Operation Evaluation Method for Marine Turbine Combustion Engines in Terms of Energetics

1. Dzida M.: Identyfikacja przyczyn niestacjonarności oraz niestabilności temperatury I ciśnienia gazów za komorą spalania turbiny gazowej. Monografie 16. Wydawnictwo Politechniki Gdańskiej, Gdańsk 2000.Search in Google Scholar

2. Girtler J.: Possibility of valuation of operation of marine diesel engines. Journal of POLISH CIMAC, Vol 4, No 1, 2009.Search in Google Scholar

3. Girtler J.: Energy-based aspect of operation of diesel engine. COMBUSTION ENGINES No 2/2009 (137).10.19206/CE-117183Search in Google Scholar

4. Girtler J.: Semi-Markov reliability model of gas turbine combustion engines. Proceedings of the Second International Scientific Symposium COMPOWER’2000. Politechnika Gdańska, Gdańsk 2000, s.133-140.Search in Google Scholar

5. Girtler J.: A method for evaluating theoretical and real operation of diesel engines in energy conversion formulation taking into account their operating indices. Polish Maritime Research. - Vol. 18, No. 3(70), 2011, s. 31-36.10.2478/v10012-011-0014-ySearch in Google Scholar

6. Girtler J.: Possibility of defining theoretical operation for diesel engines in energy terms. Combustion Engines (Silniki Spalinowe), 2011, nr 3, s. 1-9[pdf].Search in Google Scholar

7. Girtler J.: Valuation method for operation of crankshaftpiston assembly in combustion engines in energy approach. Journal of POLISH CIMAC. - Vol. 6, no. 1 (2011), s. 89-98.Search in Google Scholar

8. Girtler J.: The method for determining the theoretical operation of ship diesel engines in terms of energy and assessment of the real operation of such engines, including indicators of their performance. Journal of POLISH CIMAC. - Vol. 6, no. 1 (2011), s. 79-88.Search in Google Scholar

9. Girtler J.: Energetyczny aspekt diagnostyki maszyn. Diagnostyka. Nr 1(45), 2008, s.149-156.Search in Google Scholar

10. Girtler J.: Quantitative interpretation of energy-based systems and index of their reliability. Journal of Polish CIMAC. Vol 3, nr 1, 2008, s.87-94.Search in Google Scholar

11. Girtler J.: Conception of valuation of combustion engine operation. Journal of KONES Powertrain and Transport. Vol. 15, nr 2, 2008, s. 89-96.Search in Google Scholar

12. Gribbin J.: In Search of Schrödinger’s Cat Quantum Physics Reality. Wyd. polskie: W poszukiwaniu kota Schrödingera. Zysk i S-ka Wydawnictwo s.c. Poznań 1 997.Search in Google Scholar

13. Helwitt P.G.: Fizyka wokół nas. PWN, Warszawa 2001.Search in Google Scholar

14. Kowalski A.: Okrętowe turbozespoły spalinowe. WM, Gdańsk 1983.Search in Google Scholar

15. Piotrowski I., Witkowski K.: Okrętowe silniki spalinowe. Wyd. TRADEMAR, Gdynia 1996.Search in Google Scholar

16. Piotrkowski I., Witkowski K.: Eksploatacja okrętowych silników spalinowych. AM, Gdynia 2002.Search in Google Scholar

17. Rosłanowski J.: Identification of ships propulsion engine operation by means of dimensional analysis. Journal of POLISH CIMAC, Vol. 4, No 1, 2009.Search in Google Scholar

18. Rudnicki J.: Loads of ship main diesel engine in the aspect of practical assessment of its operation. Journal of POLISH CIMAC, Vol. 3, No 1, 2008.Search in Google Scholar

19. Rudnicki J.: On making into account value of operational applied to ship main propulsion engine as an example. Journal of POLISH CIMAC, Vol. 4, No 1, 2009.Search in Google Scholar

20. Wajand J.A., Wajand Jan T.: Tłokowe silniki spalinowe średnio- i szybkoobrotowe. WNT, Warszawa 2000.Search in Google Scholar

21. Wojnowski W.: Okrętowe siłownie spalinowe. Część I. Wyd. Akademia Marynarki Wojennej, Gdynia 1998.Search in Google Scholar

22. Encyklopedia fizyki współczesnej. Praca zbiorowa. Redakcja Nauk Matematyczno-Fizycznych i Techniki Zespołu Encyklopedii i Słowników PWN. PWN, Warszawa 1983.Search in Google Scholar

23. Informator European Gas Turbine Limited. England. Publication No 108/1997.Search in Google Scholar

24. Leksykon naukowo-techniczny z suplementem. Praca zbiorowa. Zespół redaktorów Działu Słownictwa Technicznego WNT. WNT, Warszawa 1989.Search in Google Scholar

25. McNeely M.: GE’s LMS 100, a „Game Changer”. New gas turbine combines frame and aero technology, achieves 46% efficiency. Diesel & Gas Turbine. Worldwide. January- February 2004, pp.38, 40, 42 and 43.Search in Google Scholar