Determination of the enhancement factor for mass transfer with an instantaneously fast chemical reaction

RONCO and Coeuret [ l] succeeded in predicting the rate of mass transfer with homogeneous second order irreversible reaction through a unique expression derived after using the reaction factor criterium. A thorough comparison among most of the available, theoretical and experimental, expressions fo

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

The governing differential equation for gas absorption in laminar falling film with zero-order homogeneous chemical reaction and finite gas-phase mass transfer resistances is solved analytically by the method of separation of variables and subsequent solution with confluent hypergeometric function.

## Abstract The carbonation reaction of CaO with CO~2~ mainly consists of two stages: the fast surface chemical reaction stage and the ensuing product layer diffusion control stage. The determination of the former stage is very important for an efficient capture of CO~2~ using multiple cyclic calci