Thermodynamics cycle of gas-cooled fast reactor

• Autorzy: Polansky J.
• Języki publikacji: EN

Abstrakty

EN

This paper deals with the thermo-hydraulic aspect of gas cooled fast 4 generation reactor. The paper is focused on the comparison of direct and indirect strategy of thermodynamics cycle of helium cooled reactor from the thermodynamics and turbomachinary point of view. The analyses respect pressure looses at all major part of the equipment - reactor, heat exchanger, pipe lines, etc. The compressor and gas turbines efficiency are includes in calculation as well.The working fluid in primary circuit is helium. In the secondary circuit a mixture of helium and nitrogen is considered. The Cycle characteristic point and efficiency calculation reflects mixture properties of the real gas. Calculation point out the influence of mixture composition on the basic structural parameters of the turbines, compressor and heat exchangers. Thermodynamics cycle efficiency, specific heat input/output , heat flux and cycle work will be presented as characteristic parameters.

Słowa kluczowe

EN

thermodynamic cycle; generation IV reactor; gas cooled reactor; gas turbine

PL

obieg termodynamiczny; reaktory jądrowe IV generacji; reactor chłodzony gazem; turbina gazowa

• Wydawca: Wydawnictwo Politechniki Łódzkiej
• Czasopismo: Mechanics and Mechanical Engineering
• Rocznik: 2018
• Tom: Vol. 22, nr 2
• Strony: 585--592
• Opis fizyczny: Bibliogr. 11 poz., rys., wykr.

Twórcy

autor

Polansky J.

• MECAS ESI s.r.o., part of ESI Group, Pilsen, Czech Republic

Bibliografia

• [1] Anzieu, P., Stainsby, R., Mikityuk K.: Gas-Cooled Fast Reactors: Overview and Perspectives, AMEC, Paul Scherrer Institut, 2007.
• [2] Kevan, D. Weaver: Interim Status Report on the Design of Gas-Cooled Fast Reactors. Gen IV nuclear energy systems, INEEL/EXT-05-02662.
• [3] Horlock, J. H.: Combined Power Plants: Including Combined Cycle Gas Turbine Plants, ISBN-13: 978-157524, 1975.
• [4] Thomas, Y. C. W., Kevan, D.W.: Initial Requirements for Gas-Cooled Fast Reactor System Design, Performance, and Safety Analysis, Gen IV nuclear energy systems, INEEL/EXT-04-02242.
• [5] Wagner, W.: Description of the Software FLUIDCAL for the Calculation of Thermodynamic and Transport Properties, RUHR-UNIVERSITAT BOCHUM, Fakultat fur Maschinenbau, www.ruhr-uni-bochum.de/thermo.
• [6] Dixon, S. L, Hall, C. A.: Fluid Mechanics and Thermodynamics of Turbomachinery, ISBN 978-1-85617-793-1, 2010.
• [7] Horlock, J. H.: A Combined Power Plants: Including Combined Cycle Gas Turbine Plants, ISBN-13: 978-1575241975 1992.
• [8] Bidard, R., Bonnin, J.: Energetique at turbomachines, ISBN 978-2-212-01583-6, 1979.
• [9] Polansky, J., Gaspar, R.: Optimization of the Thermodynamics Cycles of Generation IV Gas-Cooled Fast Reactors, Proceedings of the ASME 2013 International Mechanical Engineering Congress & Exposition, San Diego, USA, IMECE2013-64565, 2013.
• [10] IAEA: IAEA Nuclear Energy Series Technical Reports Hydrogen Production Using Nuclear Energy, STI/PUB/1577 (978-92-0-135110-4), No. NP-T-4.2, 2012.
• [11] Mitchell, C., Poette, P. K., Coddington, P., Somers, J., Van-Goethem, G. GCFR: The European Unions Gas Cooled Fast Reactor Project, Proceedings of ICAPP 06 Reno, NV USA, June 4-8, Paper 6311, 2006.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).