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Techno-economic analysis of a novel solar-driven PEMEC-SOFC-based multi-generation system coupled parabolic trough photovoltaic thermal collector and thermal energy storage

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  • Zheng, Nan
  • Zhang, Hanfei
  • Duan, Liqiang
  • Wang, Qiushi
  • Bischi, Aldo
  • Desideri, Umberto

Abstract

The present study proposes a novel multi-generation system with a solar-driven proton exchange membrane electrolysis cell, and a solid-oxide fuel cell coupled with a parabolic trough photovoltaic thermal collector and thermal energy storage. Surplus solar electricity is stored as high-pressure green hydrogen, and then a hydrogen-fueled solid-oxide fuel cell is employed to meet the electricity demand at night. The solar heat and other waste heat are stored in a thermal energy storage unit and then utilized to produce cooling/heating and domestic hot water. Multicriteria analyses of thermodynamic and economic performances are conducted to evaluate the techno-economic feasibility of the system, and the characteristics under variable operating conditions are also investigated. The results illustrate that the energy efficiency and exergy efficiency of the parabolic trough photovoltaic thermal collector may reach 80.7 % and 33.8 %, respectively, and the solar electricity of the parabolic trough photovoltaic thermal collector is continuously supplied to the user for 14 h and 9 h under typical cooling mode and heating mode, respectively. The net present value, simple payback period, and dynamic payback period reach 45.78 M$, 9.11 years, and 11.55 years, respectively. The internal rate of return of 9.96 % is higher than the interest rate by 4.96 percentage points, and the levelized cost of the product of the proposed hybrid system of 0.0540 $/kWh shows the excellent economic superiority.

Suggested Citation

  • Zheng, Nan & Zhang, Hanfei & Duan, Liqiang & Wang, Qiushi & Bischi, Aldo & Desideri, Umberto, 2023. "Techno-economic analysis of a novel solar-driven PEMEC-SOFC-based multi-generation system coupled parabolic trough photovoltaic thermal collector and thermal energy storage," Applied Energy, Elsevier, vol. 331(C).
    • Handle: RePEc:eee:appene:v:331:y:2023:i:c:s0306261922016579
    DOI: 10.1016/j.apenergy.2022.120400
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    Cited by:

    1. Razmi, Amir Reza & Hanifi, Amir Reza & Shahbakhti, Mahdi, 2023. "Design, thermodynamic, and economic analyses of a green hydrogen storage concept based on solid oxide electrolyzer/fuel cells and heliostat solar field," Renewable Energy, Elsevier, vol. 215(C).
    2. Mehrenjani, Javad Rezazadeh & Gharehghani, Ayat & Ahmadi, Samareh & Powell, Kody M., 2023. "Dynamic simulation of a triple-mode multi-generation system assisted by heat recovery and solar energy storage modules: Techno-economic optimization using machine learning approaches," Applied Energy, Elsevier, vol. 348(C).
    3. Zheng, Nan & Zhang, Hanfei & Duan, Liqiang & Wang, Xiaomeng & Wang, Qiushi & Liu, Luyao, 2023. "Multi-criteria performance analysis and optimization of a solar-driven CCHP system based on PEMWE, SOFC, TES, and novel PVT for hotel and office buildings," Renewable Energy, Elsevier, vol. 206(C), pages 1249-1264.
    4. Zheng, Nan & Zhang, Hanfei & Duan, Liqiang & Wang, Qiushi, 2023. "Comprehensive sustainability assessment of a novel solar-driven PEMEC-SOFC-based combined cooling, heating, power, and storage (CCHPS) system based on life cycle method," Energy, Elsevier, vol. 265(C).

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