Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation
Thermophotovoltaic (TPV) technology harvests electricity from a source of thermal radiation and at current, TPV cells can achieve conversion efficiency of more than 40%. The construct of the TPV system is relatively complex than the conventional solar cell in which the TPV has two critical component...
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my.uniten.dspace-340602024-10-14T11:17:49Z Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation Khairul Azri A.A. Mohd Jasni M.S. Wan Muhamad Hatta S.F. Islam M.A. Abdul Wahab Y. Mekhilef S. Ker P.J. 58294307100 57368165200 35184383500 58806853000 57203353903 57928298500 37461740800 Absorber Emitter Metamaterial Nanoparticle Thermophotovoltaic Conversion efficiency Solar cells Textures 'current Absorber And filters Critical component Emitter Performance Power- generations Thermophotovoltaic systems Thermophotovoltaics Thermophotovoltaics cells energy efficiency fuel cell instrumentation nanoparticle performance assessment photovoltaic system power generation technological development Nanoparticles Thermophotovoltaic (TPV) technology harvests electricity from a source of thermal radiation and at current, TPV cells can achieve conversion efficiency of more than 40%. The construct of the TPV system is relatively complex than the conventional solar cell in which the TPV has two critical components, specifically the absorber-emitter and filters, to help in enhancing the transfer of photons to the TPV cell for conversion. Despite its importance, works on the optimization of these components for an ideal TPV system are still lacking. This review examines previous studies on the TPV structure, and details extensive techniques to improve current designs of the TPV systems - notably through the use of textured absorbers, selective emitters and different types of filters. Inevitably, the selection of materials and designs of the absorber-emitter are essential in enhancing the TPV performance. Herein, challenges and enhancements in the form of optical performance, thermal stability, and electrical performance are comprehensively discussed. This review identifies the crucial role of nanoparticles incorporated into the absorber-emitter layer of a TPV system. This review also critically highlights technology advancements incorporated into the TPV technology which will effectively boost performance and improve the fabrication and operational costs of this sustainable technology. � 2023 International Solar Energy Society Final 2024-10-14T03:17:49Z 2024-10-14T03:17:49Z 2023 Review 10.1016/j.solener.2023.05.018 2-s2.0-85160545548 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85160545548&doi=10.1016%2fj.solener.2023.05.018&partnerID=40&md5=a9cdb1797735cadd92dc70de0d6f7c39 https://irepository.uniten.edu.my/handle/123456789/34060 259 279 297 Elsevier Ltd Scopus |
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Absorber Emitter Metamaterial Nanoparticle Thermophotovoltaic Conversion efficiency Solar cells Textures 'current Absorber And filters Critical component Emitter Performance Power- generations Thermophotovoltaic systems Thermophotovoltaics Thermophotovoltaics cells energy efficiency fuel cell instrumentation nanoparticle performance assessment photovoltaic system power generation technological development Nanoparticles |
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Absorber Emitter Metamaterial Nanoparticle Thermophotovoltaic Conversion efficiency Solar cells Textures 'current Absorber And filters Critical component Emitter Performance Power- generations Thermophotovoltaic systems Thermophotovoltaics Thermophotovoltaics cells energy efficiency fuel cell instrumentation nanoparticle performance assessment photovoltaic system power generation technological development Nanoparticles Khairul Azri A.A. Mohd Jasni M.S. Wan Muhamad Hatta S.F. Islam M.A. Abdul Wahab Y. Mekhilef S. Ker P.J. Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
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Thermophotovoltaic (TPV) technology harvests electricity from a source of thermal radiation and at current, TPV cells can achieve conversion efficiency of more than 40%. The construct of the TPV system is relatively complex than the conventional solar cell in which the TPV has two critical components, specifically the absorber-emitter and filters, to help in enhancing the transfer of photons to the TPV cell for conversion. Despite its importance, works on the optimization of these components for an ideal TPV system are still lacking. This review examines previous studies on the TPV structure, and details extensive techniques to improve current designs of the TPV systems - notably through the use of textured absorbers, selective emitters and different types of filters. Inevitably, the selection of materials and designs of the absorber-emitter are essential in enhancing the TPV performance. Herein, challenges and enhancements in the form of optical performance, thermal stability, and electrical performance are comprehensively discussed. This review identifies the crucial role of nanoparticles incorporated into the absorber-emitter layer of a TPV system. This review also critically highlights technology advancements incorporated into the TPV technology which will effectively boost performance and improve the fabrication and operational costs of this sustainable technology. � 2023 International Solar Energy Society |
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58294307100 |
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58294307100 Khairul Azri A.A. Mohd Jasni M.S. Wan Muhamad Hatta S.F. Islam M.A. Abdul Wahab Y. Mekhilef S. Ker P.J. |
format |
Review |
author |
Khairul Azri A.A. Mohd Jasni M.S. Wan Muhamad Hatta S.F. Islam M.A. Abdul Wahab Y. Mekhilef S. Ker P.J. |
author_sort |
Khairul Azri A.A. |
title |
Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
title_short |
Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
title_full |
Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
title_fullStr |
Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
title_full_unstemmed |
Advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
title_sort |
advancement in thermophotovoltaic technology and nanoparticle incorporation for power generation |
publisher |
Elsevier Ltd |
publishDate |
2024 |
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1814061102377467904 |
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13.214268 |