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Fluid selection of Organic Rankine Cycle for low-temperature waste heat recovery based on thermal optimization

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  • Cataldo, Filippo
  • Mastrullo, Rita
  • Mauro, Alfonso William
  • Vanoli, Giuseppe Peter

Abstract

The purpose of the present paper is to propose a methodology for the fluid selection of an Organic Rankine Cycle for low-temperature waste heat recovery. The selection of an optimal working fluid is carried out by an optimization process, using the Genetic Algorithm. Three decision variables are considered: the working fluid, the evaporation temperature and the condensation temperature. These variables are subjected to some constraints that take into account the good operation of the heat exchangers and the expander. The defect of efficiency and the total heat exchange area per unit of power output are selected as the objective functions to be minimized. The heat recovery is made possible by a hot water source, which assumes inlet temperatures of 100 °C and 150 °C. The water mass flow rate is fixed to 1.0 kg/s. The results show that fluids with low value of critical temperature, like Novec649, RE347mcc, R245fa, optimize the defect of efficiency, whilst, in order to minimize the total heat exchange area per unit of power output, fluids with high value of thermal conductivity and latent heat of vaporization must be selected. This work offers a tool to selected an optimal working fluid, among all possible candidates, for this type of applications.

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  • Cataldo, Filippo & Mastrullo, Rita & Mauro, Alfonso William & Vanoli, Giuseppe Peter, 2014. "Fluid selection of Organic Rankine Cycle for low-temperature waste heat recovery based on thermal optimization," Energy, Elsevier, vol. 72(C), pages 159-167.
    • Handle: RePEc:eee:energy:v:72:y:2014:i:c:p:159-167
    DOI: 10.1016/j.energy.2014.05.019
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    15. Chang, Huawei & Wan, Zhongmin & Zheng, Yao & Chen, Xi & Shu, Shuiming & Tu, Zhengkai & Chan, Siew Hwa & Chen, Rui & Wang, Xiaodong, 2017. "Energy- and exergy-based working fluid selection and performance analysis of a high-temperature PEMFC-based micro combined cooling heating and power system," Applied Energy, Elsevier, vol. 204(C), pages 446-458.
    16. Wang, Enhua & Zhang, Hongguang & Fan, Boyuan & Ouyang, Minggao & Yang, Kai & Yang, Fuyuan & Li, Xiaojuan & Wang, Zhen, 2015. "3D numerical analysis of exhaust flow inside a fin-and-tube evaporator used in engine waste heat recovery," Energy, Elsevier, vol. 82(C), pages 800-812.
    17. Li, Pengcheng & Ye, Jing & Li, Jing & Wang, Yandong & Jiang, Xiaobin & Qian, Tongle & Pei, Gang & Liu, Xunfen, 2023. "Thermodynamic and techno-economic analysis of a direct thermal oil vaporization solar power system," Energy, Elsevier, vol. 282(C).
    18. Dokl, Monika & Gomilšek, Rok & Čuček, Lidija & Abikoye, Ben & Kravanja, Zdravko, 2022. "Maximizing the power output and net present value of organic Rankine cycle: Application to aluminium industry," Energy, Elsevier, vol. 239(PE).
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    20. Xu, Heng & Gao, Naiping & Zhu, Tong, 2016. "Investigation on the fluid selection and evaporation parametric optimization for sub- and supercritical organic Rankine cycle," Energy, Elsevier, vol. 96(C), pages 59-68.
    21. Brignoli, Riccardo & Brown, J. Steven, 2015. "Organic Rankine cycle model for well-described and not-so-well-described working fluids," Energy, Elsevier, vol. 86(C), pages 93-104.
    22. Boukelia, T.E. & Arslan, O. & Djimli, S. & Kabar, Y., 2023. "ORC fluids selection for a bottoming binary geothermal power plant integrated with a CSP plant," Energy, Elsevier, vol. 265(C).
    23. Y., Nandakishora & Sahoo, Ranjit K. & S., Murugan & Gu, Sai, 2023. "4E analysis of the cryogenic CO2 separation process integrated with waste heat recovery," Energy, Elsevier, vol. 278(PA).

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