Numerical analysis of an integrated storage solar heater |
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Authors: | Mouna Hamed Ali Fallah Ammar Ben Brahim |
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Affiliation: | University of Gabes, National Engineering School, Applied Thermodynamics Research Unit (UR:11ES80), 6072 Gabes, Tunisia |
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Abstract: | This work aims to evaluate the performance of an integrated phase change material (PCM) solar collector. The dynamic behavior of the system is investigated via a theoretical model based on the first law of thermodynamics and oriented to deliver a maximum outlet water temperature. A parametric study is used to assess the effects of the inlet water temperature, the PCM thicknesses and properties and the mass flow rates on the outlet water temperature and the melt fraction. A comparison with a conventional solar water heater without heat storage is made. Results indicate that charging and discharging processes of PCM offer six stages. It is observed that the complete solidification time is longer than the melting one. The latent heat storage system increases the heating requirements at night. The rise is most enhanced for higher inlet water temperature, melting PCM temperature and PCM thickness and for lower mass flow rate. |
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Keywords: | Phase change material Latent heat Melting Solidification Solar energy Solar collector |
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