Thermal Performance Factor of Impinging Jet‐Angled Corrugated Solar Air Heaters

Solar energy is a clean and sustainable source of power generation. There are various industrial and domestic applications of Solar Air Heaters (SAHs), but their low thermal efficiency poses a challenge. To improve thermal efficiency, a novel‐angled corrugated jet‐impinging channel has been proposed...

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Veröffentlicht in:Energy technology (Weinheim, Germany) Germany), 2024-05, Vol.12 (5), p.n/a
Hauptverfasser: Raheem, Aneeq, Siddique, Waseem, Waheed, Khalid, Aziz, Imran, Javed, Irfan, Qureshi, Kamran, Zaki, Muhammad, Raheem, Muhammad Tabish, Yaseen, Muhammad Muneeb
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Sprache:eng
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Zusammenfassung:Solar energy is a clean and sustainable source of power generation. There are various industrial and domestic applications of Solar Air Heaters (SAHs), but their low thermal efficiency poses a challenge. To improve thermal efficiency, a novel‐angled corrugated jet‐impinging channel has been proposed for the absorbing plate of SAHs. A numerical study has been performed for four different arrangements of jets, i.e., single circular, single square, 2 × 2 square, and 3 × 3 square jet array with four channels, i.e., 30°, 45°, 60°, and 90° corrugated over the Reynolds number range of 1600–2700 for the jet to target plate range of 4.9–15. It is observed that multiple jets impinging increases the heat transfer significantly. The optimization has been performed by instigating the parametric study. Flow and thermal profiles are studied. The 45° corrugated target plate with 3 × 3 multiple jet impingement, 4.9 jet‐to‐target plate distance, and 2700 Reynolds number is chosen to have the best thermal efficiency. A Thermal Performance Factor of around 8 was achieved as compared to the base case. Solar air heaters (SAHs) are one the common applications of solar energy but they have generally low efficiency. To increase their efficiency, a novel impinging‐corrugated SAH is proposed and numerically investigated over a range of Reynolds numbers, jet‐to‐target plate distance, corrugation angle, and various jet profiles. These promising designs will effectually modify the traditional tendencies in renewable energy.
ISSN:2194-4288
2194-4296
DOI:10.1002/ente.202301140