Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
This paper is aimed at analysis of possible application of helium to cooling high-temperature nuclear reactor to be used for generating steam in contemporary ship steam-turbine power plants of a large output with taking into account in particular variable operational parameters. In the first part of the paper types of contemporary ship power plants are presented. Features of today applied PWR reactors and proposed HTR reactors are discussed. Next, issues of load variability of the ship nuclear power plants , features of the proposed thermal cycles and results of their thermodynamic calculations in variable operational conditions, are presented.
Czasopismo
Rocznik
Tom
Strony
32--41
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
- Energy Conversion Department, Institute of Fluid Flow Machinery , Polish Academy of Sciences ul. Fiszera 14 80-231 Gdańsk, Poland
autor
- Department of Automatics and Turbine Propulsion, Faculty of Ocean Engineering and Ship Technology Gdańsk University of Technology 11/12 Narutowicza St. 80 - 233 Gdańsk, Poland
autor
- Energy Conversion Department, Institute of Fluid Flow Machinery , Polish Academy of Sciences ul. Fiszera 14 80-231 Gdańsk, Poland
Bibliografia
- 1. PortalMorski.pl : Sea traffic statistical data ( in Polish), http://www.portalmorski.pl/info/statystyki 14.02.2014.
- 2. Badur J.: Modelling of balanced combustion in gas turbines ( in Polish), Publ. IMP PAN, Gdańsk, 2003
- 3. Dzida M., Mucharski J.: On the possible increasing of efficiency of ship power plant with the system combined of marine diesel engine, gas turbine and steam turbine in case of main engine cooperation with the gas turbine fed in parallel and the steam turbine, Polish Maritime Research, No. 2 (60), 2009 , Vol. 16 p.40÷44
- 4. Jezierski G: Nuclar energy yesterday and to morrow ( in Polish), Scientific Technical Publishing House (Wydawnictwo Naukowo-Techniczne), Warsaw 2005
- 5. Department of Nuclear Science and Engineering, MIT: Modular Pebble Bed Reactor, http://web.mit.edu/ pebble-bed/14.02.2014
- 6. Kubowski J.: Problems of interaction between nuclear power plants and electric power network ( in Polish), Elektroenergetyka, No. 4 (670), 2010, pp.218÷221
- 7. Przybylski M., Głuch J.: Selected design and construction aspects of supercritical steam generators for high temperature reactors. Archives of Energetics, No 2 Vol. 42, 2012, pp.113÷120
- 8. Błaszczyk A., Głuch J., Gardzielewicz A.: Operating and economic conditions of cooling water control for marine steam turbine condenser, Polish Maritime Research, No. 3 (70), Vol. 18, 2011, pp.48÷54
- 9. Perycz S.: Gas and steam turbines ( in Polish), Publishing House of Gdansk University of Technology ( Wydawnictwo Politechniki Gdańskiej), Gdańsk 1988
- 10. Stein Z.: Electric engines and drives ( in Polish), School and Pedagogical Publishers (Wydawnictwo Szkolne i Pedagogiczne ), Warszawa 1985
- 11. Dzida M.: On the possible increasing of efficiency of ship power plant with the system combined of marine diesel engine, gas turbine and steam turbine, at the main engine - steam turbine mode of cooperation, Polish Maritime Research, No.1 (59), 2009, Vol. 16, pp. 47÷52
- 12. Dzida M., Giltler J., Dzida S.: On the possible increasing of efficiency of ship power plant with the system combined of marine diesel engine, gas turbine and steam turbine in case of main engine cooperation with the gas turbine fed in series and the steam turbine, Polish Maritime Research, No. 3 (61), 2009 Vol. 16,pp. 26÷31
- 13. Hagling F.: Variable geometry gas turbines for improving the part-load performance of marine combined cycles - Combined cycle performance, Applied Thermal Engineering, No. 31, 2011, pp.467 ÷ 476
- 14. WelayaY., Mosleh M., Ammar N.: Energy analysis of a combined solid oxide fuel cell with a steam turbine power plant for marine applications, J. Marine Sci. Appl., No. 12, 2013, pp.473÷483
- 15. Nisan S., Rouyer J., Marcetteau P., Duflo D.: SEMER: A simple code for the economic evaluation of nuclear and fossil energy-based power production systems, Nuclear Engineering and Design, No. 221, 2003, pp.301÷313
- 16. Geschwindta J., Lommers L., Southworth F., Shahrokhi F.: Performance and optimization of an HTR cogeneration system, Nuclear Engineering and Design, No. 251, 2012, pp.297÷300
- 17. Teichela H., Pouget-Abadie X.: How the European Pressurized Water Reactor fulfils the utility requirements, Nuclear Engineering and Design, No. 187, 1999 , pp. 9÷13
- 18. Asiedu-Boateng P., Akaho E., Nyarkob B., Yamoah S.: Modeling and simulation of cogeneration nuclear power plant for seawater desalination, Nuclear Engineering and Design, No. 242, 2012, pp.143÷147
- 19. Lommers L., Shahrokhi F., Mayer III J., Southworth F.: AREVA HTR concept for near-term deployment, Nuclear Engineering and Design, No. 251, 2012, pp.292÷296
- 20. Kowalczyk T.: Power engineering analysis of possible application of a ship steam power plant of 50MW output , equipped with a steam generator heated by helium agent cooling a high temperature nuclear reactor ( in Polish), M.Sc. thesis , Gdańsk University of Technology, Gdańsk 2012
- 21. Smith C.: The energy challenge, Appl. Petrochem Res, No. 2, 2012,pp.3÷6
- 22. Sarkisov A., Vysotskii V., Bilashenko V., Barinov N., Kiselev A., Markarov V., Kulakov I., Lepekhin A., Petrunin V., Pichugin A., Krysov S.: Expected radiological and radioecological consequences of operating floating nuclear heat and power plants, Atomic Energy, Vol. 104, No. 3, 2008, pp. 237÷249.
- 23. Hirdaris S., Cheng Y., Shallcross P., Bonafoux J., Carlson D., Prince B., Sarris G.: Considerations on the potential use of Nuclear Small Modular Reactor (SMR) technology for merchant marine propulsion, Ocean Engineering, No. 79, 2014, pp.101÷130
- 24. Staliński J., Szewalski R.: Analysis of impact of changes in technical-economic indices of ship power plants onto calculation results of economic profitability of ships ( in Polish), Acta Technica Gedanensia No. 1, 1963, Gdańsk 1963.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-96f9b645-22c7-475a-9891-d0f53968a2bc