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Title:
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A correlation of the convective heat transfer coefficient between an air flow and a phase change material plate
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Author:
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Gracia Cuesta, Alvaro de; David, Damien; Castell, Albert; Cabeza, Luisa F.; Virgone, Joseph
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Notes:
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This paper provides a new correlation to determine the heat transfer coefficient between an air flow and
a plate made of phase change material (PCM). This correlation was built for the simulation of heat storage
units containing PCM plates subjected to an inlet temperature step. The presented correlation has the
following form: NuPCM
x;t ¼ NuPSM$f PCM. The first term NuPSM is for a plate made of traditional material. The
term fPCM is a perturbation due to the phase change in the plate. Each term depends on 5 non-dimensional
parameters. One of them represents the advance in the total heating or cooling process, in order to
take into account the transient evolution of the convective coefficient. The correlations are built using the
Least Squares Method, from series of CDF simulation data. The shape of the perturbation fPCM reveals
a complex evolution of the temperature repartition in the PCM plate. Finally, a nodal model of the plate
has been developed in order to test the provided new correlation and other correlations available in the
literature. The results obtained with the present correlation show better agreements with the CFD
results, which make this correlation suitable for the simulation of PCM heat storage systems.
This work was supported by the “Corporación Tecnológica de Andalucía” by means of the project “MECLIDE-Soluciones estructurales con materiales especiales para la climatización diferida de edificios” with the collaboration of DETEA. The work was partially funded by the Spanish Government (ENE2011-22722 and ULLE10-4E-1305) and the European Union (COST Action COST TU0802). The authors would like to thank the Catalan Government for the quality accreditation given to their research group (2009 SGR 534). |
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Subject(s):
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-Convective heat transfer coefficient
-Correlation
-Phase change material |
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Rights:
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(c) Elsevier, 2012
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Document type:
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article
submittedVersion |
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Published by:
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Elsevier
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Share:
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