Three-Dimensional Modeling and Analysis of a Porous Thermal Energy Storage System

N. B. Khedher; S. B. Nasrallah

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Journal article

Three-Dimensional Modeling and Analysis of a Porous Thermal Energy Storage System

N. B. Khedher and S. B. Nasrallah

Journal of Applied Fluid Mechanics

01/01/2010

Abstract

evaporation

machinery

Mechanical engineering

phase change

saturation effect

unsaturated porous medium

Whitaker

The objective of this study is to analyze the behavior of an energy storage system which is made of a horizontal channel crossed by a fluid and whose walls contain an unsaturated porous medium. We developed a threedimensional model to study the two processes: thermal energy charging and thermal energy discharging. The coupled and highly non linear nature of the transport equations that govern the heat and mass transfer inside unsaturated medium were discretized by control volume finite element method (CVFEM). The resulted system of algebraic equations was solved by the Bi-Conjugate Gradient Stabilized iterative solver. Results concerning the influence of the initial liquid saturation on the rate of charged and discharged thermal energy are presented and analyzed.

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Title: Three-Dimensional Modeling and Analysis of a Porous Thermal Energy Storage System
Creators - without role: N. B. Khedher
S. B. Nasrallah
Publication Details: Journal of Applied Fluid Mechanics
Publisher: Isfahan University of Technology
Identifiers: 9932213608331
Academic Unit: University Ha'il
Language: English
Resource Type: Journal article