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A REVIEW OF HELIUM GAS TURBINE TECHNOLOGY FOR HIGH-TEMPERATURE GAS-COOLED REACTORS

  • No, Hee-Cheon (Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology) ;
  • Kim, Ji-Hwan (Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology) ;
  • Kim, Hyeun-Min (Department of Nuclear and Quantum Engineering, Korea Advanced Institute of Science and Technology)
  • 발행 : 2007.02.28

초록

Current high-temperature gas-cooled reactors (HTGRs) are based on a closed Brayton cycle with helium gas as the working fluid. Thermodynamic performance of the axial-flow helium gas turbines is of critical concern as it considerably affects the overall cycle efficiency. Helium gas turbines pose some design challenges compared to steam or air turbomachinery because of the physical properties of helium and the uniqueness of the operating conditions at high pressure with low pressure ratio. This report present a review of the helium Brayton cycle experiences in Germany and in Japan. The design and availability of helium gas turbines for HTGR are also presented in this study. We have developed a new throughflow calculation code to calculate the design-point performance of helium gas turbines. Use of the method has been illustrated by applying it to the GTHTR300 reference.

키워드

참고문헌

  1. Current Status and Future Development of Modular High Temperature Gas Cooled Reactor Technology,' IAEA-TECDOC-1198, 2001
  2. Summary Report on Technical Experiences from High-Temperature Helium Turbomachinery Testing in Germany,' IAEA-TECDOC-899, pp. 177-248, 1995
  3. S. Takada, T. Takizuka, et al., 'The 1/3-scale Aerodynamics Performance Test of Helium Compressor for GTHTR300 Turbo Machine of JAERI (STEP1),' Proceeding of ICONE11, Tokyo, Japan, April 20-23, 2003
  4. A.R. Howell and W.J. Calvert, 'A New Stage Stacking Technique for Axial-Flow Compressor Performance Prediction,' Journal of Engineering for Power, Transactions of the ASME, Vol. 100, pp. 698-703, 1978 https://doi.org/10.1115/1.3446425
  5. T. Takizuka, S. Takata, et al., 'R&D on the Power Conversion System for Gas Turbine High Temperature Reactors,' Nuclear Engineering and Design, North- Holland Publishing Company, pp.329-346, 2004
  6. Summary Report on Technical Experiences from High-Temperature Helium Turbomachinery Testing in Germany,' IAEA-TECDOC-899, pp. 177-248, 1995
  7. PBMR Project Status and the Way Ahead,' 2nd International Topical Meeting on High Temperature Reactor Technology, Beijing, China, September 22- 24, 2004
  8. Regis A. Matzie, 'Pebble Bed Modular Reactor (PBMR) Project Update,' Presentation of Westinghouse Electric Company, June 16, 2004
  9. J.D. Denton, 'Throughflow Calculation for Transonic Axial Flow Turbines', Journal of Engineering for Power, Transactions of the ASME, Vol. 100, pp. 212- 218, 1978 https://doi.org/10.1115/1.3446336
  10. H.I.H. Saravanamuttoo, G.F.C. Rogers and H. Cohen, 'Gas Turbine Theory,' Prentice Hall, 2001
  11. C.C. Koch and L.H. Smith, 'Loss Sources and Magnitudes in Axial-flow Compressors,' Journal of Engineering for Power, Transactions of the ASME, pp. 411-424 (1976)
  12. B. Lakshiminarayana and J.H. Horlock, 'Review: Secondary Flows and Losses in Cascades and Axialflow Turbomachines,' International Journal of Mechanical Sciences, Pergamon Press Ltd, Vol. 5, pp.287-307, 1963 https://doi.org/10.1016/0020-7403(63)90055-9
  13. B. Lakshminarayana, 'Methods of Predicting the Tip Clearance Effects in Axial Flow Turbomachinery,' Journal of Basic Engineering, Transactions of the ASME, pp. 467-482, 1970
  14. O.E. Balje and R.L. Binsley, 'Axial Turbine Performance Evaluation. Part A – Loss-Geometry Relationship,' Journal of Engineering for Power, Transactions of the ASME, pp. 341-348, 1968
  15. S.C. Kacker and U. Okapuu, 'A Mean Line Prediction Method for Axial Flow Turbine Efficiency,' Journal of Engineering for Power, Transactions of the ASME, pp. 111-119, 1982
  16. J. Dunham and P.M. Came, Improvements to the Ainley-Mathieson Method of Turbine Performance Prediction,' Journal of Engineering for Power, Transactions of the ASME, pp. 252-256, 1970

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