
| Feb 27, 2014
12 facts about heat-treated glass: Why stronger isn’t always better
Glass is heat-treated for two reasons: the first is to increase its strength to resist external stresses such as wind and snow loads, or thermal loads caused by the sun’s energy. The second is to temper glass so that it meets safety glazing requirements defined by applicable codes or federal standards.
| Feb 27, 2014
Metal Construction Association introduces two Environmental Product Declarations
Two Environmental Product Declarations (EPD), one for Metal Composite Material Panels and one for Roll Formed Steel Panels for Roofs and Walls, are now available free of charge from the Metal Construction Association (MCA) on its website.
| Feb 27, 2014
Bluebeam Software launches Revu 12 for better field-ready document management and project collaboration
The latest version of the company’s flagship solution better enables users in document-intensive industries to digitally collaborate on project documents and more easily connect the office to the field.
| Feb 27, 2014
PocketCake lunches CPU designed for virtual reality simulations
The company's Virtual Reality Simulation Converter Assembly is three times more powerful than the average high-performance computer and allows for up to eight people to experience a virtual reality simulation at the same time.
| Feb 26, 2014
Adaptive reuse project brings school into historic paper mill
The project features nontraditional classrooms for collaborative learning, an arts and music wing, and a technologically sophisticated global resource center.
| Feb 26, 2014
Use this app to streamline safety inspections
Using the iAuditor app, one of our Skanska teams developed electronic reports that make safety inspections more efficient, and that make it easier to address any issues emerging from them.
| Feb 26, 2014
Startup PocketCake aims to bring virtual reality simulations to the AEC masses
Founded in 2012, the development firm offers custom virtual reality simulations for the price of a typical architectural illustration.
| Feb 26, 2014
Billie Jean King National Tennis Center serving up three-phase expansion
The project includes the construction of two new stadiums and a retractable roof over the existing Arthur Ashe Stadium.
| Feb 25, 2014
Are these really the 'world's most spectacular university buildings'? [slideshow]
Emporis lists its top 13 higher education buildings from around the world. Do you agree with the rankings?
| Feb 25, 2014
NYC's Hudson Spire would be nation's tallest tower if built
Design architect MJM + A has released an updated design scheme for the planned 1,800-foot-tall, superthin skyscraper.