Flow and dispersive behaviours of cylindrical pellet string reactor

Transport equations describing heat and mass transfer in radial flow reactors are developed. An analysis of these equations for both limit cases-piston flow and CSTR-is presented. A detailed examination indicates that the outlet conversion is not dependent on the flow direction in reactors of commer

The application of the dispersion model of flow reactors for reactions of any order with two reactants and different initial concentrations yields a system of differential equations which can by considering the stoichiometry of the reaction be reduced to one differential equation. The numerical sol

## Abstrret -Plug flow as well as axml chspersion dynamic models for counter-flow extractwe reactors are formulated and solved to mvesmte the frequency response charactenstuzs of such reactors The reactions considered are taken to he either mfimtely fast, takmg place at the interface between the t

The paFor reports results obtained during mperimantal studies of the overall mass transfer between a liquid and the walls of a type of electrochemical reactor which consists of coaxial cylinders and which associates the axial flow of electrolyte with the rotation of the inner cylinder. Three intercy