Numerical Investigation of Metal Foam Pore Density Effect on Sensible and Latent Heats Storage through an Enthalpy-Based REV-Scale Lattice Boltzmann Method

Archive ouverte : Article de revue

Mabrouk, Riheb | Naji, Hassane | Dhahri, Hacen

Edité par HAL CCSD ; MDPI

International audience. In this work, an unsteady forced convection heat transfer in an open-ended channel incorporating a porous medium filled either with a phase change material (PCM; case 1) or with water (case 2) has been studied using a thermal lattice Boltzmann method (TLBM) at the representative elementary volume (REV) scale. The set of governing equations includes the dimensionless generalized Navier–Stokes equations and the two energy model transport equations based on local thermal non-equilibrium (LTNE). The enthalpy-based method is employed to cope with the phase change process. The pores per inch density (10≤PPI≤60) effects of the metal foam on the storage of sensible and latent heat were studied during charging/discharging processes at two Reynolds numbers (Re) of 200 and 400. The significant outcomes are discussed for the dynamic and thermal fields, the entropy generation rate (Ns), the LTNE intensity, and the energy and exergy efficiencies under the influence of Re. It can be stated that increasing the PPI improves the energy and exergy efficiencies of the latent heat model, reduces energy losses, and improves the stored energy quality. Likewise, at a moderate Re (=200), a low PPI (=10) would be suitable to reduce the system irreversibility during the charging period, while a high value (PPI = 60) might be advised for the discharging process. As becomes clear from the obtained findings, PPI and porosity are relevant factors. In conclusion, this paper further provides a first analysis of entropy generation during forced convection to improve the energy efficiency of various renewable energy systems.

Consulter en ligne

Suggestions

Du même auteur

Numerical investigation of porosity effect on a PCM's thermal performance i...

Archive ouverte: Article de revue

Mabrouk, Riheb | 2020-12-31

Insight into Foam Pore Effect on Phase Change Process in a Plane Channel un...

Archive ouverte: Article de revue

Mabrouk, Riheb | 2020-08

International audience. In this work, the two-dimensional laminar flow and the heat transfer in an open-ended rectangular porous channel (metal foam) including a phase change material (PCM; paraffin) under forced co...

On Numerical Modeling of Thermal Performance Enhancementof a Heat Thermal E...

Archive ouverte: Article de revue

Mabrouk, Riheb | 2022-01

International audience. 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 (p...

Du même sujet

Reading History of Science as a Physics and Mathematics Framework for Newto...

Archive ouverte: Communication dans un congrès

Pisano, Raffaele | 2017-04-19

International audience

On Mechanics and Thermodynamics Analogies in History of Physics-Mathematics...

Archive ouverte: Communication dans un congrès

Pisano, Raffaele | 2017-05-12

International audience

The prediction of turbulent swirling jet flow

Archive ouverte: Article de revue

Naji, H. | 1986-02

International audience

Numerical investigation of transient thermal behavior of a wall incorporati...

Archive ouverte: Article de revue

Younsi, Zohir | 2016-11

International audience

An experimental investigation of interacting swirling multiple jets

Archive ouverte: Article de revue

Braikia, Mohamed | 2020

ACL. International audience. This article deals with the experimental investigation of multiple interacting jets, which may be interested in many engineering applications such as design of a ventilation supply devic...

Thermal behavior of a hybrid PCM/plaster: A numerical and experimental inve...

Archive ouverte: Article de revue

Lachheb, Mohamed | 2017-01

International audience

Chargement des enrichissements...