Geometrical and optical analysis of small-sized parabolic trough collector using ray tracing tool SolTrace

doi:10.24425/ather.2023.147536

Archives of Thermodynamics

2023

DOI: 10.24425/ather.2023.147536

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Geometrical and optical analysis of small-sized parabolic trough collector using ray tracing tool SolTrace

Abstract: The present work is aimed at geometrical optimization and optical analysis of a small-sized parabolic trough collector (PTC). Improving the performance of parabolic trough collectors can greatly justify the use of solar energy. An optimized curvature geometry, the location of the absorber tube, and the heat flux distribution along the circumference of the absorber tube are major features in the geometric optimization and optical modelling of parabolic trough collectors. Rim angle, aperture width, the diameter … Show more

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2025

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Thermohydraulic Performance Analysis of Absorber Tube With Coiled Wire Turbulators in Small Aperture Parabolic Trough Collector

Singh,

Chandra

2025

Inter J Fluid Mech Res

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Three-dimensional (3D) simulation using computational fluid dynamics (CFD) has been performed to investigate the impact of a coiled wire turbulator (CWT) on heat transfer and fluid flow in the absorber tube of a small aperture parabolic trough collector (PTC) under a turbulent flow regime. The PTC was modeled with a projected aperture area of 0.64 m2 and an optimized value of rim angle 90 degrees using the ray tracing tool SolTrace based on an optimum value of average heat flux (8.58 kW/m2), and this optimum average heat flux was used as one of the boundary conditions in CFD simulation. The CFD-simulated findings for the smooth absorber tube of the PTC model are compared with the Dittus-Boelter equation for heat transfer and the Filonenko equation for friction factor. The simulated result showed an average deviation of 2.54% and 14.68% in the Nusselt number and friction factor, respectively. The effect of a wall-detached type of CWT (Dm = 10 mm) on thermohydraulic performance with coil pitch ratios (P/dh) of 1, 1.5, and 2 and height ratios (e/dh) of 0.053, 0.063, and 0.074 is considered for the analysis in the Reynolds number (Re) range of 4000-12000. The optimal value of thermohydraulic performance (ηthp) is obtained 1.56 for P/dh = 2, e/dh = 0.053, and Re = 4000, corresponding to which enhancement ratio of Nusselt number (Nur/Nus) and friction factor (fr/fs) are 2.28 and 3.14, respectively.

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Thermohydraulic Performance Analysis of Absorber Tube With Coiled Wire Turbulators in Small Aperture Parabolic Trough Collector

Singh,

Chandra

2025

Inter J Fluid Mech Res

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Geometrical and optical analysis of small-sized parabolic trough collector using ray tracing tool SolTrace

Cited by 1 publication

References 23 publications

Thermohydraulic Performance Analysis of Absorber Tube With Coiled Wire Turbulators in Small Aperture Parabolic Trough Collector

Thermohydraulic Performance Analysis of Absorber Tube With Coiled Wire Turbulators in Small Aperture Parabolic Trough Collector

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