Heat flow through a liquid–vapor interface in a nano-channel: the effect of end-grafting polymers on a wall

Abstract: Heat transfer through a liquid-vapor interface is a complex phenomenon and crucially relevant in heat-removal and cryogenic applications. The physical coupling among confining walls, liquid and vapor phases is very important for controlling or improving cooling rates or condensation efficiency. Surface modification is a promising route, which has been explored to taylor the heat transfer through confined two-phase systems. We use coarse-grained molecular-dynamics simulations to study the heat transfer through… Show more

“…Finally, Pastorino et al [22], address a problem in which the effects of inhomogeneity meet with those of nano-confinement under non-equilibrium conditions. Specifically these authors study the effects of surface modification on the heat flow through a liquid-vapor interface in a nano-channel.…”

Special issue on soft matter research in Latin America

“…Finally, Pastorino et al [22], address a problem in which the effects of inhomogeneity meet with those of nano-confinement under non-equilibrium conditions. Specifically these authors study the effects of surface modification on the heat flow through a liquid-vapor interface in a nano-channel.…”

Special issue on soft matter research in Latin America