CFD Analysis of Thermal Performance in Isosceles Right Triangle Rib Roughness on the Absorber Plate Solar Air Heater

Thermal performance of a single-pass single-glass cover solar air heater consisting of semicircular absorber plate finned with rectangular longitudinal fins is investigated. The analysis is carried out for different hydraulic diameters, which were obtained by varying the diameter of the duct from 0.3–0.5 m. One to five numbers of fins are considered. Reynolds number ranges from 1600–4300. Analytical solutions for energy balance equations of different elements and duct flow of the solar air heater are presented; results are compared with finite-volume methodology based numerical solutions obtained from ansys fluent commercial software, and a fairly good agreement is achieved. Moreover, analysis is extended to check the effect of double-glass cover and the recycle of the exiting air. Results revealed that the use of double-glass cover and recycle operation improves the thermal performance of solar air heater.

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Thermal performance of double-pass counter flow and double-parallel flow solar air heater with V-grooved absorber plate

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/1076/1/012081 ◽

2021 ◽

Vol 1076 (1) ◽

pp. 012081

Author(s):

Ali M. Rasham ◽

Basim A. R. Al-Bakri

Keyword(s):

Thermal Performance ◽

Parallel Flow ◽

Solar Air Heater ◽

Absorber Plate ◽

Double Pass ◽

Counter Flow ◽

Air Heater

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Experimental and numerical study of an overlay composite absorber plate material for a solar air heater

Materials Testing ◽

10.1515/mt-2020-0109 ◽

2021 ◽

Vol 63 (7) ◽

pp. 681-686

Author(s):

Duraisamy Jagadeesh ◽

Ramasamy Venkatachalam ◽

Gurusamy Nallakumarasamy

Keyword(s):

Numerical Study ◽

The Other ◽

Solar Air Heater ◽

Outlet Temperature ◽

Cfd Analysis ◽

Plate Material ◽

Absorber Plate ◽

Air Heater ◽

Margin Of Error ◽

Computational Processes

Abstract The research in this paper is a sequel of an earlier work by the author in which experimental and CFD results were compared for an absorber plate made of iron with and without fins for two flow rates. The research yielded a good comparative result between the experimental and computational process for an optimized flow rate and the effect of the fins. The objective of this paper is to verify the effect of the overlay composite absorber plate material on a solar air heater through experimental and computational fluid dynamics. The experimental setup consists of an absorber plate as an overlay composite of aluminum and copper for enhanced heat transfer. Experiments and CFD analysis were done in three configurations. In configuration one, only the aluminum absorber plate with fins was considered. In configuration two, the overlay composite was considered with copper on the top and aluminum at the bottom as fins, and in configuration three, the overlay composite was considered with aluminum at the top and copper at the bottom as fins. A transient 8 hours CFD analysis was carried out using these configurations. While validating the results it was found that the overlay absorber plate Cu-Al was capable of generating a high outlet temperature Max of 88 °C and capable of generating 83 °C air for 5 hours and had good thermal efficiency when compared to the other materials in the other two configuration. It was found that experimental and computational analysis were in very close agreement, and the margin of error between the experimental and computational processes was less than 8 %.

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Solar Air Heater with Finned Absorber Plate and Helical Flow Path: A CFD Analysis

Applied Solar Energy ◽

10.3103/s0003701x20010041 ◽

2020 ◽

Vol 56 (1) ◽

pp. 35-41

Author(s):

Parag Jyoti Bezbaruah ◽

Rajat Subhra Das ◽

Bikash Kumar Sarkar

Keyword(s):

Helical Flow ◽

Flow Path ◽

Solar Air Heater ◽

Cfd Analysis ◽

Absorber Plate ◽

Air Heater

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Experimental Investigation on Thermal Performance in Three-Sided Solar Air Heaters Having an Alignment of Multi-v and Transverse Wire Roughness on the Absorber Plate

Journal of Solar Energy Engineering ◽

10.1115/1.4046628 ◽

2020 ◽

Vol 142 (5) ◽

Author(s):

Dhananjay Kumar ◽

Laljee Prasad

Keyword(s):

