First order kinetics in continuous reactors

The long time performance of an isothermal fixed bed reactor undergoing catalyst poisoning is theoretically anatyzed using the dispersion model. First order reaction with dth order deactivation is assumed and the model eauations are solved by matched asymptotic expansions for large Peclet number. Si

A continuous version of the kinetic treatment of consecutive degradation reactions obeying a first order formalism is established. This "continuous kinetics" may be applied to degradation processes in complex multi-component systems containing a large number of similar species such as petroleum frac

Three-ph&e reactions (gas, liquid, solid catalyst) have traditionally been carried out in slurry, fluid-bed, and trickle-bed reactors. In this Paper a cross-flow reactor has been modeled in which liquid flows through channels in one direction and fills the catalytic porous walls, while gas flows at

In trickle-bed reactors conventional solutions of effectiveness factors are not applicable because parts of the external catalyst surface may be covered by liquid and others by gas. In this paper approximate solutions of effectiveness factors are systematically compared with numerical solutions for