Study of Decarbonation of CaCO₃ for High Temperature Thermal Energy Storage

Abstract

In order to develop a high temperature heat storage and temperature upgrading system using the CaO/CaCO₃ reaction, decarbonation of CaCO₃ has been carried out with thermogravimetry in the ranges of 1073–1193 K and 3–55 kPa.
Calcium carbonate virtually did not decompose under the condition where the partial pressure of CO₂, P, is higher than half of the equilibrium decomposition pressure of CaCO₃, P_e. It implies that the present heat storage system has to be operated in pressure regions lower than half of P_e. Most decarbonation occurred during the chemical reaction-controlling period. A rate expression, employing a fractional pressure term, (P_e – P)/P_e, is proposed for the reaction-controlling period by assuming the presence of a reaction intermediate. It is found that the dependency of pressure on reaction rate is non-linear, and the reaction is strongly influenced by the change in P.