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Numerical simulation and experimental study of medium and deep ground source heat pump system in a cold and arid region

Hongwei Feng, Hongwei Feng, Hui Xu, Hongtu Feng, Hongtu Feng, Ying Gao

2024Case Studies in Thermal Engineering13 citationsDOIOpen Access PDF

Abstract

Although medium and deep ground source heat pump system are more advantageous for heating compared to other heat pump systems in winter, there has been limited researches on medium and deep ground source heat pump system in a cold and arid region. In order to study the heating performance of the system and address heating issues in a cold and arid region, the experimental tests were conducted from November 1, 2021, to March 31, 2022, and the results showed that the heating system operates stably, maintaining indoor heating above 18 °C throughout the day. The average coefficient of performance (COP) is 5.67, and the cumulative power consumption is 185971 kWh. Additionally, this study established a new three-dimensional numerical model of a medium and deep borehole heat exchanger (MDBHE) and validated it with experimental test results. The numerical simulation analyzed the impact of different insulation layers, well diameters, flow rate and well depths on the heat pump performance and heating effectiveness. This experimental research and numerical simulation are significant to promote the development of low-carbon as soon as possible.

Topics & Concepts

Heat pumpAridEnvironmental scienceComputer simulationMeteorologyMechanicsGeologyThermodynamicsHeat exchangerPhysicsPaleontologyGeothermal Energy Systems and ApplicationsClimate change and permafrostHeat Transfer and Optimization
Numerical simulation and experimental study of medium and deep ground source heat pump system in a cold and arid region | Litcius