Kinetics of CaCO3 decomposition at low CO2 partial pressure in a vacuum fixed bed

Calcium looping often suffers from sintering during CaCO3 decomposition process, and CaCO3 decompo-sition in vacuum is a potential solution. Kinetic analysis of CaCO3 decomposition in vacuum is seldom, and most of the kinetics in the literature is obtained from thermogravimetric analyzer in atmospheric pressure. In addition, the reported kinetic data seems scattered, and varies depending on the analyzer employed. This study is focused on the intrinsic kinetics of isothermal CaCO3 decomposition in a vacuum fixed bed from 700 degrees C to 850 degrees C. Besides conventional internal/external mass transfer elimination via reducing size/increasing gas velocity, the effect of CO2 partial pressure is specially discussed under vac-uum condition. It is found that, this influence could be eliminated only when the relative difference between equilibrium pressure and maximum CO2 partial pressure (Peq-P*CO2)/Peq was higher than 0.98. Tests at atmospheric pressure were also conducted with the same particle size and gas volumetric feed-ing rate for comparison. The intrinsic reaction rate constants of CaCO3 decomposition in vacuum are 1.05 x 10(-3) x 10(-3) s(-1) between 700 degrees C and 850 degrees C, and the activation energy of this reaction is 92.58 kJ/mol. (c) 2023 Elsevier Ltd. All rights reserved.