4.7 Article

Mathematical modeling of heterogeneous metal foams for phase-change heat transfer enhancement of latent heat thermal energy storage units

期刊

APPLIED MATHEMATICAL MODELLING
卷 115, 期 -, 页码 398-413

出版社

ELSEVIER SCIENCE INC
DOI: 10.1016/j.apm.2022.10.018

关键词

Heterogeneous metal foam; Latent heat thermal energy storage; Melting heat transfer; Anisotropic porous media

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Embedding phase change material in metal foams can improve the heat transfer characteristics of a thermal energy storage device. This study investigates the melting heat transfer of phase change materials embedded in a heterogeneous metal foam and finds that increasing heterogeneity can enhance heat transfer rate and shorten melting time.
Embedding phase change material in metal foams improves the heat transfer character-istics of a thermal energy storage device. Here, the melting heat transfer of phase change materials embedded in a heterogeneous metal foam was addressed in a cavity heated from a side wall. The heterogeneity of the metal foam can be controlled through a heterogene-ity parameter and heterogeneity angle. The thermal conductivity and permeability of the metal foam were introduced by tensors. The governing equations for the natural convec-tion flow and phase change heat transfer, including anisotropic thermal conductivity and permeability, were introduced and solved by the finite element method. The impact of the heterogeneity parameter and angle on the melting time and isotherm and streamline pat-terns were investigated. The results showed an increase in heterogeneity could increase the heat transfer rate and shorten the melting time. A heterogeneity angle significantly changes the melting (thermal charging time) by 24% when the heterogeneity parameter was 0.2. Depending on the heterogeneity angle, the melting time could be significantly shortened or extended compared to a simple metal foam. For a fixed weight of foam, a heterogeneous metal foam could shorten the charging time by 11% compared to a simple foam.(c) 2022 Elsevier Inc. All rights reserved.

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