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Thermodynamic Analysis of Compressed Air Energy Storage (CAES) Reservoirs in Abandoned Mines Using Different Sealing Layers

Laura Álvarez de Prado, Javier Menéndez, Antonio Bernardo-Sánchez, Mónica Galdo Vega, Jorge Loredo, Jesús Manuel Fernández Oro

2021Applied Sciences54 citationsDOIOpen Access PDF

Abstract

Million cubic meters from abandoned mines worldwide could be used as subsurface reservoirs for large scale energy storage systems, such as adiabatic compressed air energy storage (A-CAES). In this paper, analytical and three-dimensional CFD numerical models have been conducted to analyze the thermodynamic performance of the A-CAES reservoirs in abandoned mines during air charging and discharging processes. Unlike other research works, in which the heat transfer coefficient is considered constant during the operation time, in the present investigation a correlation based on both unsteady Reynolds and Rayleigh numbers is employed for the heat transfer coefficient in this type of application. A tunnel with a 35 cm thick concrete lining, 200 m3 of useful volume and typical operating pressures from 5 to 8 MPa were considered. Fiber-reinforced plastic (FRP) and steel were employed as sealing layers in the simulations around the fluid. Finally, the model also considers a 2.5 m thick sandstone rock mass around the concrete lining. The results obtained show significant heat flux between the pressurized air and the sealing layer and between the sealing layer and concrete lining. However, no temperature fluctuation was observed in the rock mass. The air temperature fluctuations are reduced when steel sealing layer is employed. The thermal energy balance through the sealing layer for 30 cycles, considering air mass flow rates of 0.22 kg s−1 (charge) and −0.45 kg s−1 (discharge), reached 1056 and 907 kWh for FRP and steel, respectively. In general, good agreements between analytical and numerical simulations were obtained.

Topics & Concepts

Compressed air energy storageAdiabatic processCompressed airThermal energy storageMaterials scienceVolume (thermodynamics)Heat fluxHeat transferGeotechnical engineeringEnergy storageMechanicsEnvironmental scienceGeologyEngineeringThermodynamicsMechanical engineeringPower (physics)PhysicsThermodynamic and Exergetic Analyses of Power and Cooling SystemsGeothermal Energy Systems and ApplicationsAdsorption and Cooling Systems