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High Temperature Rock-bed TES System Suitable for Industrial-scale CSP Plant – CFD Analysis Under Charge/Discharge Cyclic Conditions

2014; Elsevier BV; Volume: 46; Linguagem: Inglês

10.1016/j.egypro.2014.01.165

1876-6102

Simone A. Zavattoni, Maurizio Barbato, Andrea Pedretti, Giw Zanganeh, Aldo Steinfeld,

Adsorption and Cooling Systems

The present study aims at dimensioning and modeling, by means of accurate time-dependent 3D computational fluid dynamics simulations, the behavior of a high temperature rock-bed TES system. The latter is exploited to fulfill the round-the-clock energy requirements of a reference 80 MWe industrial-scale CSP plant, based upon the Airlight Energy technology, which uses air as heat transfer fluid. The TES system behavior was analyzed through 15 consecutive charge/discharge cycles to evaluate the thickness evolution of the thermocline zone, and hence the overall thermal efficiency of the system, under cyclic conditions. The numerical model was satisfactorily validated with experimental data, gathered from a 6.5 MWhth TES system prototype, located in Biasca, designed and built by the Swiss company Airlight Energy SA. The good agreement between CFD simulations results and experimental data allowed the authors to assess the relevance of radiative heat transfer, even at relatively low temperature (300 ÷ 350 °C), on the thermodynamics behavior of the TES system. Moreover, a porosity variation, with the packed bed depth, was also observed numerically and experimentally mainly due to the own weight of the packings (25m3 of natural river pebbles with 3 cm average diameter). The CFD simulations were performed with Fluent code from ANSYS.