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Experiment and cycle analysis on a partially admitted axial-type turbine used in the organic Rankine cycle

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  • Cho, Soo-Yong
  • Cho, Chong-Hyun
  • Choi, Sang-Kyu

Abstract

The ORC (organic Rankine cycle) has been used to generate electrical or mechanical power from low-grade thermal energy. However, even though many kinds of such energy are available, this thermal energy is typically not available continuously at a constant level. In order to utilize fluctuating thermal energy optimally, an axial-type turbine was applied to the expander, and two nozzles were used to control the mass flow rate. The tip diameter of the rotor was 80 mm and the nozzle was designed as a supersonic nozzle to increase the turbine output power. Experiments were conducted at various TIT (turbine inlet temperatures) with the partial admission rate of 16.7%. The experimental results were compared with the predicted results of the cycle analysis. In the cycle analysis, the output power of the ORC was predicted considering the load dissipating the output power produced by the ORC, as well as the turbine efficiency. The predicted results showed the same trend as the experimental results, and the experimental results showed that the system efficiency of 2% was obtained at the TIT of 100 °C. Hence, this type of turbine can be applied to produce a wide range of power continuously where the available thermal energy varies.

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  • Cho, Soo-Yong & Cho, Chong-Hyun & Choi, Sang-Kyu, 2015. "Experiment and cycle analysis on a partially admitted axial-type turbine used in the organic Rankine cycle," Energy, Elsevier, vol. 90(P1), pages 643-651.
  • Handle: RePEc:eee:energy:v:90:y:2015:i:p1:p:643-651
    DOI: 10.1016/j.energy.2015.07.092
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    References listed on IDEAS

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    4. Landelle, Arnaud & Tauveron, Nicolas & Haberschill, Philippe & Revellin, Rémi & Colasson, Stéphane, 2017. "Organic Rankine cycle design and performance comparison based on experimental database," Applied Energy, Elsevier, vol. 204(C), pages 1172-1187.
    5. Sun, Hongchuang & Qin, Jiang & Hung, Tzu-Chen & Lin, Chih-Hung & Lin, Yi-Fan, 2018. "Performance comparison of organic Rankine cycle with expansion from superheated zone or two-phase zone based on temperature utilization rate of heat source," Energy, Elsevier, vol. 149(C), pages 566-576.
    6. Li, Jing & Gao, Guangtao & Li, Pengcheng & Pei, Gang & Huang, Hulin & Su, Yuehong & Ji, Jie, 2018. "Experimental study of organic Rankine cycle in the presence of non-condensable gases," Energy, Elsevier, vol. 142(C), pages 739-753.
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    9. Huang, Guangdai & Shu, Gequn & Tian, Hua & Shi, Lingfeng & Zhuge, Weilin & Zhang, Jing & Atik, Mohammad Atikur Rahman, 2020. "Development and experimental study of a supercritical CO2 axial turbine applied for engine waste heat recovery," Applied Energy, Elsevier, vol. 257(C).
    10. Sun, Hongchuang & Qin, Jiang & Hung, Tzu-Chen & Huang, Hongyan & Yan, Peigang & Lin, Chih-Hung, 2019. "Effect of flow losses in heat exchangers on the performance of organic Rankine cycle," Energy, Elsevier, vol. 172(C), pages 391-400.
    11. Sun, Hongchuang & Qin, Jiang & Li, Haowei & Huang, Hongyan & Yan, Peigang, 2019. "Research of a combined power and cooling system based on fuel rotating cooling air turbine and organic Rankine cycle on hypersonic aircraft," Energy, Elsevier, vol. 189(C).
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    13. Cho, Soo-Yong & Cho, Chong-Hyun & Choi, Sang-Kyu, 2017. "An experimental study of partial admission losses with various blade tip clearances using a linear cascade," Energy, Elsevier, vol. 122(C), pages 627-637.

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