Dynamic modelling of multitubular catalytic reactors

The kinetic adsorption/desorption or AD models used to predict product selectivities obtained through forced-feed concentration cycling have been re-examined. Selectivity improvement results from model structure and nonlinear rates of reaction. The relaxed-steady state bound to periodic operation wa

## Abstract For a multitube catalytic reactor in which catalyst occupies the shell side of the cooling tubes, a two‐dimensional model is developed to determine the nonuniform radial distribution of the temperature and concentration. The cross‐section of the fixed bed is divided into a number of equ

Cieneralized mathematical models for coupled heterogeneous catalytic reactions consisting of elementary steps are presented. Arbitrary reaction schemes and several types of active sites are accounted for. Two ideal reactor models, a gradientless reactor with a continuously stirred gas phase and a pl

System of monolith metallic (M) and ceramic (C) catalytic reactors described by two-phase model with axial dispersion is studied for CO oxidation. Values of kinetic and transport parameters are fitted to experimental ignition data. Periodic flow reversal is shown to stabilize temperature fronts in t