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Almost entire fleet of steam turbines in Poland was designed between 1950_1980 with the use of the so-called zero-dimensional (0D) calculation tools. For several years, design and modernization of the turbines occur in assistance with the state-of-the-art methods that describe working fluid flow field based on three-dimensional (3D) models and computational fluid dynamics (CFD) codes. This cooperation between 0D and 3D codes requires exchange of overall, integral information such as: power, efficiency, heat and mass fluxes. In consequence the question arises regarding the cohesion of definitions, and particularly regarding the correctness of the definition for internal efficiency of the turbine's stage and the turbine as a whole. In the present paper we formulate basic definitions reason of efficiency that are naturally adapted to the numerical 0D and 3D models. We show that the main reason of differences between the definitions in 0D and 3D is the definition of the theoretical work of the stage lt. In the classical 0D models, mostly employed is the isentropic approach, and hence the isentropic efficiency occurs. Meanwhile, in the increasingly common 3D approach (most likely by CFD), we use more physically correct pathway by subtracting energy loss from the available energy, that leads to the polytropic definition of efficiency. We show an example of computing the efficiency and the 3D losses, denoted with additional subscript CFD, we also discuss benefits of this definition in comparison with the isentropic classical definition in 0D.
Słowa kluczowe
Rocznik
Tom
Strony
17--39
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences, Centre for Thermomechanics of Fluids, Energy Conversion Department, Fiszera 14, 80-231 Gdańsk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences, Centre for Thermomechanics of Fluids, Energy Conversion Department, Fiszera 14, 80-231 Gdańsk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences, Centre for Thermomechanics of Fluids, Energy Conversion Department, Fiszera 14, 80-231 Gdańsk, Poland
autor
- The Szewalski Institute of Fluid-Flow Machinery of the Polish Academy of Sciences, Centre for Thermomechanics of Fluids, Energy Conversion Department, Fiszera 14, 80-231 Gdańsk, Poland
autor
- Conjoint Doctoral School at the Faculty of Mechanical Engineering, Gdańsk University of Technology, Narutowicza 11/12 80-233 Gdańsk, Poland
autor
- ALSTOM Power Ltd., Stoczniowa 2, 82-300 Elbląg, Poland
autor
- ALSTOM Power Ltd., Stoczniowa 2, 82-300 Elbląg, Poland
autor
- ALSTOM Power Ltd., Stoczniowa 2, 82-300 Elbląg, Poland
autor
- ALSTOM Power Ltd., Stoczniowa 2, 82-300 Elbląg, Poland
Bibliografia
- [1] Badur J.: Development of Energy Concept. Wyd. IMP PAN Gdańsk 2009 (in Polish).
- [2] Badur J.: Five lecture of contemporary fluid thermomechanics. IMP PAN, Gdańsk 2005 (in Polish), http://www.imp.gda.pl/osrodki-naukowe/o2/o2z3/publikacje/
- [3] Badur J., Karcz M., Zakrzewski W., Nastałek L.: Flow calculation HP part steam turbine 103JT. IMP PAN Rep. C2-3/10, Gdańsk 2012, 1-22 (in Polish).
- [4] Carnot S.: Réflections sur la Puissance Motrice de feu et sur las Machines Propres á déveloper cette Puissance, Paris Bachelier (1824) (reprod. Ann. Ecole Norm. (2) 1, 393-457 (1872). Transleted to English: Thurston R.H.: Reflection on Motive Power of Heat, New York 1890.
- [5] Chrzanowski W.: Steam Turbines. Warsaw 1923, Autor pay publishing (in Polish).
- [6] Gundlach W.R.: Fluid-Flow Machinery Part I. PWN, Warszawa 1970 (in Polish).
- [7] Gundlach W.R.: How much can be earned on the adiabatic efficiency? Cieplne Maszyny Przepływowe (Turbomachinery) No. 114, 1999, 43-64 (in Polish).
- [8] Karcz M.: Analysis of thermal diffusers in respect to cooling enhancement gas turbine. Bull. IFFM PAS, 535/1494, 2004, 1-164 (in Polish).
- [9] Kosowski K., Domachowski Z., Próchnicki W., Kosowski A., Stępień R., Piwowarski M., Włodarski W., Ghaemi H., Tucki K., Gardzilewicz A., Lampart P., Głuch J., Łuniewicz B., Szyrejko C., Obrzut D., Banaszkiewicz M., Topolski J., Kietliński K., Ferdyn Z.: Steam and gas turbines with examples of Alstom technology (K. Kosowski, Ed.), Alstom, Elbląg 2007.
- [10] Kosowski K.: Selection of the preferred values of the basic parameters of degrees of thermal turbines generalized design method for turbine stages. Zeszyty Naukowe PG, No. 528, Gdańsk University of Technology, Gdańsk 1995 (in Polish).
- [11] Nikiel T.: Steam Turbines. PWN, Warsaw 1978 (in Polish).
- [12] Nitka A.: Shipbuilding company F. Schichau. Elbląg-Piława-Gdańsk-Królewiec. Outline of the history 1837_1945, Morze, statki i okręty, 6(2007), 62-71, (in Polish).
- [13] Ochęduszko S.: Applied Thermodynamics. WNT, Warsaw 1964 (in Polish).
- [14] Pambour Ch.F.M.G.: Theorie de la Machine a Vapeur. Paris (1843): Poggendorff Annalen, 59, 1843, 486-492.
- [15] Perycz S.: Steam and Gas Turbines. Wyd. PG Gdańsk 1988 (in Polish).
- [16] Puzyrewski R.: One dimensional theoretical basis of fluid-flow machinery. Ossolineum, Wrocław 1992 (in Polish).
- [17] Samojłonowicz G., Trojanowski B.: Steam Turbines, PWN, Warsaw 1957 (in Polish).
- [18] Stodola A.: Steam and Gas Turbines. New York 1945 (in Polish).
- [19] Szczeglajew W.: Steam Turbines. Energia, Moscow 1967 (in Russian).
- [20] Szewalski R.: Steam Turbines, Vol. 4, Mechanics, Pt. 1. PWN, Warsaw 1967 (in Polish).
- [21] Szewalski R.: Actual problems of development of energetical technology. Enhancement of unit work and efficiency turbine and power unit. Ossolineum, Wrocław 1987 (in Polish).
- [22] Traupel W.: Thermische Turbomaschinen, 3th Edn. Berlin 1977 (in German).
- [23] Tuliszka E.: Compressors, Blowers and Fans. WNT,Warsaw 1976, in Polish).
- [24] Wiśniewski S.: Technical Thermodynamics. WNT,Warsaw 1980 (in Polish).
- [25] Zagórski J.: Technical Thermodynamics, Vol. III. PWN, Warsaw 1961 (in Polish).
- [26] Zeuner G.: Grundzüge der mechanischen Wärme-Theorie mit resondeer Rücksicht aus das Varhelten das Wasserdampfs, Freiburg 1860.
- [27] Zeuner G.: Technische Thermodynamik, A. Felix, Berlin 1898.
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