A model for gas-solid reactions with structural changes in the presence of inert solids

The partially sintered spheres model is further developed to account for the influence of inert material present in the solid reactant. This model is applicable, for example, to the sulphation of CaO with a variable amount of inert material. An example is the reaction between calcined dolomite, CaO'

Ah&act-In many gas-solid reactions the porous solid undergoes structural changes due to differences in molar volume between solid reactants and solid aroducts. In this saner some new models are nroaosed which take into account the effects of structural changes dn the reaction raie.'The models differ

This paper presents a more general structural model for gas-solid reactions which include the induction time. The work was done by introducing the concept of "surface activation" and carrying out a very tedious derivation. For simple geometries such as infinite slabs, long cylinders, and spheres, we

The performance of a mathematical model for transport, reaction, and structure evolution during gas-solid reactions involving porous solids and solid product was evaluated using experimental reactivity evolution data for the sulfidation of porous zinc oxide and the sulfation of limestone calcines. I