Mass transfer from a single sphere in Stokes' flow with a homogeneous chemical reaction

Numerical solutions of the equations that describe steady state, forced-convection mass transfer around single circulating or noncirculating gas bubbles have been obtained for both first-and second-order chemical reaction conditions. For the noncirculating bubbles, solutions have been obtained up to

## Abstract Mass transfer coefficients from 1/2‐in. spheres of benzoic and cinnamic acids and 2‐napthol to water were measured in the high Reynolds number region of 600 to 140,000. Previous data for liquids extended only to a Reynolds number of 11,000. Three separate and approximately parallel line

## Abstract The mass transfer rates of a gaseous reactant into a liquid where the reactions are catalyzed by homogeneous catalysts have been evaluated by the numerical solution of the diffusion‐reaction equations according to Higbie's penetration theory. The concentration profiles as well as enhanc

## An original technique for simultaneous measurements of concentration and velocity in a turbulent liquid flow with and without a chemical reaction is developed by combining a two-component He-Ne laser Doppler velocimeter with a Ar' laserinduced fluorescence technique. The mass flux and eddy diffus