Author:
Hermanns Miguel,Rivero Juan Manuel
Abstract
Abstract
Designing a geothermal heat exchanger requires special care with peak heating and cooling demands of the building as material damages in the installation can occur due to the extreme temperatures reached by the heat carrying liquid. These peak demands last a few days at most and require the inclusion of the thermal inertia of the heat carrying liquid, the grout, and the ground located close to the boreholes in the theoretical model used to predict the thermal response of the geothermal heat exchanger. The present work develops such a model by expanding the grout and ground temperatures in terms of conveniently chosen multipoles.
Cited by
2 articles.
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