Effectiveness and deactivation of a diluted catalyst pellet

## Abstract A general expression for the time‐dependence of the activity of a catalyst pellet affected by both chemical deactivation and diffusion is developed. Specific results are given for both uniform and pore‐mouth poisoning, with parallel and series poisoning mechanisms. Comparisons show a sa

A reaction-deactivation model based on experimental observations was used to predict catalyst life for hydrotreating a solvent-refined coal oil. The model coordinates catalyst pore and pellet sizes to the quantity of carbonaceous material deposited. The results show that for a parallel fouling mecha

In tlus connectlon It IS a strmghtforward matter to show that EC (7) IS an exact representation for Enhancement at the limits of slow and fast reaction This LS because It can be denved by assummg that the species k 1s constant and equal to the concentration of k at the Interface, at least up to the

Tke dusty gas model is used to establish the effects of temperature and pressure gradients on catalyst pellet effectiveness factors for reaction systems in which species molecular weights and transport coefficients are indistinguishable and Lui = 0. For this class of reactions, the total molar flux