Litcius/Paper detail

Assessing the potential of low-transmissivity aquifers for aquifer thermal energy storage systems: a case study in Flanders (Belgium)

Luka Tas, David Simpson, Thomas Hermans

2023Hydrogeology Journal12 citationsDOIOpen Access PDF

Abstract

Abstract The Member States of the European Union pledged to reduce greenhouse gas emissions by 80–95% by 2050. Shallow geothermal systems might substantially contribute by providing heating and cooling in a sustainable way through seasonally storing heat and cold in the shallow ground (<200 m). When the minimum yield associated with the installation of a cost-effective aquifer thermal energy storage (ATES) system cannot be met, borehole thermal energy storage, relying mostly on the thermal conductivity of the ground, is proposed. However, for large-scale applications, this requires the installation of hundreds of boreholes, which entails a large cost and high disturbance of the underground. In such cases, ATES systems can nevertheless become interesting. This paper presents a case study performed on a Ghent University campus (Belgium), where the feasibility of ATES in an area with a low transmissivity was determined. The maximum yield of the aquifer was estimated at 5 m 3 /h through pumping tests. Although this low yield was attributed to the fine grain size of the aquifer, membrane filtering index tests and long-term injection tests revealed that the clogging risk was limited. A groundwater model was used to optimize the well placement. It was shown that a well arrangement in a checkerboard pattern was most effective to optimize the hydraulic efficiency while maintaining the thermal recovery efficiency of the ATES system. Hence, for large-scale projects, efficient thermal energy storage can also be achieved using a (more cost-effective) ATES system even in low-permeability sediments.

Topics & Concepts

AquiferEnvironmental scienceGroundwaterGeothermal energyHydraulic conductivityBoreholeThermal energy storagePetroleum engineeringGeologyGeothermal gradientHydrology (agriculture)Environmental engineeringSoil scienceGeotechnical engineeringSoil waterPhysicsThermodynamicsGeophysicsGeothermal Energy Systems and ApplicationsCO2 Sequestration and Geologic InteractionsGroundwater flow and contamination studies