An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments
Building Applied Photovoltaic (BAPV) systems play a crucial role in developing renewable energy-generating architecture, particularly in urban settings. The BAPV arrays are designed considering the roof area and other installation factors to meet the building's energy demand or contribute to th...
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my.uniten.dspace-361242025-03-03T15:41:25Z An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments Ranjan Satpathy P. Ramachandaramurthy V.K. Roslan M.F. Motahhir S. 57195339278 6602912020 57220188085 57189293481 Adaptive architecture Building applied photovoltaics Building-applied photovoltaic Energy yields Mismatch loss Partial shading Photovoltaic arrays Photovoltaic systems Power enhancement Sensitive buildings Building Applied Photovoltaic (BAPV) systems play a crucial role in developing renewable energy-generating architecture, particularly in urban settings. The BAPV arrays are designed considering the roof area and other installation factors to meet the building's energy demand or contribute to the grid. However, the BAPV array encounters a significant challenge of partial shading by nearby trees or buildings that substantially reduce the generation efficiency. This paper proposes an energy yield enhancement solution for the BAPV system, focusing on the electrical reconfiguration of the arrays during partial shading. The solution, which employs a streamlined architecture with lower switches integrated with the dingo algorithm, ensures fast and reliable operation during dynamic shading scenarios. The solution's efficiency is demonstrated in simulation using a BAPV system, considering real-time partial shading caused by neighbouring objects at different times of the day, considering the sun's movement, and comparing it with existing techniques. The results show that the solution can yield 28.79 % and 15.53 % higher power than the conventional and existing techniques, with an average convergence rate and voltage standard deviation of 0.057 s and 1.26 %, respectively, thereby proving its superiority. ? 2024 Elsevier B.V. Final 2025-03-03T07:41:25Z 2025-03-03T07:41:25Z 2024 Article 10.1016/j.enbuild.2024.114877 2-s2.0-85205930214 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85205930214&doi=10.1016%2fj.enbuild.2024.114877&partnerID=40&md5=a476d478f3c6fe94e397be908f505ed3 https://irepository.uniten.edu.my/handle/123456789/36124 324 114877 Elsevier Ltd Scopus |
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Adaptive architecture Building applied photovoltaics Building-applied photovoltaic Energy yields Mismatch loss Partial shading Photovoltaic arrays Photovoltaic systems Power enhancement Sensitive buildings |
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Adaptive architecture Building applied photovoltaics Building-applied photovoltaic Energy yields Mismatch loss Partial shading Photovoltaic arrays Photovoltaic systems Power enhancement Sensitive buildings Ranjan Satpathy P. Ramachandaramurthy V.K. Roslan M.F. Motahhir S. An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
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Building Applied Photovoltaic (BAPV) systems play a crucial role in developing renewable energy-generating architecture, particularly in urban settings. The BAPV arrays are designed considering the roof area and other installation factors to meet the building's energy demand or contribute to the grid. However, the BAPV array encounters a significant challenge of partial shading by nearby trees or buildings that substantially reduce the generation efficiency. This paper proposes an energy yield enhancement solution for the BAPV system, focusing on the electrical reconfiguration of the arrays during partial shading. The solution, which employs a streamlined architecture with lower switches integrated with the dingo algorithm, ensures fast and reliable operation during dynamic shading scenarios. The solution's efficiency is demonstrated in simulation using a BAPV system, considering real-time partial shading caused by neighbouring objects at different times of the day, considering the sun's movement, and comparing it with existing techniques. The results show that the solution can yield 28.79 % and 15.53 % higher power than the conventional and existing techniques, with an average convergence rate and voltage standard deviation of 0.057 s and 1.26 %, respectively, thereby proving its superiority. ? 2024 Elsevier B.V. |
| author2 |
57195339278 |
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57195339278 Ranjan Satpathy P. Ramachandaramurthy V.K. Roslan M.F. Motahhir S. |
| format |
Article |
| author |
Ranjan Satpathy P. Ramachandaramurthy V.K. Roslan M.F. Motahhir S. |
| author_sort |
Ranjan Satpathy P. |
| title |
An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
| title_short |
An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
| title_full |
An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
| title_fullStr |
An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
| title_full_unstemmed |
An adaptive architecture for strategic Enhancement of energy yield in shading sensitive Building-Applied Photovoltaic systems under Real-Time environments |
| title_sort |
adaptive architecture for strategic enhancement of energy yield in shading sensitive building-applied photovoltaic systems under real-time environments |
| publisher |
Elsevier Ltd |
| publishDate |
2025 |
| _version_ |
1825816163457695744 |
| score |
13.244413 |