“Our children will benefit from this building now, but also learn how to use our earth’s resources wisely. Eventually these children will be the leaders of our community and will continue this effort as adults.”
Dr. Beverly Borduin, former Principal, Grant Elementary School, Columbia Public Schools
When the Columbia Public School District lost an overflow classroom trailer to an arson fire in 2007, PWA proposed replacing it in a way that would best serve the School District, teachers and children. The Eco Schoolhouse, an energy-efficient building designed as an alternative to trailer classrooms, is a cooperative collaboration with the School District and leaders in the design and construction community. The building, prominently located on a major street adjacent to the 100-year-old Grant Elementary School, offers the public a tangible example of the school’s sustainability focus. With a design that has achieved the U.S. Green Building Council’s LEED® (Leadership in Energy and Environmental Design) Gold Certification, the school has become a teaching tool, allowing students to see, touch, and learn about the building’s environmental and socially sustainable components.
Sustainable Design Highlights:
Skylights and indirect, energy-efficient lighting fixtures provide a well-lit and calming classroom atmosphere.
Built-in recycling station encourages sustainable practices.
Floor tile, a low-emitting, durable and rapidly renewable, domestically grown corn product, lowers maintenance costs and improves indoor air quality.
Energy Recovery Unit captures energy from exhaust air to pretreat incoming air, while the CO2 Sensor monitors air quality and controls fresh air supply on demand.
Airlock Entry reduces air infiltration.
Native plantings require less water and maintenance.
Photovoltaic panels supply roughly 36% of the building’s power needs.
Roof reflects heat and lowers the building’s cooling load.
Recycled aluminum acoustical panels improve the building’s sound quality.
Durable, waste reducing, prefabricated SIP construction with a vapor barrier minimizes air/water infiltration and maximizes thermal efficiency.