Title of article
Laminar film condensation driven latent thermal energy storage in rectangular containers
Author/Authors
Krishna Kota، نويسنده , , Louis Chow، نويسنده , , Quinn Leland، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
10
From page
1208
To page
1217
Abstract
This paper focuses on numerically analyzing the thermal transport phenomena in the transient conjugate problem of melting and laminar film condensation. The key focus is to identify an optimum container aspect ratio/shape and conditions for which the heat storage time and the storage capacity are minimum and maximum respectively. Since most solid–liquid phase change materials (PCMs) suffer from poor thermal conductivities, the major resistance to heat transfer comes from PCM. Hence, high thermal conductivity, low-cost metal foam is suggested for use along with PCM to minimize this resistance. The conjugate transient problem of film condensation driven solid–liquid phase change of PCM impregnated inside porous metal foam is numerically analyzed. An effective heat capacity formulation is employed for modeling the transient PCM phase change in porous foam and is solved using finite element method. It is coupled with laminar film condensation on the outside of the storage container. The model is then used for selecting the best aspect ratio for thermal energy storage (TES) containers that enables to store comparatively the maximum heat. The results of the developed model showed that the major resistance to heat transfer and hence efficient thermal energy storage depends strongly on the aspect ratio of the PCM storage containers.
Keywords
Film condensation , Phase change material , Thermal energy storage , Porous foam , Low temperature waste heat recovery , Melting
Journal title
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
Serial Year
2012
Journal title
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
Record number
1077708
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