Studies on gas-solid reactions—I: The oxidation rate of zinc sulphide

The kinetics and mechanism of the oxidation of cupric sulphide have been studied in a fixed bed under isothermal conditions at different temperatures and partial pressures of oxygen, the upper limits being respectively 400°C and 0-1 arm. The reaction has been found to be autocatalytic in nature. Th

Prasannan et al. (1985, Chem. Engng Sci. 40, 1251-1261) developed a mathematical model to account for the effect of inerts on gas-solid reactions. The model is experimentally verified in this paper. A reaction system involving capture of CO2 by freshly prepared lime pellets was chosen and varying a

## Abatrac& -The influence of ambient gas phase on the graphitixation rate of carbons was investigated. A calcined petroleum coke was heat treated in a high purity graphite tube furnace for various residence times at a maximum temperature ranging from 1900"-2400°C under air pressure of 4, 2 and 0.

Ah&act-The reactions of iron oxide (45 wt.% FQO,, 55 wt.% SiO,) with a hot gas containing Hz, CO and Hz!3 were investigated over a temperature range of 60&9OU'C. Preliminary studies indicated initial fast reduction of FezOa to spongy iron, which reacted slowly with the H2S to form iron sulfide. Henc