Non-isothermal reaction in catalyst particles

A method of analysis is presented to obtain the asymptotic form of the conservation equations used to describe non-isothermal chemical reaction in porous catalysts. The equations for a system involving the general simple chemical reaction contain several parameters, among which is a generalized form

The behavior of non-isothermal catalyst particles under selective deactivation is examined. The catalyst particle production rate, which is represented by an effectiveness factor plot, is seen to increase with decay in certain cases. In addition, multiple steady states, not present with fresh cataly

The effect of simultaneous heat and mass transfer on the rate of a heterogeneous catalytic reaction has been studied in the case where the reaction rate may be regarded as concentration independent. Approximate analytic solutions of transport equations for catalyst particles of slab or cylindrical s

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