A review on phase-change materials: Mathematical modeling and simulations

Energy storage components improve the energy efficiency of systems by reducing the mismatch between supply and demand. For this purpose, phase-change materials are particularly attractive since they provide a high-energy storage density at a constant temperature which corresponds to the phase transi...

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Published in	Renewable & sustainable energy reviews Vol. 15; no. 1; pp. 112 - 130
Main Authors	Dutil, Yvan, Rousse, Daniel R., Salah, Nizar Ben, Lassue, Stéphane, Zalewski, Laurent
Format	Journal Article
Language	English
Published	Kidlington Elsevier Ltd 01.01.2011 Elsevier
Series	Renewable and Sustainable Energy Reviews
Subjects	Applied sciences Component Component Thermal energy storage Phase-change materials Latent heat Power system economics Power demand Mathematical modeling Numerical simulations Computational efficiency Computer simulation Density Energy energy efficiency Energy storage Energy. Thermal use of fuels Exact sciences and technology Latent heat Law Mathematical modeling Mathematical models Numerical analysis Numerical simulations phase transition Phase-change materials Power demand Power system economics prediction simulation models Supply and demand supply balance temperature Thermal energy storage thermal properties Transport and storage of energy Latent heat Power demand Numerical simulations Power system economics Thermal energy storage Mathematical modeling Component Phase-change materials
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Abstract	Energy storage components improve the energy efficiency of systems by reducing the mismatch between supply and demand. For this purpose, phase-change materials are particularly attractive since they provide a high-energy storage density at a constant temperature which corresponds to the phase transition temperature of the material. Nevertheless, the incorporation of phase-change materials (PCMs) in a particular application calls for an analysis that will enable the researcher to optimize performances of systems. Due to the non-linear nature of the problem, numerical analysis is generally required to obtain appropriate solutions for the thermal behavior of systems. Therefore, a large amount of research has been carried out on PCMs behavior predictions. The review will present models based on the first law and on the second law of thermodynamics. It shows selected results for several configurations, from numerous authors so as to enable one to start his/her research with an exhaustive overview of the subject. This overview stresses the need to match experimental investigations with recent numerical analyses since in recent years, models mostly rely on other models in their validation stages.
AbstractList	Energy storage components improve the energy efficiency of systems by reducing the mismatch between supply and demand. For this purpose, phase-change materials are particularly attractive since they provide a high-energy storage density at a constant temperature which corresponds to the phase transition temperature of the material. Nevertheless, the incorporation of phase-change materials (PCMs) in a particular application calls for an analysis that will enable the researcher to optimize performances of systems. Due to the non-linear nature of the problem, numerical analysis is generally required to obtain appropriate solutions for the thermal behavior of systems. Therefore, a large amount of research has been carried out on PCMs behavior predictions. The review will present models based on the first law and on the second law of thermodynamics. It shows selected results for several configurations, from numerous authors so as to enable one to start his/her research with an exhaustive overview of the subject. This overview stresses the need to match experimental investigations with recent numerical analyses since in recent years, models mostly rely on other models in their validation stages.
Author	Zalewski, Laurent Salah, Nizar Ben Dutil, Yvan Lassue, Stéphane Rousse, Daniel R.
Author_xml	– sequence: 1 givenname: Yvan surname: Dutil fullname: Dutil, Yvan email: yvan.dutil@estml.ca organization: Chaire de Recherche Industrielle T3E, École de technologie supérieure, Université du Québec, 801 Boul. Mgr, Bourget Lévis, QC G6V 9V6, Canada – sequence: 2 givenname: Daniel R. surname: Rousse fullname: Rousse, Daniel R. email: daniel.rousse@estml.ca organization: Chaire de Recherche Industrielle T3E, École de technologie supérieure, Université du Québec, 801 Boul. Mgr, Bourget Lévis, QC G6V 9V6, Canada – sequence: 3 givenname: Nizar Ben surname: Salah fullname: Salah, Nizar Ben email: nizar.bensalah@esstt.rnu.tn organization: Laboratoire MMP, École Supérieure des Sciences et Techniques de Tunis, 5 Avenue Taha Hussein, BP 56, Bâb Manara, Tunis, Tunisia – sequence: 4 givenname: Stéphane surname: Lassue fullname: Lassue, Stéphane email: stephane.lassue@univ-artois.fr organization: LAMTI, Faculté des sciences appliquées, Université d’Artois, Technoparc Futura, 62400 Bethune, France – sequence: 5 givenname: Laurent surname: Zalewski fullname: Zalewski, Laurent organization: LAMTI, Faculté des sciences appliquées, Université d’Artois, Technoparc Futura, 62400 Bethune, France
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SubjectTerms	Applied sciences Component Component Thermal energy storage Phase-change materials Latent heat Power system economics Power demand Mathematical modeling Numerical simulations Computational efficiency Computer simulation Density Energy energy efficiency Energy storage Energy. Thermal use of fuels Exact sciences and technology Latent heat Law Mathematical modeling Mathematical models Numerical analysis Numerical simulations phase transition Phase-change materials Power demand Power system economics prediction simulation models Supply and demand supply balance temperature Thermal energy storage thermal properties Transport and storage of energy
Title	A review on phase-change materials: Mathematical modeling and simulations
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