Self-poisoning reactions in the single-pellet catalytic reactor

An expenmental techmque has been developed to differentlate between umform polsonmg and pore-mouth polsomng of porous catalysts for a first-order reactlon Data for the hydrogenolysls of cyclopropane on an alumma-supported platmum catalyst dunng polsomng mdlcated that the polsonmg mechamsm was betwee

We,,, modified Weber number Greek symbols NOTATION dimensionless circulation number as defined in Eq. (7) equivalent diameter as defined in Eq. (6) cm internal nozzle diameter, cm Halligan and Burkhart dimensionless Weber c De4 D, F number h drop height at time t, from nozzle exit to drop apex k m n

Non-catalwc gas-sobd reactions are unportant m many matenal pmcessmg and chemtcsl mdustrtes Such reachons call for specud attentton today regardmg the coal gasdication processes hvlng the past fifteen years, a number of papers on gas-sohd reachons has appeared m the hterature Recently Szekely et al

For exothermic fluid-phase reactions, a reactor which is cooled at the wall can exhibit multiplicity or parametric sensitivity\_ Moreover, for heterogeneously catalyaed exothermic fluid-phase reactions, each of the catalytically active pellets in the reactor can exhibit multiplicity. Both forms of m

Oxidation reactions of mobile exhaust gas in a catalytic monolith are considered in this paper. The exhaust gas is deseribed by four concentrations, namely those of the carbon monoxide, fast-and slow-oxidizing hydrocarbons and hydrogen. The problem of multiple reactions and diffusion in the catalyti