On Numerical Modeling of Thermal Performance Enhancementof a Heat Thermal Energy Storage System Using a Phase Change Material and a Porous Foam

Abstract: In this investigation, a comprehensive numerical analysis of the flow involved in an open-ended straight channel fully filled with a porous metal foam saturated and a phase change material (paraffin) has been performed using a single relaxation time lattice Boltzmann method (SRT-LBM) at the representative elementary volume (REV) scale. The enthalpy-based approach with three density functions has been employed to cope with the governing equations under the local thermal non-equilibrium (LTNE) condition. The in-… Show more

“…This is achieved, for example, by the use of extended surfaces, and finned surfaces, e.g., [4,5]. Another way is to use inserts immersed in PCM with a large surface area and high thermal conductivity, such as carbon brushes [6,7], metal foams [8,9], porous materials [10][11][12], metal rings [13,14], or metal matrices [15,16]. Another possibility is the use of honeycomb fillers [17,18].…”

Thermal Energy Storage with PCMs in Shell-and-Tube Units: A Review

“…This is achieved, for example, by the use of extended surfaces, and finned surfaces, e.g., [4,5]. Another way is to use inserts immersed in PCM with a large surface area and high thermal conductivity, such as carbon brushes [6,7], metal foams [8,9], porous materials [10][11][12], metal rings [13,14], or metal matrices [15,16]. Another possibility is the use of honeycomb fillers [17,18].…”

Thermal Energy Storage with PCMs in Shell-and-Tube Units: A Review

Simulation of heat transfer in a nanoparticle enhanced phase change material to design battery thermal management systems: A lattice Boltzmann method study