Stevenson Library Converts to Geothermal Heating and Cooling
Bard celebrates the completion of a major project to convert the Charles P. Stevenson Jr. Library’s outdated fossil fuel–fired heating system to a state-of-the-art geothermal heating and cooling system. A leader and early adopter of geothermal technologies, Bard College has ground source heat exchange systems on campus dating to the 1980s. Almost 50% of buildings on the main campus utilize geothermal technology for heating and cooling, and it is the default for all new construction projects on campus including the north campus residence buildings and the Maya Lin Performing Arts Studio.
The geothermal and HVAC renovation of the 60,000-square-foot Stevenson Library is Bard’s first conversion of an existing building from fossil fuels to geothermal. The College partnered with Brightcore as the turnkey provider of the library project, delivering a full scope of services, from the feasibility and design, drilling and ground loop installation, mechanical connections, incentive procurement, and upon completion, ongoing system performance monitoring. The library’s geothermal conversion will eliminate burning approximately 14,000 gallons of fuel oil and reduce 127 tons of carbon emissions per year. This conversion, along with Bard’s other sustainability-driven initiatives including its commitment to renewable solar and hydro energy, LED lighting, and LEEDs certifications, are significant steps toward fulfilling the College’s pledge to achieve carbon neutrality by 2035.
Further reading:
Bard College Continues Switch to Geothermal
Post Date: 11-26-2024
The geothermal and HVAC renovation of the 60,000-square-foot Stevenson Library is Bard’s first conversion of an existing building from fossil fuels to geothermal. The College partnered with Brightcore as the turnkey provider of the library project, delivering a full scope of services, from the feasibility and design, drilling and ground loop installation, mechanical connections, incentive procurement, and upon completion, ongoing system performance monitoring. The library’s geothermal conversion will eliminate burning approximately 14,000 gallons of fuel oil and reduce 127 tons of carbon emissions per year. This conversion, along with Bard’s other sustainability-driven initiatives including its commitment to renewable solar and hydro energy, LED lighting, and LEEDs certifications, are significant steps toward fulfilling the College’s pledge to achieve carbon neutrality by 2035.
Further reading:
Bard College Continues Switch to Geothermal
Post Date: 11-26-2024