Effectiveness factors in a nonisothermal reaction system

Circulating hydrogen-oxygen mixtures were reacted a t atmospheric pressure in a single long porous catalyst cylinder which contained a thermocouple-micromanometer probe. Rate and temperature rise data were obtained at 20", 30°, 50", and 60°C. in the concentration range 0 to 5% oxygen in hydrogen. T

## An overall effectiveness factor is derived for a class of nonisothermal multiphase catalytic reactions based on a perturbation technique. Compact expressions for the effectiveness factor are given for two extreme cases that are nearly accurate. An expression for the maximum temperature rise in

The case of double parallel reaction scheme taking place in a porous catalytic pellet is analyzed. Effectiveness factor expressions for both reactions are derived after matching asymptotic solutions strictly valid for small and lame values of the Thiele moduli It is assumed that th: kinetics of both