The Stability of a Rotating and Heated From Below Horizontal Cylindrical Layer of a Viscous, Incompressible Liquid with Free Boundaries

Abstract: The stability of a rotating and heated from below horizontal cylindrical layer of a viscous, incompressible liquid with free boundaries was theoretically investigated. Neglecting the centrifugal forces, the equations of motion, thermal conductivity and incompressibility of the liquid were written, from which the well-known dispersion equation was derived in the linear approximation. The stability of a rotating cylindrical volume of a liquid with no heating from below was considered, provided that the temperatu… Show more

“…Bhaskar et al [21] examined the impact of heat generation and thermal radiation on steady hydromagnetic fully developed natural convection flow in a vertical micro-porous channel in the presence of viscous dissipation. Andreeva et al [22] conducted a theoretical investigation into the stability of a rotating and heated-from-below horizontal cylindrical layer of a viscous, incompressible liquid with free boundaries. Andrieieva et al [23] carried out a theoretical investigation of convective mass transfer in a cylindrical viscous incompressible conductive fluid layer.…”

Effects of Radiation and Heat Dissipation on MHD Convective Flow in Presence of Heat Sink

“…Bhaskar et al [21] examined the impact of heat generation and thermal radiation on steady hydromagnetic fully developed natural convection flow in a vertical micro-porous channel in the presence of viscous dissipation. Andreeva et al [22] conducted a theoretical investigation into the stability of a rotating and heated-from-below horizontal cylindrical layer of a viscous, incompressible liquid with free boundaries. Andrieieva et al [23] carried out a theoretical investigation of convective mass transfer in a cylindrical viscous incompressible conductive fluid layer.…”

Effects of Radiation and Heat Dissipation on MHD Convective Flow in Presence of Heat Sink