1. Experimental and CFD analysis for heat transfer of solar parabolic trough receiver tube.
- Author
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Kadam, M. A., Pawar, Amar C., Rade, K. A., Pawar, U. S., and Mohite, Dadaso D.
- Subjects
PARABOLIC troughs ,HEAT transfer ,HEAT transfer coefficient ,SOLAR heating ,COMPUTATIONAL fluid dynamics ,FORCED convection ,DOPPLER effect ,NUSSELT number - Abstract
This paper discusses the improvement of heat transfer rate and flow characteristics of fluid in the Solar Parabolic Trough Collector (PTC) receiver tube for different geometrical consideration. Numerical analysis using Computational Fluid Dynamics (CFD) was performed receiver tubes with circular, square, and elliptical geometrical shapes, with and without twisted tape insert. for receiver tubes with circular, square, and elliptical geometrical shapes, either with or without twisted tape inserts. The results of CFD numerical analysis were validated with the experimental results. The comparison graphs for friction factor, Nusselt number as well as thermal performance are plotted with respect to Reynolds number. Results shows that, the change in the geometrical shape of the receiver tube and tube with insets affects the internal and external convection heat transfer coefficients and rate of heat transfer. It was suggested that to use twisted tape inserts in the receiver tube for better heat transfer rate in Solar PTC. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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