期刊
GEOTHERMICS
卷 101, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.geothermics.2022.102371
关键词
Ground thermal conductivity; Thermal response test; Ground heat exchanger; Geothermal gradient; Multiple ground layers
A semi-analytical model has been developed for estimating design parameters of vertical boreholes and coupling them with heat pumps. The model is computationally efficient and capable of providing quick estimates of ground properties. It has been validated for coaxial boreholes and shows good accuracy with estimates within +/- 5% of the exact values.
Distributed thermal response tests (DTRTs) on vertical boreholes estimate design parameters, which are used in the coupling of these boreholes to heat pumps. A semi-analytical model of a DTRT has been developed that includes multiple ground layers and the geothermal gradient for deep boreholes. The model is computationally efficient, which allows quick estimates of ground properties when the model is linked with parameter estimation techniques. The study focuses on coaxial boreholes, which are the more likely geometry for deep boreholes, although the model also handles boreholes with U-tubes. The proposed model is validated against previous DTRT simulations with an independent numerical model. In the cases studied, the model estimates the mean ground thermal conductivity within +/- 5% of the exact value, while the uncertainty of the estimate is +/- 10% or +/- 0.2 W/ (m.K). The model identifies upward and downward increasing trends of thermal conductivity among ground layers. The estimates of ground thermal conductivity for individual layers have uncertainties as large as +/- 0.65 W/(m.K) under heat extraction cases in deep boreholes (800 m).
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