Experimental evaluation of nonisotheral solid-gas reaction model

Zinc sulfide pellets sintered at 12OO"C, l000"C, 800"C and 600"C were partially oxidized in a single pellet reactor. Sulfur profiles of these samples were measured using Auger electron spectroscopy (AES) and electron probe microanalysis (EPMA). These profiles showed the coexistence of three zones: a

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

## Abstract Reactions among particulate solid phases are important and abundant in many materials, chemical, and metallurgical process industries. Many of these are reaction networks, and not single‐step reactions as normally assumed. There is no theoretical framework available for the analysis of

A theoretical modelling study of wood flash pyrolysis has been carried out using the single pellet technique. The model considers the transient behaviour of a single wood particle undergoing a fast thermal decomposition reaction. Mass transfer, pressure gradients in the pellet, heat transfer via con