A field-test facility (FTF) for aquifer thermal energy storage (ATES) was designed, constructed, and operated to study the feasibility of moderately hightemperature thermal energy storage in a confined aquifer. The FTF was designed to inject and recover heat at a rate of 5 MW (thermal) using a well doublet spaced at 255 m, operating at a maximum water temperature of 150° The wells were completed in the Franconia-fronton-Galesville confined aquifer at a depth of 182-244 m, which has static water levels about 55 m below the ground surface. A series of four short-term and three long-term cycles showed the technical feasibility of ATES in a confined aquifer at temperatures above 100 and clarified the groundwater chemistry and thermal interactions of the heated water with the aquifer and its confining beds. From 46% to 67% of the energy added to the injected water was recovered during a cycle. A summary of representative results and findings (with particular emphasis on the final cycle) is provided. A bibliography of project reports and papers is also given. © ASCE.
CITATION STYLE
Hoyer, M., Hallgren, J., Eisenreich, S., & Sterling, R. (1994). Field‐Test Results of Aquifer Thermal Energy Storage at St. Paul, Minnesota. Journal of Energy Engineering, 120(2), 67–85. https://doi.org/10.1061/(asce)0733-9402(1994)120:2(67)
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