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Operation of an organic Rankine cycle dependent on pumping flow rates and expander torques

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  • Yang, Xufei
  • Xu, Jinliang
  • Miao, Zheng
  • Zou, Jinghuang
  • Yu, Chao

Abstract

An ORC (organic Rankine cycle) was developed with R123 as the working fluid. The heat capacity is in ∼100 kW. The match between pump and expander is investigated. Lower pump frequencies (f < 10 Hz) adapt the whole range of expander torques, yielding stable flow. Higher pump frequencies (f > 10 Hz) adapt low expander torques only, and cause unstable flow and pump cavitation for larger expander torques. Ultra-low expander torques generate sufficiently high vapor superheatings to decrease expander efficiencies. Ultra-high expander torques achieve saturation vapor at the expander inlet, causing liquid droplets induced shock wave to worsen expander performance. An optimal range of expander torques exists to have better expander performance. A liquid subcooling of 20 °C is necessary to avoid pump cavitation. Expander powers and efficiencies show parabola shapes versus expander torques, or vapor superheatings at the expander inlet. The optimal vapor superheating is 13 °C. The cavitation mechanisms and measures to avoid cavitation are analyzed. This paper notes the overestimation of ORC performance by equilibrium thermodynamic analysis. Assumptions should be dependent on experiments. Future studies are suggested on organic fluid flow, heat transfer and energy conversion in various components.

Suggested Citation

  • Yang, Xufei & Xu, Jinliang & Miao, Zheng & Zou, Jinghuang & Yu, Chao, 2015. "Operation of an organic Rankine cycle dependent on pumping flow rates and expander torques," Energy, Elsevier, vol. 90(P1), pages 864-878.
    • Handle: RePEc:eee:energy:v:90:y:2015:i:p1:p:864-878
    DOI: 10.1016/j.energy.2015.07.121
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    6. Yang, Xufei & Xu, Jinliang & Miao, Zheng & Zou, Jinghuang & Qi, Fengliang, 2016. "The definition of non-dimensional integration temperature difference and its effect on organic Rankine cycle," Applied Energy, Elsevier, vol. 167(C), pages 17-33.
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    11. Ziviani, D. & Gusev, S. & Lecompte, S. & Groll, E.A. & Braun, J.E. & Horton, W.T. & van den Broek, M. & De Paepe, M., 2017. "Optimizing the performance of small-scale organic Rankine cycle that utilizes a single-screw expander," Applied Energy, Elsevier, vol. 189(C), pages 416-432.
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    15. Imran, Muhammad & Usman, Muhammad & Park, Byung-Sik & Lee, Dong-Hyun, 2016. "Volumetric expanders for low grade heat and waste heat recovery applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 57(C), pages 1090-1109.

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