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A Study of Transient Phase-Change Heat Transfer During Charging and Discharging of the Latent Thermal Energy Storage Unit (CROSBI ID 500456)

Prilog sa skupa u zborniku | izvorni znanstveni rad | međunarodna recenzija

Trp, Anica ; Lenić, Kristian ; Franković, Bernard A Study of Transient Phase-Change Heat Transfer During Charging and Discharging of the Latent Thermal Energy Storage Unit // Proceedings of the 5th ISES Europe Solar Conference EuroSun 2004, Vol. I / Klehr, Ludwig (ur.). Freiburg: PSE GmbH, 2004. str. 763-772-x

Podaci o odgovornosti

Trp, Anica ; Lenić, Kristian ; Franković, Bernard

engleski

A Study of Transient Phase-Change Heat Transfer During Charging and Discharging of the Latent Thermal Energy Storage Unit

Latent thermal energy storage system of the shell-and-tube type with the phase change material (PCM) filling the shell side, which is used as a heat storage device in solar heating applications, has been analysed numerically and experimentally in this paper. The heat transfer in this type of thermal energy storage system is a conjugate problem of transient forced convective heat transfer between the heat transfer fluid (HTF) and the wall, heat conduction through the wall and solid-liquid phase-change of the PCM. Since phase-change heat transfer is non-linear due to the moving phase change boundary, analytical solutions are only known for a few problems with simple geometry and simple boundary conditions. Numerical methods provide a more accurate approach, so various techniques have been developed. Many authors [1] - [5] have used the enthalpy formulation, in which the energy equation for PCM is written in terms of enthalpy. A transient heat transfer phenomenon in a shell-and-tube latent thermal energy storage system has been studied numerically by Bellecci and Conti in [6] - [8], and numerically and experimentally by Lacroix in [9] and [10]. These authors have used an enthalpy method for solving phase-change heat transfer and employed standard empirical correlations to calculate convective heat transfer coefficient. Cao and Faghri in [11] and [12] have simulated numerically, using the temperature transforming model for phase-change heat transfer, the transient behaviour of the shell-and-tube thermal energy storage system employing a low Prandtl number HTF. Ismail and Abugderah in [13] have modelled numerically a phase change thermal energy storage system of the same type. In both papers, the transient HTF momentum and energy equations were solved simultaneously with the tube wall and the PCM energy equations, as one domain, in order to avoid the errors due to the use of empirical correlations. Zhang and Faghri in [14] have semi-analytically studied a shell-and-tube latent thermal energy storage system employing a moderate Prandtl number HTF. They concluded that the laminar forced convective heat transfer inside the tube never reaches a thermally developed state and must be solved simultaneously with the phase-change of the PCM, so the application of CFD methods is required. In [15] a transient phase-change heat transfer with conjugate forced convection in the shell-and-tube latent heat storage unit, with water as HTF and calcium chloride hexahydrate as PCM has been analysed numerically. In this paper, a transient heat transfer phenomenon during charging and discharging of the shell-and-tube latent thermal storage unit has been analysed numerically and experimentally. The mathematical model has been formulated. The enthalpy method for modelling phase-change heat transfer has been used. The dimensionless conservation equations for HTF, wall and PCM, with initial and boundary conditions, have been discretised by fully implicit control volume approach, that has been implemented in developed FORTRAN computer code, and solved simultaneously using an iterative procedure. Numerical model has been validated with experimental data. Series of numerical calculations have been performed in order to analyse transient phase-change heat transfer during charging and discharging of the latent thermal energy storage unit.

transient phase-change heat transfer; latent thermal energy storage

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Podaci o prilogu

763-772-x.

2004.

objavljeno

Podaci o matičnoj publikaciji

Proceedings of the 5th ISES Europe Solar Conference EuroSun 2004, Vol. I

Klehr, Ludwig

Freiburg: PSE GmbH

Podaci o skupu

5th ISES Europe Solar Conference EuroSun 2004

poster

20.06.2004-23.06.2004

Freiburg, Njemačka

Povezanost rada

Strojarstvo, Temeljne tehničke znanosti