Enhancing Power and Thermal Gradient of Solar Photovoltaic Panels with Torched Fly-Ash Tiles for Greener Buildings DOI Open Access

Mukilan Poyyamozhi,

Balasubramanian Murugesan,

R. Narayanamoorthi

et al.

Sustainability, Journal Year: 2024, Volume and Issue: 16(18), P. 8172 - 8172

Published: Sept. 19, 2024

Solar photovoltaic (PV) panels that use polycrystalline silicon cells are a promising technique for producing renewable energy, although research on the cells’ efficiency and thermal control is still ongoing. This experimental aims to investigate novel way improve power output performance by combining solar PV with burned fly-ash tiles. Made from burning industrial waste, torched fly ash has special qualities make it useful architectural applications. These include better insulation, strengthened structural integrity, high energy efficiency. Our test setup shows when combined tiles, generation rises 7% surface temperature decreases 3% compared standard panels. The enhanced ascribed outstanding insulation properties of tiles their capacity panel temperature. To ensure longevity safety in building applications, employed this study had water absorption rate 5.37%, flexural strength 2.95 N/mm2, slip resistance at 38 km/h. Furthermore, we find improved resilience lower cooling costs up 30% sand floor replaced ash, which makes method especially appropriate sustainable buildings. Key indicators show how effective these maximizing buildings emissivity (0.874), reflectance (0.8), (0.256). While supporting more ecofriendly techniques, highlights advantages utilizing systems: comfort. main results open greater potential different materials. materials enhances integrity while lowering costs, making an ideal choice eco-friendly construction highlighting further into environmentally responsible, energy-efficient solutions.

Language: Английский

Enhancing Power and Thermal Gradient of Solar Photovoltaic Panels with Torched Fly-Ash Tiles for Greener Buildings DOI Open Access

Mukilan Poyyamozhi,

Balasubramanian Murugesan,

R. Narayanamoorthi

et al.

Sustainability, Journal Year: 2024, Volume and Issue: 16(18), P. 8172 - 8172

Published: Sept. 19, 2024

Solar photovoltaic (PV) panels that use polycrystalline silicon cells are a promising technique for producing renewable energy, although research on the cells’ efficiency and thermal control is still ongoing. This experimental aims to investigate novel way improve power output performance by combining solar PV with burned fly-ash tiles. Made from burning industrial waste, torched fly ash has special qualities make it useful architectural applications. These include better insulation, strengthened structural integrity, high energy efficiency. Our test setup shows when combined tiles, generation rises 7% surface temperature decreases 3% compared standard panels. The enhanced ascribed outstanding insulation properties of tiles their capacity panel temperature. To ensure longevity safety in building applications, employed this study had water absorption rate 5.37%, flexural strength 2.95 N/mm2, slip resistance at 38 km/h. Furthermore, we find improved resilience lower cooling costs up 30% sand floor replaced ash, which makes method especially appropriate sustainable buildings. Key indicators show how effective these maximizing buildings emissivity (0.874), reflectance (0.8), (0.256). While supporting more ecofriendly techniques, highlights advantages utilizing systems: comfort. main results open greater potential different materials. materials enhances integrity while lowering costs, making an ideal choice eco-friendly construction highlighting further into environmentally responsible, energy-efficient solutions.

Language: Английский

Citations

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