Thermal catalytic reactor for detoxifying industrial waste gases

Catalytic decontamination of waste gases in a fixed bed reactor, operating at non-steady state conditions achieved by periodic gas flow reversal, is simulated on the basis of a mathematical model. The opportunity to utilize a significant part of the reaction heat is discussed and the effect of catal

07 Alternative energy sources (others, including development, economics) reductions in capital costs, to increase longevity in harsh environments, or to enable generating efficiency to be increased. The technologies covered include wind, hydro, wave and tidal, waste and biomass combustion and gasifi

A survey is given of the problems to be solved before catalytic hydrogenation reactors can be applied in a multiproduct plant in which selectivity problems are experienced. Some results are reported on work done on the reaction kinetics of two multistep model reactions and on mathematical modelling

12 Refractories/ceramics (properties, production, applications) tubular shaft in channel-type induction furnace, and the excess CO gas byproduct is burned for auxiliary heating. Molten slag is typically formed in the reaction-stage layer, and is floated below the burden and over the molten metal bef