Experimental study of heat transfer enhancement in Solar Tower Receiver Using Internal Fins

Heat transfer coefficients; Reynolds number; Solar energy; Solar power generation; Tubes (components); Circular and square tubes; Friction factors; Heat Transfer enhancement; Heat transfer process; Internal fins; Longitudinal fin; Solar energy plants; Temperature decrease; Fins (heat exchange)

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Bibliographic Details
Main Authors: Shatnawi H., Lim C.W., Ismail F.B., Aldossary A.
Other Authors: 57204704488
Format: Article
Published: Tech Science Press 2023
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Description
Summary:Heat transfer coefficients; Reynolds number; Solar energy; Solar power generation; Tubes (components); Circular and square tubes; Friction factors; Heat Transfer enhancement; Heat transfer process; Internal fins; Longitudinal fin; Solar energy plants; Temperature decrease; Fins (heat exchange)