Parametric investigation of thermal behaviour of salt-gradient solar pool for climatic conditions

Abstract The use of solar energy is highly welcomed due to its availability everywhere. Among the types of solar energy technologies, the use of this type of energy to produce heat from different aspects is much more common, so in this research we have tried to examine different aspects of producing...

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Published in	Clean energy (Online) Vol. 6; no. 5; pp. 693 - 704
Main Authors	Fadhil Smaisim, Ghassan, Abed, Azher M, Hadrawi, Salema K, Shamel, Ali
Format	Journal Article
Language	English
Published	01.10.2022
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Abstract	Abstract The use of solar energy is highly welcomed due to its availability everywhere. Among the types of solar energy technologies, the use of this type of energy to produce heat from different aspects is much more common, so in this research we have tried to examine different aspects of producing thermal energy from solar energy to supply the heat required by the pool. For this purpose, numerical modelling of the solar pool has been done by considering the heat-transfer characteristics and validation has been done to ensure the obtained results. In this paper, according to the physical realities facing solar systems in two scenarios, an analysis with shadow and without shadow has been done. One of the important results is that as the surface of the pool increases, the amount of heat absorption by the pool fluid will increase, but the effect of the shadow will decrease.
AbstractList	Abstract The use of solar energy is highly welcomed due to its availability everywhere. Among the types of solar energy technologies, the use of this type of energy to produce heat from different aspects is much more common, so in this research we have tried to examine different aspects of producing thermal energy from solar energy to supply the heat required by the pool. For this purpose, numerical modelling of the solar pool has been done by considering the heat-transfer characteristics and validation has been done to ensure the obtained results. In this paper, according to the physical realities facing solar systems in two scenarios, an analysis with shadow and without shadow has been done. One of the important results is that as the surface of the pool increases, the amount of heat absorption by the pool fluid will increase, but the effect of the shadow will decrease.
Author	Hadrawi, Salema K Abed, Azher M Fadhil Smaisim, Ghassan Shamel, Ali
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