An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development

In this article, the photovoltaic thermal collector (PVT) have designed and fabricated using nanoparticle nanofluid. The cause of this is to check out the effect of using water and water-based totally graphene nanoplatelets at an awareness of 0.05 wt% on the performance of PVT structures. Outdoor as...

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Autores principales: Srinivasulu Gundala, M. Mahaboob Basha, V. Madhurima, N. Praveena, S. Venkatesh Kumar
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Lenguaje:EN
Publicado: Hindawi Limited 2021
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Acceso en línea:https://doaj.org/article/a693119b002944f69516f69c7de50687
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spelling oai:doaj.org-article:a693119b002944f69516f69c7de506872021-11-08T02:36:51ZAn Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development1687-412910.1155/2021/6946540https://doaj.org/article/a693119b002944f69516f69c7de506872021-01-01T00:00:00Zhttp://dx.doi.org/10.1155/2021/6946540https://doaj.org/toc/1687-4129In this article, the photovoltaic thermal collector (PVT) have designed and fabricated using nanoparticle nanofluid. The cause of this is to check out the effect of using water and water-based totally graphene nanoplatelets at an awareness of 0.05 wt% on the performance of PVT structures. Outdoor assessments have been performed at quantity along with the float prices of 0.5 L/min and 1.0 L/min for the aforementioned nanofluids, respectively, using water as a reference fluid. The results that have been analyzed from an active angle confirmed and determined that, graphene water nanofluid achieved higher in phrases of photovoltaic active conversion, than water that might generate the first-class thermal performance sooner or later of the peak period of sun radiation and high mobile temperature. The inclusion of water in the PVT collector increases average daily electrical efficiency by 7.8%, and 8.5%at flow rates of 0.5 LPM and 1.0 LPM, respectively. Furthermore, using water in the PVT collector increases average daily thermal efficiency by 24.9%, and 26.3%at flow rates of 0.5 LPM and 1.0 LPM, respectively.Srinivasulu GundalaM. Mahaboob BashaV. MadhurimaN. PraveenaS. Venkatesh KumarHindawi LimitedarticleTechnology (General)T1-995ENJournal of Nanomaterials, Vol 2021 (2021)
institution DOAJ
collection DOAJ
language EN
topic Technology (General)
T1-995
spellingShingle Technology (General)
T1-995
Srinivasulu Gundala
M. Mahaboob Basha
V. Madhurima
N. Praveena
S. Venkatesh Kumar
An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
description In this article, the photovoltaic thermal collector (PVT) have designed and fabricated using nanoparticle nanofluid. The cause of this is to check out the effect of using water and water-based totally graphene nanoplatelets at an awareness of 0.05 wt% on the performance of PVT structures. Outdoor assessments have been performed at quantity along with the float prices of 0.5 L/min and 1.0 L/min for the aforementioned nanofluids, respectively, using water as a reference fluid. The results that have been analyzed from an active angle confirmed and determined that, graphene water nanofluid achieved higher in phrases of photovoltaic active conversion, than water that might generate the first-class thermal performance sooner or later of the peak period of sun radiation and high mobile temperature. The inclusion of water in the PVT collector increases average daily electrical efficiency by 7.8%, and 8.5%at flow rates of 0.5 LPM and 1.0 LPM, respectively. Furthermore, using water in the PVT collector increases average daily thermal efficiency by 24.9%, and 26.3%at flow rates of 0.5 LPM and 1.0 LPM, respectively.
format article
author Srinivasulu Gundala
M. Mahaboob Basha
V. Madhurima
N. Praveena
S. Venkatesh Kumar
author_facet Srinivasulu Gundala
M. Mahaboob Basha
V. Madhurima
N. Praveena
S. Venkatesh Kumar
author_sort Srinivasulu Gundala
title An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
title_short An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
title_full An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
title_fullStr An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
title_full_unstemmed An Experimental Performance on Solar Photovoltaic Thermal Collector with Nanofluids for Sustainable Development
title_sort experimental performance on solar photovoltaic thermal collector with nanofluids for sustainable development
publisher Hindawi Limited
publishDate 2021
url https://doaj.org/article/a693119b002944f69516f69c7de50687
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