期刊论文详细信息
Sustainability
A Study on Improving the Coefficient of Performance by Comparing Balancing Well and Standing Column Well Heat Exchange Systems
Myungkwan Lim1  Kyoungbin Lim2  Changhee Lee3 
[1] Department of Architecture Engineering, Songwon University, Gwangju 61756, Korea;Department of Mechanical Engineering, Hanbat National University, Daejeon 34258, Korea;Department of Mechanical and Shipbuilding Convergence Engineering, Pukyong National University, Busan 48547, Korea;
关键词: standing column well (SCW);    thermal response test;    effective thermal conductivity;    thermal conductivity;    balancing well;    coefficient of performance (COP);   
DOI  :  10.3390/su122410445
来源: DOAJ
【 摘 要 】

This study proposed a technology to improve the performance characteristics and coefficient of performance (COP) of a geothermal system by fundamentally preventing underground water discharge and maintaining a constant temperature of the underground heat exchanger composed of bleed discharge water that utilizes two balancing wells using cross-mixing methods. Using the standing column well (SCW) and cross-mixing balancing well underground heat exchanger, we compared and analyzed the effective thermal conductivity characteristics and COP characteristics during heating and cooling modes. Consequently, the cross-mixing balancing well underground heat exchanger exhibited more effective thermal conductivity than the SCW underground heat exchanger, with a high COP. Therefore, suggesting the performance was improved using groundwater flow rather than SCW. The comparison and analysis results of the effective heat map characteristics using the results of the SCW and balancing well system showed that the heating operation for the SCW underground heat exchanger had better thermal conductivity characteristics than the cooling operation. In addition, regarding a balancing well underground heat exchanger, the cooling operation exhibited superior thermal conductivity characteristics. Thus, the performance was considered to have improved due to the flow of activated groundwater in the ground and the rapid heat transfer without heat accumulation.

【 授权许可】

Unknown   

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