Title of article :
Performance Analysis of Single-Well Enhanced Geothermal System for Building Heating
Author/Authors :
Liang, Haijun SINOPEC Star Petroleum Co - Ltd. (Sinopec Star) - Beijing 100083 - China - China National Research and Technology Center of Geothermal Energy - Beijing 100083 - China , Guo, Xiaofeng SINOPEC Star Petroleum Co - Ltd. (Sinopec Star) - Beijing 100083 - China - China National Research and Technology Center of Geothermal Energy - Beijing 100083 - China , Gao, Tao SINOPEC Star Petroleum Co - Ltd. (Sinopec Star) - Beijing 100083 - China - China National Research and Technology Center of Geothermal Energy - Beijing 100083 - China , Wang, Lingbao Guangzhou Institute of Energy Conversion - CAS - Guangzhou 510640 - China , Bu, Xianbiao Guangzhou Institute of Energy Conversion - CAS - Guangzhou 510640 - China
Abstract :
Deep borehole heat exchanger (DBHE) technology does not depend on the existence of hot water reservoir and can be used in various regions. However, the heat extraction from DBHE can hardly be improved due to poor thermal conductivity of rocks. Here, a single-well enhanced geothermal system (SWEGS) is proposed, which has a larger heat-exchange area of artificial reservoir created by fracturing hydrothermal technology. We find that, due to heat convection between rocks and fluid, the extracted thermal output for SWEGS is 4772.73 kW, which is 10.64 times of that of DBHE. By changing the injection water temperature, volume flow rate, and artificial reservoir volume, it is easy to adjust the extracted thermal output to meet the requirement of building thermal loads varying with outdoor air temperature. Understanding these will enable us to better apply SWEGS technology and solve the fog and haze problem easily and efficiently.
Keywords :
Deep borehole heat exchanger (DBHE) , single-well enhanced geothermal system (SWEGS) , Performance Analysis , Building Heating
Journal title :
The Scientific World Journal
