Numerical Investigation of Influence of Reservoir Heterogeneity on Electricity Generation Performance of Enhanced Geothermal System

Abstract: The enhanced geothermal system (EGS) reservoir consists of a heterogeneous fracture network and rock matrix, and the heterogeneity of the reservoir has a significant influence on the system’s electricity generation performance. In this study, we numerically investigated the influence of reservoir heterogeneity on system production performance based on geological data from the Gonghe Basin geothermal field, and analyzed the main factors affecting production performance. The results show that with the increase o… Show more

“…Although, more heat was extracted with large fracture spacing and vertical anisotropy in permeability. Others [8,9] also studied the effects of layered heterogeneity in Enhanced Geothermal System (EGS). In our previous study [10], heat storage performance in a homogeneous (and isotropic in horizontal permeability) reservoir was evaluated.…”

Influence of permeability anisotropy and layering on geothermal battery energy storage

“…Although, more heat was extracted with large fracture spacing and vertical anisotropy in permeability. Others [8,9] also studied the effects of layered heterogeneity in Enhanced Geothermal System (EGS). In our previous study [10], heat storage performance in a homogeneous (and isotropic in horizontal permeability) reservoir was evaluated.…”

Influence of permeability anisotropy and layering on geothermal battery energy storage

Sustainable electricity generation from an Enhanced Geothermal System considering reservoir heterogeneity and water losses with a discrete fractures model

Research advances in multi-field coupling model for geothermal reservoir heat extraction