G.S. Jia scite author profile

The utilization of geothermal energy through ground buried heat exchanger to provide heat source for buildings has become extremely attractive recent years in China and all over the world. As a key parameter that governs the prediction of the system performance, the effective thermal conductivity of the ground significantly affects the heat transfer process between buried pipes and surrounding rock-soil. This paper conducts a review on the methods of determining the effective thermal conductivities of different rock-soil types composed by various substances proposed in recent years. Based on the analysis of theoretical methods and experimental approaches applied to different rock-soil conditions and other relevant parameters such as the porosity, water content and material construction, etc., the applicabilities of various methods have been justified. According to the deficiencies of basic models, the improved models take into account the effects of the temperature, saturation degree, detailed structure of rock-soil and other parameters to improve the accuracy of prediction value. For certain types of rock-soil, the experimental approaches can provide more accurate results but are expensive and time consuming, which have sometimes been used to improve the accuracy or verify the results of improved model in the appropriate range of porosity and saturation degree for certain types of rocks. The concluding remarks would contribute to the estimation of the heat transfer performance of the buried heat exchanger during the prediction process.

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Analysis of economy, thermal efficiency and environmental impact of geothermal heating system based on life cycle assessments

Xia

Jia

et al. 2021

Applied Energy

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Influence of groundwater flow on the ground heat exchanger performance and ground temperature distributions: A comprehensive review of analytical, numerical and experimental studies

Jia

Xia

et al. 2022

Geothermics

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Series-parallel resistance method based thermal conductivity model for rock-soil with low or high porosity

Jia

Zhang

et al. 2020

Geothermics

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Analysis on variations of ground temperature field and thermal radius caused by ground heat exchanger crossing an aquifer layer

Jia

Cui

et al. 2020

Applied Energy

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G.S. Jia

Review of effective thermal conductivity models of rock-soil for geothermal energy applications

Analysis of economy, thermal efficiency and environmental impact of geothermal heating system based on life cycle assessments

Influence of groundwater flow on the ground heat exchanger performance and ground temperature distributions: A comprehensive review of analytical, numerical and experimental studies

Series-parallel resistance method based thermal conductivity model for rock-soil with low or high porosity

Analysis on variations of ground temperature field and thermal radius caused by ground heat exchanger crossing an aquifer layer

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