Ball State University Begins the Final Phase of the Nation’s Largest Geothermal System
In the shadow of two outdated smokestacks and four antiquated coal-fired boilers, Ball State University, Muncie, Ind., has started the second and final phase of con- verting its district heating and cooling to a geothermal ground-source heat pump system, the largest project of its kind in the U.S.
The conversion, which began in 2009 to replace the coal
boilers, now provides heating to half the campus and cooling to all of campus. When the system is complete, the shift from fossil fuels to a renewable-energy source will reduce the university’s carbon footprint by nearly half while saving $2 million per year in operating costs. Ball State University is installing a vertical, closed-loop
district system that uses only fresh water. The system uses the Earth’s ability to store heat in the ground; a geothermal heat pump uses the Earth as a heat source, when operating in heating mode, or a heat sink, when operating in cooling mode. Under the direction of Jim Lowe, the university’s direc-
tor of engineering, construction and operations, work was completed earlier this year on Phase One, which includes two geothermal fields, construction of the North District Energy Station and the connection of buildings on the northern part of campus to the new distribution system. Work has begun on Phase Two, which includes installa-
tion of 780 of the remaining 1,800 boreholes in a field on the south area of campus.
Construction will continue throughout 2013-14 and will
include a new District Energy Station South, containing two 2,500-ton heat-pump chillers and a hot-water loop around the south portion of campus. The system will then connect to all buildings on campus, eventually providing heating and cooling to about 6 million square feet. retrofit’s staff recently had the opportunity to talk with
Lowe about the campus conversion to geothermal and how Ball State is setting an energy example for other universities and even cities around the world.
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etrofit: Can you explain what Ball State’s boiler plant consisted of before the conversion?
LOWE: We had seven boilers that make steam. We convert steam to hot water through a heat exchanger to heat our buildings. Three of the boilers use natural gas as the fuel; four use coal. When we started this project years ago, the goal was to phase out the four coal-fired boilers. At that time, we were looking at the possibility of one solid-fuel-burning boiler to take the place of the four antiquated boilers,