Franziska Schaube scite author profile

High temperature thermal storage technologies that can be easily integrated into future concentrated solar power plants are a key factor for increasing the market potential of solar power production. Storing thermal energy by reversible ga.i-solid reactions has the potential of achieving high storage densities while being adjustable to various plant configurations. In this paper the Ca(OH)2lCaO reaction system is investigated theoretically. It can achieve storage den.'iities above 300 kWhlm^ while operating in a temperature range between 400 and 600° C. Reactor concepts with indirect and direct heat transfer are being evaluated. The low thermal conductivity of the fixed bed of solid reactants turned out to considerably limit the performance of a storage tank with indirect heat input through the reactor walls. A one-dimensional model for the storage reactor is established and solved with the Finite Element Method. The reactor concept with direct heat transfer by flowing the gaseous reactant plus additional inert gas through the solid reactants did not show any limitation due to heat transfer. If reaction kinetics are fast enough, the reactor performance in case of the Ca(OH)2lCaO reaction system is limited by the thermal capacity of the gaseous stream to take-up heat of reaction. However, to limit pressure drop and the according losses for compression of the gas stream, the size of the storage system is restricted in a fixed bed configuration.

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De- and rehydration of Ca(OH)2 in a reactor with direct heat transfer for thermo-chemical heat storage. Part B: Validation of model

Schaube

Utz

Wörner

et al. 2013

Chemical Engineering Research and Design

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Thermochemische Wärmespeicherung mittels Calciumhydroxid im Temperaturbereich bis 500 °C

Schaube

Wörner

Müller‐Steinhagen

2010

Chemie Ingenieur Technik

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