Analysis of recovery efficiency in high-temperature aquifer thermal energy storage: a Rayleigh-based method

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Publication date

2014-02

Authors

Schout, GilianISNI 0000000493229321
Drijver, Benno
Gutierrez-Neri, Mariene
Schotting, RuudISNI 0000000050791382

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Abstract

High-temperature aquifer thermal energy storage (HT-ATES) is an important technique for energy conservation. A controlling factor for the economic feasibility of HT-ATES is the recovery efficiency. Due to the effects of density-driven flow (free convection), HTATES systems applied in permeable aquifers typically have lower recovery efficiencies than conventional (lowtemperature) ATES systems. For a reliable estimation of the recovery efficiency it is, therefore, important to take the effect of density-driven flow into account. A numerical evaluation of the prime factors influencing the recovery efficiency of HT-ATES systems is presented. Sensitivity runs evaluating the effects of aquifer properties, as well as operational variables, were performed to deduce the most important factors that control the recovery efficiency. A correlation was found between the dimensionless Rayleigh number (a measure of the relative strength of free convection) and the calculated recovery efficiencies. Basedona modified Rayleigh number, two simple analytical solutions are proposed to calculate the recovery efficiency, each one covering a different range of aquifer thicknesses. The analytical solutions accurately reproduce all numerically modeled scenarios with an average error of less than 3%. The proposed method can be of practical use when considering or designing an HT-ATES system.

Keywords

Aquifer thermal energy storage, Density-drivenflow, Numerical modeling, The Netherlands, Thermal systems, Earth and Planetary Sciences (miscellaneous), Water Science and Technology, SDG 7 - Affordable and Clean Energy

Citation

Schout, G, Drijver, B, Gutierrez-Neri, M & Schotting, R 2014, 'Analysis of recovery efficiency in high-temperature aquifer thermal energy storage : a Rayleigh-based method', Hydrogeology Journal, vol. 22, no. 1, pp. 281-291. https://doi.org/10.1007/s10040-013-1050-8