Multiple boreholes heat exchangers (BHEs) are widely used in ground source heat pump systems (GSHPS) and are operated in intermittent mode in general. The soil type and groundwater advection that possibly exist may affect their heat transfer performances. Thus, based on the moving finite line heat source model (MFLS) and the superposition principle, an analytical solution to soil temperature response to heat rejection from multiple BHEs was proposed. It is programmed by using MATLAB and the calculation results were validated by 3D transient numerical simulation results.Then the influence of groundwater advection velocity and soil type on the soil temperature responses to heat rejection from a single BHE in intermittent and continuous operational modes was compared and discussed. The dynamic temperature responses of the positions monitored for the multiple BHEs can be calculated by the new analytical model. Results indicate that thermal accumulation phenomenon in the soil can be mitigated by intermittence and the amplitude of soil temperature recovery tends to be large. Not only the advection velocity of groundwater, but also the soil properties play an important part in the soil temperature recovery characteristics when BHEs reject heat intermittently. In addition, soil temperature variation distributions around two kinds of multiple BHEs layouts were also illustrated. It is suggested that the consideration of both groundwater advection and boreholes layout be important in designing the BHEs configurations.

• 出版日期2015-11-15
• 单位西安建筑科技大学; 青岛理工大学