On the effect of flow patterns on the rate of mass transfer with chemical reaction

Ah&act--The effect of bulk flow on mass transfer accompanied by homogeneous chemical reaction is discussed in terms of the film model. It is shown that at large concentration levels of the reacting species bulk flow due to diffusion may enhance the overall mass transfer rate, but this enhancement is

Ahstraet-Theoret~cal models of mass transfer across an Interface generally ignore the effect of veloaty vanatlon For mass transfer accompamed by pseudo nth order reactlon, lt IS shown that, at suffiaently high values of reactlon rate constant, the rate of mass transfer wdl be independent of the velo

The relations developed earlier from the irreversible thermodynamics of transport processes on the phase boundary of heterogeneous flow systems are applied to the analysis of the influence of surface chemical reactions on interphase heat (energy) and especially mass transfer. Such interactions arise

Simple limiting expressions are derived for predicting the rate of absorption of solute A into a phase already containing a dissolved species B, which reacts instantaneously and irreversibly with A. These limiting expressions, equations (L), (H) and (A), which are not sensitive to system geometry, p