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Solar low-pressure turbo-ejector Maisotsenko cycle-based power system for electricity, heating, cooling and distillation

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  • D. Buyadgie
  • O. Buyadgie
  • O. Drakhnia
  • P. Brodetsky
  • V. Maisotsenko

Abstract

The article describes the innovative solutions of power, heating and cooling generation utilizing low- or medium-grade heat sources. The proposed technology based on the well-known irreversible Brayton cycle and the revolutionary Maisotsenko cycle (M-cycle) operates at atmospheric or sub-atmospheric pressures. Such energetic systems are simple and reliable and utilize moisture-saturated air as a working fluid. The ejector replacing the mechanical compressor in the Brayton cycle system allows increasing the cycle work by three to five times at the constant airflow. At the same time, the utilized heat serves for simultaneous heating and cooling production that makes the system economically viable and environmentally friendly with the increased integral performance. For system's performance improvement, the schematic and the cycle were upgraded allowing the off-the-shelf components to be employed and replace the electrically driven fan with fluidic jet-fan that served for energy saving of the innovative turbo-ejector system operation.

Suggested Citation

  • D. Buyadgie & O. Buyadgie & O. Drakhnia & P. Brodetsky & V. Maisotsenko, 2015. "Solar low-pressure turbo-ejector Maisotsenko cycle-based power system for electricity, heating, cooling and distillation," International Journal of Low-Carbon Technologies, Oxford University Press, vol. 10(2), pages 157-164.
    • Handle: RePEc:oup:ijlctc:v:10:y:2015:i:2:p:157-164.
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    File URL: http://hdl.handle.net/10.1093/ijlct/ctv012
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    Citations

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    Cited by:

    1. Jan Taler & Bartosz Jagieła & Magdalena Jaremkiewicz, 2022. "Overview of the M-Cycle Technology for Air Conditioning and Cooling Applications," Energies, MDPI, vol. 15(5), pages 1-19, March.
    2. Zhu, Guangya & Chow, T.T. & Fong, K.F. & Lee, C.K., 2019. "Comparative study on humidified gas turbine cycles with different air saturator designs," Applied Energy, Elsevier, vol. 254(C).
    3. Mahmood, Muhammad H. & Sultan, Muhammad & Miyazaki, Takahiko & Koyama, Shigeru & Maisotsenko, Valeriy S., 2016. "Overview of the Maisotsenko cycle – A way towards dew point evaporative cooling," Renewable and Sustainable Energy Reviews, Elsevier, vol. 66(C), pages 537-555.
    4. Zhu, Guangya & Wen, Tao & Wang, Qunwei & Xu, Xiaoyu, 2022. "A review of dew-point evaporative cooling: Recent advances and future development," Applied Energy, Elsevier, vol. 312(C).
    5. Dmytro Levchenko & Andrii Manzharov & Artem Artyukhov & Nadiya Artyukhova & Jan Krmela, 2021. "Comparative Exergy Analysis of Units for the Porous Ammonium Nitrate Granulation," Energies, MDPI, vol. 14(2), pages 1-16, January.
    6. Tariq, Rasikh & Sheikh, Nadeem Ahmed & Livas-García, A. & Xamán, J. & Bassam, A. & Maisotsenko, Valeriy, 2021. "Projecting global water footprints diminution of a dew-point cooling system: Sustainability approach assisted with energetic and economic assessment," Renewable and Sustainable Energy Reviews, Elsevier, vol. 140(C).
    7. Fumin Pan & Xiaobei Cheng & Xin Wu & Xin Wang & Jingfeng Gong, 2019. "Thermodynamic Design and Performance Calculation of the Thermochemical Reformers," Energies, MDPI, vol. 12(19), pages 1-14, September.

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