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A Kalina cycle application for power generation

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  • Ibrahim, Mounir B.
  • Kovach, Ronald M.

Abstract

A multi-component (NB3/H2O) Kalina-type cycle that utilizes the exhaust from a gas turbine is investigaed in this paper. The turbine-inlet pressure of 5.96 × 106N/m2 and temperature of 755.372 K were kept constant, as well as the working fluid temperature at the condenser outlet (at 290K). The HN3 mass fraction at the turbine inlet was varied along with the seperator temperature and the effects on the cycle efficiency were studied. The relationships between turbine-inlet flow and the seperator-inlet. How are shown in addition to the upper and lower HN3 mass-fraction bounds. The multi-component working-fluid cycle investigated is 10–20% more efficient than a Rankine cycle with the same boundary conditions.

Suggested Citation

  • Ibrahim, Mounir B. & Kovach, Ronald M., 1993. "A Kalina cycle application for power generation," Energy, Elsevier, vol. 18(9), pages 961-969.
  • Handle: RePEc:eee:energy:v:18:y:1993:i:9:p:961-969
    DOI: 10.1016/S0360-5442(06)80001-0
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    Citations

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    Cited by:

    1. Peng Song & Jinju Sun & Shengyuan Wang & Xuesong Wang, 2022. "Multipoint Design Optimization of a Radial-Outflow Turbine for Kalina Cycle System Considering Flexible Operating Conditions and Variable Ammonia-Water Mass Fraction," Energies, MDPI, vol. 15(22), pages 1-19, November.
    2. Steven Lecompte & Oyeniyi A. Oyewunmi & Christos N. Markides & Marija Lazova & Alihan Kaya & Martijn Van den Broek & Michel De Paepe, 2017. "Case Study of an Organic Rankine Cycle (ORC) for Waste Heat Recovery from an Electric Arc Furnace (EAF)," Energies, MDPI, vol. 10(5), pages 1-16, May.
    3. Wang, Enhua & Yu, Zhibin, 2016. "A numerical analysis of a composition-adjustable Kalina cycle power plant for power generation from low-temperature geothermal sources," Applied Energy, Elsevier, vol. 180(C), pages 834-848.
    4. Cao, Liyan & Wang, Jiangfeng & Dai, Yiping, 2014. "Thermodynamic analysis of a biomass-fired Kalina cycle with regenerative heater," Energy, Elsevier, vol. 77(C), pages 760-770.
    5. Oyewunmi, Oyeniyi A. & Kirmse, Christoph J.W. & Haslam, Andrew J. & Müller, Erich A. & Markides, Christos N., 2017. "Working-fluid selection and performance investigation of a two-phase single-reciprocating-piston heat-conversion engine," Applied Energy, Elsevier, vol. 186(P3), pages 376-395.
    6. Bao, Junjiang & Zhao, Li, 2012. "Exergy analysis and parameter study on a novel auto-cascade Rankine cycle," Energy, Elsevier, vol. 48(1), pages 539-547.
    7. Zhang, Xinxin & He, Maogang & Zhang, Ying, 2012. "A review of research on the Kalina cycle," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(7), pages 5309-5318.
    8. Le, Van Long & Feidt, Michel & Kheiri, Abdelhamid & Pelloux-Prayer, Sandrine, 2014. "Performance optimization of low-temperature power generation by supercritical ORCs (organic Rankine cycles) using low GWP (global warming potential) working fluids," Energy, Elsevier, vol. 67(C), pages 513-526.
    9. Sun, Faming & Ikegami, Yasuyuki & Jia, Baoju, 2012. "A study on Kalina solar system with an auxiliary superheater," Renewable Energy, Elsevier, vol. 41(C), pages 210-219.
    10. Victor, Rachel Anne & Kim, Jin-Kuk & Smith, Robin, 2013. "Composition optimisation of working fluids for Organic Rankine Cycles and Kalina cycles," Energy, Elsevier, vol. 55(C), pages 114-126.
    11. Wang, Jiangfeng & Yan, Zhequan & Wang, Man & Dai, Yiping, 2013. "Thermodynamic analysis and optimization of an ammonia-water power system with LNG (liquefied natural gas) as its heat sink," Energy, Elsevier, vol. 50(C), pages 513-522.

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