Simulation of convective temperature oscillations in phase-change processes

## Abstract In this paper, numerical results pertaining to cyclic melting and freezing of an encapsulated phase‐change material (PCM) have been reported. The cyclic nature of the present problem is relevant to latent heat thermal energy storage system used to power solar Brayton engines in space. I

Gas bubbles entrapped in catalyst particles subjected to hydrostatic pressure oscillations, e.g. during recirculation in loop reactors, will induce intrapardcle liquid flows, and thereby enhance mass transfer in excess of diffusion. This breathing particle' concept was clearly demonstrated in a gas-

A novel diffuse interface model is presented for the direct numerical simulation of microstructure evolution in solidification processes involving convection in the liquid phase. The solidification front is treated as a moving interface in the diffuse approximation as known from phase-field theories

Risks of multiphase processes are based on the interaction between mass transfer, kinetics of chemical reactions, phase equilibrium and muitiphase heat transfer. It is not sufficient to consider only kinetic terms in safety analysis of these processes. Besides events taking place in the reactor, all