Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design
The most popular renewable energy source is solar energy, which characterises as free, clean, and environ-mentally friendly. Photovoltaics (PV) generate electricity from daylight, becoming increasingly popular in res-idential and other applications. The potential energy delivery from a photovoltaic...
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my.um.eprints.462252024-08-05T08:00:55Z http://eprints.um.edu.my/46225/ Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design Rao, V. Tirupati Sekhar, Y. Raja Pandey, A. K. Said, Zafar Prasad, D. M. Reddy Hossain, M. S. Selvaraj, Jeyraj TP Chemical technology The most popular renewable energy source is solar energy, which characterises as free, clean, and environ-mentally friendly. Photovoltaics (PV) generate electricity from daylight, becoming increasingly popular in res-idential and other applications. The potential energy delivery from a photovoltaic module is a function of solar radiation falling on the front surface and module operating temperature. However, these systems are modified to improve energy generation by placing an absorber on the bottom side of the module termed a Photovoltaic Thermal (PVT) system to reduce module temperature. The current study aims to investigate the experimental heat transfer efficiency for the fabricated PVT system employing two-sided serpentine flow thermal absorber and phase change material (PCM). PCM discharge the latent heat during off-sunshine hours to provide additional hot water. The experiment setup was tested with water as a working fluid in the flow rate range of 0.0085-0.067 kg/ s. The optimal flow rate at which maximum heat gain of 757 W was obtained 0.033 kg/s with an average energy -saving efficiency of 69 %. The results confirm enhanced energy delivery of 3-5 % by PVT-PCM system compared to reference PV module for the same ambient operating conditions. Furthermore, the study reveals that overall efficiency of the PVT setup augment with the use of a thermal absorber and PCM, while the thermal efficiency is a factor that depends on the working fluid properties. Elsevier 2022-12-10 Article PeerReviewed Rao, V. Tirupati and Sekhar, Y. Raja and Pandey, A. K. and Said, Zafar and Prasad, D. M. Reddy and Hossain, M. S. and Selvaraj, Jeyraj (2022) Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design. Journal of Energy Storage, 56 (B). ISSN 2352-152X, DOI https://doi.org/10.1016/j.est.2022.105968 <https://doi.org/10.1016/j.est.2022.105968>. https://doi.org/10.1016/j.est.2022.105968 10.1016/j.est.2022.105968 |
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TP Chemical technology Rao, V. Tirupati Sekhar, Y. Raja Pandey, A. K. Said, Zafar Prasad, D. M. Reddy Hossain, M. S. Selvaraj, Jeyraj Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
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The most popular renewable energy source is solar energy, which characterises as free, clean, and environ-mentally friendly. Photovoltaics (PV) generate electricity from daylight, becoming increasingly popular in res-idential and other applications. The potential energy delivery from a photovoltaic module is a function of solar radiation falling on the front surface and module operating temperature. However, these systems are modified to improve energy generation by placing an absorber on the bottom side of the module termed a Photovoltaic Thermal (PVT) system to reduce module temperature. The current study aims to investigate the experimental heat transfer efficiency for the fabricated PVT system employing two-sided serpentine flow thermal absorber and phase change material (PCM). PCM discharge the latent heat during off-sunshine hours to provide additional hot water. The experiment setup was tested with water as a working fluid in the flow rate range of 0.0085-0.067 kg/ s. The optimal flow rate at which maximum heat gain of 757 W was obtained 0.033 kg/s with an average energy -saving efficiency of 69 %. The results confirm enhanced energy delivery of 3-5 % by PVT-PCM system compared to reference PV module for the same ambient operating conditions. Furthermore, the study reveals that overall efficiency of the PVT setup augment with the use of a thermal absorber and PCM, while the thermal efficiency is a factor that depends on the working fluid properties. |
format |
Article |
author |
Rao, V. Tirupati Sekhar, Y. Raja Pandey, A. K. Said, Zafar Prasad, D. M. Reddy Hossain, M. S. Selvaraj, Jeyraj |
author_facet |
Rao, V. Tirupati Sekhar, Y. Raja Pandey, A. K. Said, Zafar Prasad, D. M. Reddy Hossain, M. S. Selvaraj, Jeyraj |
author_sort |
Rao, V. Tirupati |
title |
Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
title_short |
Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
title_full |
Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
title_fullStr |
Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
title_full_unstemmed |
Thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
title_sort |
thermal analysis of hybrid photovoltaic-thermal water collector modified with latent heat thermal energy storage and two side serpentine absorber design |
publisher |
Elsevier |
publishDate |
2022 |
url |
http://eprints.um.edu.my/46225/ https://doi.org/10.1016/j.est.2022.105968 |
_version_ |
1806688800497205248 |