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Energetic and exergetic performance analyses of a solar energy-based integrated system for multigeneration including thermoelectric generators

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  • Islam, Shahid
  • Dincer, Ibrahim
  • Yilbas, Bekir Sami

Abstract

A novel solar based multigeneration system including thermoelectric generator is developed and analyzed energetically and exergetically. A unique cooling system of PV (photovoltaics) panels incorporating thermoelectric generator and cooler is developed to improve the efficiency. An exclusive integration of thermoelectric devices with multigeneration system is designed to increase the energy and exergy efficiency of overall system and hydrogen production. The heat rejected during the operation of thermoelectric devices is conserved through innovative design of fluid flow across the low and high temperature junctions. The operating conditions and their influence on energy and exergy efficiency of overall system and PV panels, and work done by thermoelectric devices are examined. The energy and exergy efficiencies of the PV panels and the overall system are improved significantly, after incorporating thermoelectric generation. The maximum work done by the thermoelectric generator and cooler is increased considerably, by increasing the temperature of solar heat transfer fluid. This proposed system appears to be superior to conventional thermoelectric generation-based systems.

Suggested Citation

  • Islam, Shahid & Dincer, Ibrahim & Yilbas, Bekir Sami, 2015. "Energetic and exergetic performance analyses of a solar energy-based integrated system for multigeneration including thermoelectric generators," Energy, Elsevier, vol. 93(P1), pages 1246-1258.
    • Handle: RePEc:eee:energy:v:93:y:2015:i:p1:p:1246-1258
    DOI: 10.1016/j.energy.2015.09.111
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    1. Suleman, F. & Dincer, I. & Agelin-Chaab, M., 2014. "Development of an integrated renewable energy system for multigeneration," Energy, Elsevier, vol. 78(C), pages 196-204.
    2. Madhawa Hettiarachchi, H.D. & Golubovic, Mihajlo & Worek, William M. & Ikegami, Yasuyuki, 2007. "Optimum design criteria for an Organic Rankine cycle using low-temperature geothermal heat sources," Energy, Elsevier, vol. 32(9), pages 1698-1706.
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    8. Praveen Kumar, G. & Ayou, Dereje S. & Narendran, C. & Saravanan, R. & Maiya, M.P. & Coronas, Alberto, 2023. "Renewable heat powered polygeneration system based on an advanced absorption cycle for rural communities," Energy, Elsevier, vol. 262(PA).
    9. Mohammadi, Kasra & Khanmohammadi, Saber & Khorasanizadeh, Hossein & Powell, Kody, 2020. "A comprehensive review of solar only and hybrid solar driven multigeneration systems: Classifications, benefits, design and prospective," Applied Energy, Elsevier, vol. 268(C).
    10. Modi, Anish & Bühler, Fabian & Andreasen, Jesper Graa & Haglind, Fredrik, 2017. "A review of solar energy based heat and power generation systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 67(C), pages 1047-1064.
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