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Zbigniew Korczewski

References 1. Korczewski Z.: An entropy function application within the selection process of diagnostic parameters of marine diesel and gas turbine engines. Polish Maritime Research, 2(65)/2010, Vol.17, p. 29-35. 2. Korczewski Z.: Exhaust gas temperature measurements in diagnostic examination of naval gas turbine engines. Part III. Diagnostic and operating tolerances. Polish Maritime Research, No. 4(71)/2011, Vol.18, p. 49-53. 3. Korczewski Z.: Analysing possible use of the diagnostic model of internal

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Zbigniew Korczewski

. Polish Maritime Research, 2(65)/2010, Vol.17, p. 29-35. 7. Korczewski Z.: Exhaust gas temperature measurements in diagnostic examination of naval gas turbine engines. Part III. Diagnostic and operating tolerances. Polish Maritime Research, No. 4(71)/2011, Vol.18, p. 49-53. 8. Korczewski Z.: Analysing possible use of the diagnostic model of piston-crankshaft systems in internal combustion engines and evaluating its practical applicability for controlling rationally the operation of these engines taking into account an expert system (in

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Piotr Krawczyk, Krzysztof Badyda, Jacek Szczygieł and Szczepan Młynarz

ajafi B.: Temperature Measurement in WTE Boilers Using Suction Pyrometers. Sensors 13 (2013), 5633–15655, DOI:10.3390/s131115633. [8] K ychakoff G., H ollingshead , A.F., B oyd S.P.: Use of acoustic temperature measurements in the cement manufacturing pyroprocess . In: Proc. Cement Industry Technical Conf., 2005, Conference Record, 23–33. [9] S hen G.Q., A n L.S., J iang G.S.: Real-time monitoring on boiler combustion based on acoustic measurement. In: Proc. Power India Conf., 2006, IEEE, 4. [10] Z hang H ongzhou : Research on . In

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Zbigniew Korczewski

Pawlak W., Wiklik K., Morawski J.M.: Synthesis and investigations of aircraft turbine engine control systems using computer simulation methods (in Polish). Instytut Lotnictwa, Warszawa 1996 Szczeciń ski S.: Aircraft turbine engines (in Polish). Wydawnictwo MON, Warszawa 1965 Wiśniewski S.: Temperature measurements in investigations of thermal engines and systems (in Polish). WNT, Warszawa 1983 Technical and operating documentation of naval turbine engines GTU6a, DE59, ZORYA type UGT

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Zbigniew Korczewski

References Balicki W., Szczeciński S.: Diagnosing aeronautic turbine engines. Fluid-flow machines (in Polish). Scientific Library of the Institute of Aviation. Warsaw 2001. Boliński B., Stelmaszczyk Z.: Aeronautic propulsion systems. Operation of turbine engines (in Polish). WKiŁ, Warsaw 1981. Cohen H., Rogers G. F. C., Saravanamuttor H. I. H.: Gas turbine theory. Longman Scientific & Technical, New York 1987. Dzida M.: Influence of gas turbine

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Zbigniew Korczewski

References Balicki W., Szczeciński S.: Diagnosing aircraft turbine engines. Rotor machines. (in Polish). Scientific Library of the Institute of Aviation. Warsaw 2001. Boliński B., Stelmaszczyk Z.: Aircraft propulsion systems. Operation of turbine engines (in Polish). WKiL, Warsaw 1981. Cohen H., Rogers G. F. C., Saravanamuttor H. I. H.: Gas turbine theory. Longman Scientific & Technical, New York 1987. Dzida M.: Influence of gas turbine controller

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Jerzy Kowalski

REFERENCES Agarwal, D. Singh, S.K. Agarwal, A.K. (2011). Effect of Exhaust Gas Recirculation (EGR) on performance, emissions, deposits and durability of a constant speed compression ignition engine, Applied Energy, 88, pp. 2900-2907. Buonoa, D. Senatorea, A. Pratib, M.V. (2012). Particulate filter behaviour of a Diesel engine fueled with biodiesel, Applied Thermal Engineering, 49, pp. 147-153. Carlton J.(2012). Marine Propellers and Propulsion Third Ed. Elsevier Ltd. Chalet, D. Mahe, A. Migaud, J. Hetet, J.-F. (2011). A frequency modelling

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Jerzy Kowalski

References 1. J. Carlton: Marine Propellers and Propulsion. Third Ed., Elsevier Ltd., 2012. 2. International Safety Guide for Oil Tankers and Terminals. ICS, OCIMF, IAPH, 2006. 3. R. Pawletko, S. Polanowski: Research of the influence of marine diesel engine Sulzer AL 25/30 load on the TDC position on the indication graph, Journal of KONES , Powertrain and Transport 17 ,2010, pp. 361 - 368. 4. R. Pawletko, S. Polanowski : Influence of gas channels of medium speed marine engines on the accuracy of

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Jakub Čedík, Martin Pexa, Bohuslav Peterka, Michal Holůbek, Daniel Mader and Radek Pražan

additives on combustion-emission-performance characteristics of a multiple cylinder diesel engine fuelled with diesel-jatropha biodiesel blend. In Energy Conversion and Management, vol. 94, pp. 84–94. ISO 8178-4: 2017. Reciprocating internal combustion engines – Exhaust emission measurement – Part 4: Steady-state and transient test cycles for different engine applications. MASJUKI, H. H. – KALAM, M. A. – MALEQUE, M. A. – KUBO, A. – NONAKA, T. 2001. Performance, emissions and wear characteristics of an indirect injection diesel engine using coconut oil blended

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Michal Vojtíšek and Martin Kotek

, pp. 253 - 268. [26] Dearth M.A., et al. (2005). SemtechD: The Chassis Roll Evaluation of a Commercial Portable Emission Measurement System (PEMS). SAE Technical Paper 2005-01-0673, Society of Automotive Engineers, Warrensdale, PA, USA, 2005. [27] Breton Leo (2000). Real-time on-road vehicle exhaust gas modular flowmeter and emissions reporting system. United States patent no. 6148656, 2000. [28] Nakamura H., Kihara N., Adachi M., Ishida K. (2002). Development of a Wet-Based Ndir and Its Application to On