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Comprehensive parametric study of using carbon foam structures saturated with PCMs in thermal management of electronic systems. Energy Conversion and Management 105 (2015) 93–102

Energy Conversion and Management • 2015
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Publication Information
Authors S.A. Nada, W.G. Alshaer
Keywords Parametric study Carbon foam PCM Thermal management Electronic system
Journal Energy Conversion and Management
Publisher Elsevier Ltd
Volume 105
Issue Not Available
Pages 93-102
publication.type International
Paper Link Open Link
Supplementary Materials Not Available
Abstract
The focus of the present work is to perform detailed parametric studies for electronic thermal
management systems using different carbon foam structures of different porosities and skeleton thermal
conductivities saturated with different phase change materials (PCMs) of different fusion temperatures,
heat of fusions and thermal conductivities. Different thicknesses of thermal management modules and
power densities levels are also included in the parametric study. The analysis was carried out using a validated
finite element numerical model based on volume averaging technique and single-domain energy
equation. The results show that decreasing CF and PCM thermal conductivities, increasing carbon foam
porosity and increasing module height increase the module temperature and delay the approaching
steady state temperature. The transient module temperature decreased and the time of approaching
steady state temperature is delayed with increasing PCM heat of fusion. However the module fusion temperature
does not show any strong effect on module temperature. Design guidelines for selecting the
combinations of CF/PCM thermo-physical properties are presented for different operating conditions
and power levels.