Gravitational coagulation of charged cloud drops in turbulent flow

An equation for the frequency of coalescence of uniformly sized drops in a homogeneous isotropic turbulent-flow suspension of infinite extent is proposed. The equation is based on the assumption that most collisions between drops result in cohesion or coalescence, but for coalescence to occur, the r

## Abstract Equations are developed to represent the rate of change of the number of drops of a given size in a cloud owing to condensation and to coalescence respectively. Numerical computation from these equations shows that condensation has a much greater effect than coalescence on drop‐size dis

## Ahstraet -Pomt force approximation has been used to determine the expected velocity and pressure field m creepmg flow around a test drop or bubble placed m a random fixed array of falling drops or bubbles havmg an arbitrary size dlstnbution The expresslon for the expected drag on the test drop

IN rnrs note we report an extension of an experimental investigation [l] of the maximum stable drop size in the flow of two immiscible liquids in turbulent pipe flow. In the original investigation the main variables studied were flow rate, inter-facial tension, and dispersed phase viscosity, althou