Analysis of distributed pore closure in gas-solid reactions

## Abstract Analysis of single‐pore behavior in a porous pellet of reactant is used to develop a new model for predicting the conversion‐time relationship for gas‐solid noncatalytic reactions. The model accounts for the influence of pore diffusion, diffusion through the product layer which builds u

A pore-pellet model is used to analyze experimental data for SO, removal using CuO impregnated on alumina as a sorbent. The effect of structural changes in the active solid (CuO) is included in the analysis and found to be important. The changes are characterized by three parameters: the ratio of so

## Abstract Gas–solid noncatalytic (GSNC) reactions in porous particles are analyzed employing volume reaction model (VRM). Both single‐stage and two‐stage models have been used in the work. Earlier analysis for such reactions was mostly restricted to the first‐order reactions with respect to the g

main reason for the deviation in this system is ascribed to the polar nature and the heterogeneity of the adsorbent which results in nonideal interactions among the adsorbate molecules through adsorbent-adsorbate interaction.