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Thermophotovoltaics: Fundamentals, challenges and prospects

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  • Daneshvar, Hoofar
  • Prinja, Rajiv
  • Kherani, Nazir P.

Abstract

Thermophotovoltaics (TPV) is concerned with the application of photovoltaic diodes to harvest electricity from thermal radiation. This is achieved through the use of appropriately designed thermal emitters which are typically heated to temperatures of more than 800°C. Merits of thermophotovoltaics include the prospect of delivering high power density compared to solar photovoltaics, fuel versatility, portability and capability of around-the-clock operation. The key challenges en route to commercialization of TPV technology include low heat-to-electricity conversion efficiency, mechanical and thermostructural reliability at high temperatures, and cost. Recent advances which include the development of photonic crystal emitters, miniaturization of TPV systems, and improvement of rare earth oxide emitters have contributed to enhancing the performance of TPV systems. Further, current research on ultra-low bandgap photovoltaic materials, thin film monolithic system design, and global system optimization promise additional advances. This article presents an overview of the fundamental principles of thermophotovoltaics followed by a review of the development of all the main components comprising combustion thermophotovoltaic systems. This review also scrutinizes state-of-the-art developments, discusses the fundamental and technical challenges facing commercial adoption of TPV, and prospects of TPV.

Suggested Citation

  • Daneshvar, Hoofar & Prinja, Rajiv & Kherani, Nazir P., 2015. "Thermophotovoltaics: Fundamentals, challenges and prospects," Applied Energy, Elsevier, vol. 159(C), pages 560-575.
    • Handle: RePEc:eee:appene:v:159:y:2015:i:c:p:560-575
    DOI: 10.1016/j.apenergy.2015.08.064
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    14. Shan, Shiquan & Tian, Jialu & Chen, Binghong & Zhang, Yanwei & Zhou, Zhijun, 2023. "Theoretical and technical analysis of the photo-thermal energy cascade conversion for fuel with high-temperature combustion," Energy, Elsevier, vol. 263(PD).
    15. Li, Yueh-Heng & Hong, Jing-Ru, 2018. "Performance assessment of catalytic combustion-driven thermophotovoltaic platinum tubular reactor," Applied Energy, Elsevier, vol. 211(C), pages 843-853.
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    17. Chukwuma Ogbonnaya & Chamil Abeykoon & Adel Nasser & Ali Turan & Cyril Sunday Ume, 2021. "Prospects of Integrated Photovoltaic-Fuel Cell Systems in a Hydrogen Economy: A Comprehensive Review," Energies, MDPI, vol. 14(20), pages 1-33, October.
    18. Gentillon, Philippe & Southcott, Jake & Chan, Qing N. & Taylor, Robert A., 2018. "Stable flame limits for optimal radiant performance of porous media reactors for thermophotovoltaic applications using packed beds of alumina," Applied Energy, Elsevier, vol. 229(C), pages 736-744.
    19. Hussain, C.M. Iftekhar & Duffy, Aidan & Norton, Brian, 2020. "Thermophotovoltaic systems for achieving high-solar-fraction hybrid solar-biomass power generation," Applied Energy, Elsevier, vol. 259(C).
    20. Ni, Siliang & Zhao, Dan & Sellier, Mathieu & Li, Junwei & Chen, Xinjian & Li, Xinyan & Cao, Feng & Li, Weixuan, 2021. "Thermal performances and emitter efficiency improvement studies on premixed micro-combustors with different geometric shapes for thermophotovoltaics applications," Energy, Elsevier, vol. 226(C).

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