Thermal Performance ◽

Thermal Efficiency ◽

Roughness Height ◽

Space Heating ◽

Solar Air Heater ◽

Artificial Roughness ◽

Absorber Plate ◽

Air Heater ◽

Relative Roughness ◽

Operational Constraints

Abstract The use of artificial roughness is an efficient and commercial way to appreciate the thermal performance from the collector to the air in solar air heater ducts, for numerous applications such as space-heating, crop-drying, and seasoning of timber industrial purpose. In this paper, the tentative inquiry on thermal enactment using new-fangled of three-sided roughened quadrilateral duct solar air heater having an alignment of multiple-v and transverse wire is performed and compared the outcomes with smooth duct air heater under similar operational circumstances. The modification of an arrangement and operational constraints is inspected within the restrictions, the moral of four-sided duct aspect ratio (W/H) = 8, the Reynolds number occupied from 3000 to 12,000, fraction of pitch to roughness height, P/e in the range of 10–25; ratio of roughness height to hydraulic diameter, e/D in the range of 0.018–0.042; at flow attack angle, α = 60 deg for constant moral of relative roughness width, (W/w) = 6. The augmentation on thermal efficiency in three-sided rugged duct is found to be 23–86% when compared to smooth duct, and the maximum thermal efficiency can occur at P/e = 10 and e/D = 0.042. The enhancement in air temperature flowing under three-sided roughened duct is found to be 49.27% more than that of a smooth duct. The instant innovative form of three-sided roughened solar air warmer would be preferable to those of a smooth solar air heater with respect to heat assignment.

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CFD Analysis on Rectangular Shaped Variable Height Turbulators Fitted in a Solar Air Heater for Improved Thermal Performance

International Review on Modelling and Simulations (IREMOS) ◽

10.15866/iremos.v14i3.19939 ◽

2021 ◽

Vol 14 (3) ◽

pp. 204

Author(s):

H. S. Arunkumar ◽

K. Vasudeva Karanth ◽

N. Yagnesh Sharma ◽

N. Madhwesh

Keyword(s):

Thermal Performance ◽

Solar Air Heater ◽

Cfd Analysis ◽

Air Heater

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CFD Analysis to Study Effect of Circular Vortex Generator Placed in Inlet Section to Investigate Heat Transfer Aspects of Solar Air Heater

The Scientific World JOURNAL ◽

10.1155/2014/567257 ◽

2014 ◽

Vol 2014 ◽

pp. 1-11 ◽

Cited By ~ 9

Author(s):

Vipin B. Gawande ◽

A. S. Dhoble ◽

D. B. Zodpe

Keyword(s):

Heat Transfer ◽

Nusselt Number ◽

Friction Factor ◽

Vortex Generator ◽

Inlet Section ◽

Solar Air Heater ◽

Cfd Analysis ◽

Absorber Plate ◽

Air Heater ◽

Relative Roughness

CFD analysis of 2-dimensional artificially roughened solar air heater duct with additional circular vortex generator, inserted in inlet section is carried out. Circular transverse ribs on the absorber plate are placed as usual. The analysis is done to investigate the effect of inserting additional vortex generator on the heat transfer and flow friction characteristics inside the solar air heater duct. This investigation covers relative roughness pitch in the range of 10 ≤P/e≤ 25 and relevant Reynolds numbers in the range of 3800 ≤ Re ≤ 18000. Relative roughness height (e/D) is kept constant as 0.03 for analysis. The turbulence created due to additional circular vortex generator increases the heat transfer rate and at the same time there is also increase in friction factor values. For combined arrangement of ribs and vortex generator, maximum Nusselt number is found to be 2.05 times that of the smooth duct. The enhancement in Nusselt number with ribs and additional vortex generator is found to be 1.06 times that of duct using ribs alone. The maximum increase in friction factor with ribs and circular vortex generator is found to be 2.91 times that of the smooth duct. Friction factor in a combined arrangement is 1.114 times that in a duct with ribs alone on the absorber plate. The augmentation in Thermal Enhancement Factor (TEF) with vortex generator in inlet section is found to be 1.06 times more than with circular ribs alone on the absorber plate.

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