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Polygeneration in desalination by photovoltaic thermal systems: A comprehensive review

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  • Giwa, Adewale
  • Yusuf, Ahmed
  • Dindi, Abdallah
  • Balogun, Hammed Abiodun

Abstract

The progress in the production of desalinated water and other products such as electric power, cooling water/air, and heat from photovoltaic thermal (PV-T) and concentrated photovoltaic thermal (CPV-T) systems, often referred to as “polygeneration”, is reviewed in this paper. This review paper discusses the application of PV-T and CPV-T energy for desalination approaches such as humidification dehumidification (HDH), multi-effect distillation (MED), reverse osmosis (RO), solar stills, membrane distillation (MD), and mechanical vacuum compression (MVC). Current methods for assessing the economic viability of PV-T and CPV-T polygeneration systems, including the estimation of installation and balance-of-system cost, price per peak power, feed-in-tariff, and energy pay-back period are discussed. Full-scale and commercial PV-T and CPV-T systems applicable in desalination processes are also reviewed. Research and development activities on polygeneration PV-T and CPV-T systems have continued to improve. However, research on optimum generation of co-products from these systems needs to be intensified in order to ensure widespread practical application. Polygeneration from PV-T systems integrated with desalination have been shown to provide higher efficiencies in grid-connected or stand-alone applications than the single-product systems. For much higher efficiencies, the incorporation of nanofluids as the heat transfer medium and the use of absorbers that are less than 50% covered by PV module have been recommended. On the economic side, the installation costs of PV-T systems are still higher than those of their PV counterparts but PV-T systems provide less environmental impacts and cost reduction in the long run.

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  • Giwa, Adewale & Yusuf, Ahmed & Dindi, Abdallah & Balogun, Hammed Abiodun, 2020. "Polygeneration in desalination by photovoltaic thermal systems: A comprehensive review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 130(C).
    • Handle: RePEc:eee:rensus:v:130:y:2020:i:c:s1364032120302379
    DOI: 10.1016/j.rser.2020.109946
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    Cited by:

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    2. Maksymilian Homa & Anna Pałac & Maciej Żołądek & Rafał Figaj, 2022. "Small-Scale Hybrid and Polygeneration Renewable Energy Systems: Energy Generation and Storage Technologies, Applications, and Analysis Methodology," Energies, MDPI, vol. 15(23), pages 1-52, December.
    3. Gan Huang & Jingyuan Xu & Christos N. Markides, 2023. "High-efficiency bio-inspired hybrid multi-generation photovoltaic leaf," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    4. Noorbakhsh, Hosein & Khoshgoftar Manesh, Mohamad Hasan & Amidpour, Majid, 2023. "Evaluation of an innovative polygeneration system based on integration of gasification process with a thermo electric generator- solid oxide fuel cell - Adsorption desalination system - Thermal photov," Energy, Elsevier, vol. 282(C).
    5. Khanmohammdi, Shoaib & Musharavati, Farayi & Sheykhmohammadi, Mehran, 2022. "Energy and exergy examinations of a PVT based hybrid system for power, heating and potable water production: Transient modeling," Renewable Energy, Elsevier, vol. 195(C), pages 540-553.

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