THE RAYLEIGH-TAYLOR AND KELVIN-HELMHOLTZ STABILITY OF A VISCOUS LIQUID-VAPOR INTERFACE WITH HEAT AND MASS-TRANSFER

Linear stability analysis of a liquid-vapor interface under adverse gravitational field and velocity streaming is considered. The liquid is assumed viscous, incompressible, and motionless over a vapor layer with a uniform horizontal velocity. It is shown that while the coupled viscosity-phase change mechanism of former studies adds considerably to the stability of the Rayleigh-Taylor problem, it has a deleterious effect on the Kelvin-Helmholtz mode of stability. © 1995 American Institute of Physics.