Search Results

You are looking at 1 - 7 of 7 items for :

Clear All
Open access

Leszek Wontka

REFERENCES [1] Badania silników spalinowych — laboratorium , ed. W. Serdecki, Poznan University of Technology, Poznań 1998 [ Tests of combustion engines — laboratory — available in Polish]. [2] Badania silników spalinowych , ed. W. Serdecki, Poznan University of Technology, Poznań 2012 [ Tests of combustion engines — available in Polish]. [3] Chachulski K., Podstawy napędu okrętowego , Wyd. Morskie, Gdańsk 1988 [ Basic of ship propulsion — available in Polish]. [4] Gola M., Januła J., Litwin J., Laboratorium silników spalinowych

Open access

Artur Bogdanowicz, Tomasz Kniaziewicz and Marcin Zacharewicz

matematyczne procesów fizycznych w silnikach spalinowych małej mocy, Publ. Wydawnictwo im. Ossolińskich, Wrocław 1993 [Mathematical models of physical processes in low power internal combustion engines - avaliable in Polish]. [9] Sobieszczański M., Modelowanie procesów zasilania w silnikach spalinowych, WKŁ, Warszawa 2000 [Modeling of power processes in combustion engines - avaliable in Polish]. [10] Technical and operating documentation for the SULZER marine diesel engine type 6AL20/24 [in Polish].

Open access

Tomasz Kniaziewicz

References [1] Chłopek Z., Modelowanie procesów emisji spalin w warunkach eksploatacji trakcyjnej silników spalinowych, ‘Prace Naukowe. Seria Mechanika’, 1999, Vol. 173 [Modeling of processes of exhaust gas emissions in the traction operating conditions internal combustion engines - available in Polish]. [2] Juda J., Budziński K., Zanieczyszczenia atmosfery, WNT, Warszawa 1961 [Air pollution - available in Polish]. [3] Kniaziewicz T., Metodyka pomiaru emisji związków toksycznych w gazach wylotowych tłokowych

Open access

Marcin Kluczyk and Andrzej Grządziela

Polish]. [9] Kluczyk M., Lus T., The WOLA marine high-speed diesel engines diagnostics using vibroacoustic methods, ‘Journal of KONES’, 2014, Vol. 21, No. 4, pp. 225-231. [10] Kluczyk M., Grządziela A., Batur T., Diagnostic model of the marine propulsion system, ‘Applied Mechanics and Materials’, 2016, Vol. 817, pp 57-63. [11] Korczewski Z., Badania diagnostyczne okrętowych tłokowych silników spalinowych, ‘Zeszyty Naukowe Akademii Marynarki Wojennej’, 2004, No. 2, pp. 57-72 [Marine combustion engines diagnostic

Open access

Bogdan Pojawa

]. [21] Pojawa B., Studying the effects of changes in ambient condition parameters on the torque characteristics of a naval gas turbine , ‘Combustion Engines’, 2015, No 162(3), pp. 105−1020. [22] Pojawa B., The energetic diagnostics of naval propulsion system with naval gas turbine , ‘Diag-nostyka’, 2009, Vol. 50/1, pp. 55−58. [23] Pojawa B., The Investigation of Turbine Engine in Aspect of Output Torque Control , ‘Solid State Phenomena’, 2011, Vol. 180, pp. 339–348. [24] Sprawozdania z badań diagnostycznych turbinowych silników spalinowych

Open access

R. I. Holmes

. (1993). Development of a biofilter for the removal of methane from coal mine ventilation atmospheres. Applied Microbiology and Biotechnology, 39(3), 400-404. Somers, J., & Schultz, H. (2008). Thermal oxidation of coal mine ventilation air methane. Proceedings of the 12 th US/North American mine ventilation symposium. Su, S., & Agnew, J. (2006). Catalytic combustion of coal mine ventilation air methane. Fuel, 85(9), 1201-1210. Su, S., Beath, A., Guo, H., & Mallett, C. (2005). An assessment of mine methane mitigation and utilisation technologies

Open access

M. Esmailpour, K. Rahmani and S. Piroti

Conc. Comp. , 27(1), pp. 65–76, (2005). Torii, K. and Kawamura, M. “Effects of fly ash and silica fume on the resistance of mortar to sulfuric acid and sulfate attack” Cem. and Conc. Res. , 24(2), pp. 361-370, (1994). Faleschini, F., Zanini, M.A., Brunelli, K. and Pellegrino, C. “Valorization of co-combustion fly ash in concrete production”, Mat. and Des., 85, pp. 687-694, (2015). Ferrándiz-Mas, V., Sarabia, L.A., Ortiz, M.C., Cheeseman, C.R. and García-Alcocel, E. “Design of bespoke lightweight cement mortars containing waste expanded