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References [1] Cannon R. H., Dynamika układów fizycznych, WNT, Warszawa 1973 [Dynamics of physical systems - avaliable in Polish]. [2] Cwalina A., Zacharewicz M., Research on energetic processes in a marine diesel engine driving a synchronous generator for diagnostic purposes, Part 1, Physical model of the processes, ‘Journal of Polish CIMAC’, 2013, Vol. 8, No. 1, pp. 97-104. [3] Dzetsina O., Gladushin V., Method of diagnostics of locomotive diesel engine, ‘ТEKA Komisji Motoryzacji i Energetyki Rolnictwa’ [‘TEKA Commission of Motorization and Power Industry in

REFERENCES 1. Furman, V.V., Ivanov V.A., & Markov, V.A. (2013). Electronic control systems for diesel engines. Science and Innovations , 5, 1–18. (in Russian) 2. Bogaevsky, A.B. (2001). Microprocessor system for control of rotation frequency and power of diesel-generator installation. HGADTU Bulletin , Kharkiv, 15–16, 153–156. (in Russian) 3. Lopez, J., Espinosa, O.J., & Agudelo, J. (2011). LQR control for speed and torque of internal combustion engines. In 8th IFAC World Congress (pp. 2230–2235), 28 August–2 September, 2011, Milano. 10.3182/20110828-6-IT

Reference [1] Sharma, Y. C., Singh, B., Upadhyay, S. N., Advancements in development and characterization of bio-diesel: A review , Fuel, Vol. 87, pp. 2355-2373, 2008. [2] Moser, B. R., Bio-diesel production, properties, and feed stocks’ , In: Vitro cell. Dev. Biol. Plant, Vol. 45, pp. 229-266, 2009. [3] Ekrem Buyukkaya, Effects of bio-diesel on a DI Diesel engine performance, emission and combustion characteristics , Fuel, Vol. 89, pp. 3099-3105, 2010. [4] Qi, D. H., Chen, H., Geng, L. M., Bian, Y. Z. H., Experimental studies on the combustion

References [1] Czechowski, M., Mniecznikowska, A., Analysis of the applicability of high strength steel of YS = 1300 MPa in the marine industry , Journal of KONES Powertrain and Transport, Vol. 23, No. 3, pp. 79-84, 2016. [2] Fonte, M., Duarte, P., Anes, V., Freitas, M., Reis, L., On the assessment of fatigue life of marine diesel engine crankshafts , Engineering Failure Analysis, Vol. 56, pp. 51-57, 2015. [3] Jadhav, A., Chalwa, V., Gaikwad, P., Fatigue Failure Analysis Of Marine Engine Crankshaft , International Journal of Engineering Research & Technology

References 4. Wang, J., Chia, A., Menq, H.: Control of Diesel Engine Urea Selective Catalytic Reduction Systems. Etd.ohiolink edu, 2010. 5. Konstandopoulos, A.G., Zarvalis, D., Chasapidis, L.: Investigation of SCR Catalysts for Marine Diesel Applications. 2017. 6. Fisher, C., Meech, R.: Bunkers an analysis of the technical and environmental issues. Petrospot Limited England, 2, 2013. 7. Forzatti, P.: Present status and perspectives in de-NOX SCR catalysis. Applied Catalysis A: General, 2001, 222, Pp. 221-236. 8. Koga, T., Kubo, T., Fukuya, S.: Countermeasures to

diesel engine fueled with pentanol/diesel blends. International Journal on Fuel 2015 (160), 217 - 226. [4] Mohdafizil Mat Yasin, Rizalman Mamat. Effects of exhaust gas recirculation on a diesel engine fueled with Palm-Biodiesel. International Journal on Applied Energy 2015 , 30 - 36. [5] K. Kaimal Viswanath, P. Vijayabalan. An investigation on the effects of using DEE additive in a DI diesel engine fueled with waste plastic oil. International Journal on Fuel 2016 (180), 90 - 96. [6] C. Subash, M. Mani. Performance, emission and combustion characteristics of a DI

REFERENCES 1. Sun, Jun, X. Cai, and L. Liu. On the elastohydrodynamic lubrication performance of crankshaft bearing based on the effect of whole engine block deformation . Industrial Lubrication and Tribology 64.1(2012):60–65. 2. Cai, X. X., et al. Elastohydrodynamic lubrication analysis of main bearing for internal combustion engine considering block deformation . Tribology 30.2(2010):118–122. 3. Lei, Jilin, et al. Analysis on influence factors of main bearing lubrication characteristics for horizontal diesel engine . Transactions of the Chinese Society of

References [1] Shirneshan, A., Brake torque of a diesel engine fuelled with biodiesel and diesel , International Journal of Renewable and Sustainable Energy, 2(6), pp. 242-246, 2013. [2] Zakiya, S. M., Roces, S. A., Dugos, N. P., Promentilla, M. P. A., Shioji, M., Emissions and Performance of Diesel Engine Fueled with Waste Cooking Oil Methyl Ester Diesel Blends , Iranica Journal of Energy & Environment, 5 (1), pp. 73-77, 2015. [3] Sankar, A. V., Praveen, R., John, B., Performance and Emission Characteristics of a Diesel Engine Running on Biodiesel

References Aeberli K.: New high-economy engines for panama containerships and large tankers , Wartsila Switzerland Ltd, Winterthur, September 2007 Girtler J.: Work of a compression-ignition engine as the index of its reliability and safety. II International Scientifically-Technical Conference EXPLO-DIESEL & GAS TURBINE"01. Conference Proceedings. Gdansk-Miedzyzdroje-Copenhagen, 2001, pp.79-86 Girtler J.: Possibility of valuation of operation of marine diesel engines. Journal of POLISH CIMAC, Vol. 4, No 1, 2009 Girtler J.: Energy-based aspect of operation of

References Abidi, I., Bosche, J., Hajjaji, A.E. and Aguilera-Gonzales, A. (2013). Fuzzy robust tracking control with pole placement for a turbocharged diesel engine, Proceedings of the 21st Mediterranean Conference on Control and Automation (MED’13), Crete, Greece. Adi, G., Hall, C., Snyder, D., Bunce, M., Satkoski, C., Kumar, S., Garimella, P., Stanton, D. and Shaver, G. (2009). Soy-biodiesel impact on nox emissions and fuel economy for diffusion-dominated combustion in a turbo-diesel engine incorporating exhaust gas recirculation and common rail fuel injection