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The effect of a density gradient in groundwater on ATES system efficiency and subsurface space use

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“A heat pump combined with Aquifer Thermal Energy Storage (ATES) has high potential in efficiently and sustainably providing thermal energy for space heating and cooling. This makes the subsurface, including its groundwater, of crucial importance for primary energy savings. ATES systems are often placed in aquifers in which salinity increases with depth. This is the case in coastal areas where also the demand for ATES application is high due to high degrees of urbanization in those areas. The seasonally alternating extraction and re-injection between ATES wells disturbs the preexisting ambient salinity gradient causing horizontal density gradients, which trigger buoyancy flow, which in turn affects the recovery efficiency of the stored thermal energy.
This section uses analytical and numerical methods to understand and explain the impact of buoyancy flow on the efficiency of ATES in such situations, and to quantify the magnitude of this impact relative to other thermal energy losses. The results of this research show that losses due to buoyancy flow may become considerable at (a relatively large) ambient density gradients of over 0.5kgm−3m−1 in combination with a vertical hydraulic conductivity of more than 5mday−1. Monowell systems suffer more from buoyancy losses than do doublet systems under similar conditions.”

(Citaat: Bloemendal, J.M., Olsthoorn, T.N. – The effect of a density gradient in groundwater on ATES system efficiency and subsurface space use – Advances in Geosciences 45(2018)85-103 – DOI: 10.5194/adgeo-45-85-2018 – Open Access)

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