Kottayat Nidhul scite author profile

Several artificial roughness (ribs) configurations have been used in flat plate solar air heaters (SAH) in recent years to improve their overall performance. In the present work, energy and exergy analyses of rectangular ribs in a triangular duct SAH for varying relative rib heights (e/D = 0.02–0.04), relative rib pitches (P/e = 5–15), and rib aspect ratios (e/w = 0.5–4) are evaluated and compared with smooth SAH. The analysis reveals that the entropy generated due to heat transfer is lower for the ribbed triangular duct compared to the smooth duct. It is also observed that the width of the rib plays a crucial role in minimizing heat losses to the environment. A maximum reduction of 43% and 62% in exergy losses to the environment and exergy losses due to heat transfer to the fluid is achieved, respectively, with a rib aspect ratio (e/w) of 4 compared to the smooth plate. It is found that in contrast to the smooth plate, ribs beneath the absorber plate effectively improves thermal and exergetic efficiency. Maximum enhancement of 36% and 17% is obtained in exergetic efficiency (ηex) and thermal efficiency (ηth), respectively, for e/w = 4, P/e = 10 and e/D = 0.04. Results also show the superiority of the ribbed triangular duct over the ribbed rectangular duct for an application requiring compact SAH with a higher flowrate.

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Critical review of ribbed solar air heater and performance evaluation of various V-rib configuration

Nidhul

Yadav

Anish

et al. 2021

Renewable and Sustainable Energy Reviews

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Kottayat Nidhul

Enhanced thermo-hydraulic performance in a V-ribbed triangular duct solar air heater: CFD and exergy analysis

Efficient design of an artificially roughened solar air heater with semi-cylindrical side walls: CFD and exergy analysis

Thermo-hydraulic and exergetic performance of a cost-effective solar air heater: CFD and experimental study

Influence of Rectangular Ribs on Exergetic Performance in a Triangular Duct Solar Air Heater

Critical review of ribbed solar air heater and performance evaluation of various V-rib configuration

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