Thermoelectric Energy Harvesting from the Roof and Attics of a Building
Globally people are faced with difficulties in environmental pollution, increasing power costs, and global warming. As such researchers are focusing on enhancing energyharvesting using thermoelectric generators for power generation to lessen the difficulties. Through the Seebeck effect, thermoelectr...
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2024
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my.uthm.eprints.119822025-01-21T00:46:47Z http://eprints.uthm.edu.my/11982/ Thermoelectric Energy Harvesting from the Roof and Attics of a Building Abubakar, Saleh Umar Jumaat, Siti Amely Yakubu, Babangida Haruna, Yau Shuaibu Abdulrahman, Suleiman TJ Mechanical engineering and machinery Globally people are faced with difficulties in environmental pollution, increasing power costs, and global warming. As such researchers are focusing on enhancing energyharvesting using thermoelectric generators for power generation to lessen the difficulties. Through the Seebeck effect, thermoelectric generators (TEGs) have proven their ability to convert thermal energy into electric power. Given the unique benefits they present, thermoelectric generators have arisen in the recent decade as a possible alternative to other green power generation technologies. A thermoelectric generator (TEG) is a solid-state device that converts thermal energy into electrical energy. TEG consists of elements of p and n-type semiconductors, connected thermally in parallel and electrically in series. In this paper, one hundred and ninety-two thermoelectric generators connected in series and parallel were used to investigate the thermal energy potential at the roof and attic area for domestic application for 20 days from the falling solar radiation on a residential prototype in Bashar, Wase Local government area of Plateau State. A theoretical analysis was used in determining the average output power (P) due to the delta T across the thermoelectric generator module junction. The load resistance value of the thermoelectric generator configuration was evaluated. The results show that the TEG generated power output ranging from 217 mW to 1.99 W throughout the day, 5.97 mW to 13.8 mW in the morning, and 6.8 mW to 36.9 mW in the evening. Furthermore, The finding also reveals that the attic side has the capacity to store thermal energy, which can be harnessed owing to the fast heat transfer to the surroundings during the convection process. In conclusion, solar irradiance has a major impact on the system. semarak ilmu 2024 Article PeerReviewed text en http://eprints.uthm.edu.my/11982/1/J17622_6da23331d041fc653ddd1a3906d6e60f.pdf Abubakar, Saleh Umar and Jumaat, Siti Amely and Yakubu, Babangida and Haruna, Yau Shuaibu and Abdulrahman, Suleiman (2024) Thermoelectric Energy Harvesting from the Roof and Attics of a Building. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 115 (2). pp. 83-95. ISSN 2289-7879 https://doi.org/10.37934/arfmts.115.2.8395 |
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TJ Mechanical engineering and machinery Abubakar, Saleh Umar Jumaat, Siti Amely Yakubu, Babangida Haruna, Yau Shuaibu Abdulrahman, Suleiman Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| description |
Globally people are faced with difficulties in environmental pollution, increasing power costs, and global warming. As such researchers are focusing on enhancing energyharvesting using thermoelectric generators for power generation to lessen the difficulties. Through the Seebeck effect, thermoelectric generators (TEGs) have proven their ability to convert thermal energy into electric power. Given the unique benefits they present, thermoelectric generators have arisen in the recent decade as a possible alternative to other green power generation technologies. A thermoelectric generator (TEG) is a solid-state device that converts thermal energy into electrical energy. TEG consists of elements of p and n-type semiconductors, connected thermally in parallel
and electrically in series. In this paper, one hundred and ninety-two thermoelectric generators connected in series and parallel were used to investigate the thermal energy
potential at the roof and attic area for domestic application for 20 days from the falling solar radiation on a residential prototype in Bashar, Wase Local government area of Plateau State. A theoretical analysis was used in determining the average output power (P) due to the delta T across the thermoelectric generator module junction. The load resistance value of the thermoelectric generator configuration was evaluated. The results show that the TEG generated power output ranging from 217 mW to 1.99 W
throughout the day, 5.97 mW to 13.8 mW in the morning, and 6.8 mW to 36.9 mW in the evening. Furthermore, The finding also reveals that the attic side has the capacity to store thermal energy, which can be harnessed owing to the fast heat transfer to the surroundings during the convection process. In conclusion, solar irradiance has a major
impact on the system. |
| format |
Article |
| author |
Abubakar, Saleh Umar Jumaat, Siti Amely Yakubu, Babangida Haruna, Yau Shuaibu Abdulrahman, Suleiman |
| author_facet |
Abubakar, Saleh Umar Jumaat, Siti Amely Yakubu, Babangida Haruna, Yau Shuaibu Abdulrahman, Suleiman |
| author_sort |
Abubakar, Saleh Umar |
| title |
Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| title_short |
Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| title_full |
Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| title_fullStr |
Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| title_full_unstemmed |
Thermoelectric Energy Harvesting from the Roof and Attics of a Building |
| title_sort |
thermoelectric energy harvesting from the roof and attics of a building |
| publisher |
semarak ilmu |
| publishDate |
2024 |
| url |
http://eprints.uthm.edu.my/11982/1/J17622_6da23331d041fc653ddd1a3906d6e60f.pdf http://eprints.uthm.edu.my/11982/ https://doi.org/10.37934/arfmts.115.2.8395 |
| _version_ |
1823094297749094400 |
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13.235796 |