Двигуни внутрішнього згоряння, установки та технічна експлуатація Internal Combustion Engines, Plants and Technical Maintenance Department
INTERNAL COMBUSTION ENGINE'S SYSTEMS
Type: compulsoryLecturer: Oleksii GogorenkoYear of preparation: 4thSemester: 7thNumber of credits: 3Number of modules: 1Number of content modules: 3Total number of hours: 90Type of control: testWork programme 2021Work programme 2024
Hours distribution
General information
Acquired competences
● Ability to solve complex specialised problems and practical work in the field of power engineering or in the process of study, which involves the application of the theory of heat and mass transfer, technical thermodynamics, hydrogas dynamics, energy transformation (conversion), technical mechanics and methods of relevant sciences and is characterised by complexity and uncertainty of conditions.● Ability to apply knowledge in practical situations.Knowledge and understanding of the subject area and understanding of professional activities.Ability to apply standard calculation methods in the design of parts and components of power and process equipment;● Ability to determine the operating modes of power and heat engineering equipment and apply methods of rational use of raw materials, energy and other types of resources;● Ability to apply knowledge and understanding to the design of marine internal combustion engines and the design and construction of their main elements;● Ability to apply knowledge to the design of transport and stationary engines, understanding their features in comparison with marine internal combustion engines and to design and construct their main components.
Learning outcomes
● Knowledge and understanding of engineering sciences at the level required to achieve other programme outcomes, including some awareness of recent developments● Apply engineering technologies, processes, systems and equipment in accordance with the speciality 142 Power Engineering; select and apply appropriate standard analytical, computational and experimental methods; correctly interpret the results of such studies;● Develop and design energy engineering products, processes and systems that meet specific requirements, which may include awareness of non-technical (society, health and safety, environment, economy and industry) aspects; select and apply appropriate design methodology;● Apply the standards of engineering practice in the field of power engineering;● Develop and design basic units, systems and parts of internal combustion engines, select and apply adequate design methodologies, select basic units for engines from the size ranges developed by world manufacturers.
Programme of the academic discipline
Module 1.
Content module 1: General provisions on internal combustion engine systems. Power supply systems
Topic 1: ICE systems. Basic concepts. Requirements for modern internal combustion engine systems.
Topic 2. Power supply system for diesel engines. Purpose of the system. Classification. Schematic diagrams of the system. Parameters and features of fuel supply. Elements and assemblies of the system.
Topic 3. Power supply system for engines with forced ignition. Gas-air mixture ignition system. Purpose of the system. Classification. Schematic diagrams of systems. Parameters and features of fuel supply. Elements and assemblies of systems.
Content module 2. Oil system, cooling and starting systems
Topic 4. Oil system. Purpose of the system. Classification. Schematic diagrams of the system. Requirements for oil systems and their parameters. Elements and units of the system.
Topic 5. Cooling system. Purpose of the system. Classification. Schematic diagrams of the system. Requirements for cooling systems. Basic parameters of the system. Elements and units of the system.
Topic 6. Start-up system. Purpose of the system. Classification. Features of starting various types of internal combustion engines. Working conditions. Requirements for starting systems and their parameters. Elements and assemblies of the system. Systems for ensuring starting at low temperatures.
Content module 3. Air supply, gas exhaust, control and diagnostic systems
Topic 7. Air supply and gas exhaust systems. Purpose. Schematic diagrams of systems. General requirements for systems. Inlet and outlet pipelines. Intake and exhaust noise mufflers. Systems for the neutralisation of toxic substances. Design of catalytic converters and features of their application.
Topic 8: Engine control and diagnostic systems. Requirements for internal combustion engine control systems. The need for regulation. The relationship between the quality of regulation and environmental and performance indicators of the engine. Modern integrated control systems for internal combustion engines. Engine as an object of diagnostics. Means and methods of diagnostics. Modern on-board diagnostic system.
Topics of practical classes
● ICE systems. Basic concepts.
● Power supply system of diesel engines. Determination of the main parameters of fuel pumps, fuel reserve, power consumed to drive the pumps. Determination of the area of filter elements. Determination of the main dimensions of the injectors.
Power supply system for engines with forced ignition. Gas-air mixture ignition system Determination of the main parameters of fuel pumps, fuel reserve, power consumed to drive the pumps. Determination of the area of filter elements. Determination of the main dimensions of the injectors.
● Oil system. Determination of the main parameters of the oil pumps, oil reserve, power consumption to drive the pumps. Determination of the volume of the oil tank, the heat exchange surface area of the heat exchanger and the area of the filter elements.
● Cooling system. Determination of the main parameters of the circulation pumps, coolant reserves, heat exchanger surface area.
● Start-up system. Calculations of the main elements of the start-up systems.
Air supply and gas exhaust systems. Calculation of aerodynamic losses in the gas exhaust system. Determination of structural dimensions of pipelines. Calculation of gas exhaust system insulation.
Engine control and diagnostic systems. Sensors and actuators of the control system. Diagnostic tools and methods. Modern on-board diagnostic system.
Topics of laboratory work
Laboratory work №1. Inspection of the power supply system of diesel engines
Laboratory work №2. Inspection of the power supply system of engines with forced ignition
Laboratory work №3. Inspection of the oil system
Laboratory work №4. Inspection of the cooling system
Laboratory work №5. Inspection of the start-up system
Laboratory work №6. Inspection of the air supply and gas exhaust system
Forms of current and final control
The achievements of the applicant are assessed according to the 100-point system of the University.
Recommended sources of information
Main literature
1. Nalyvaiko V. S. Marine internal combustion engines: a textbook for university students / V. S. Nalyvaiko, B. G. Tymoshevskyi, S. G.
Tkachenko - Mykolaiv: Torubara V. V. Publishing House, 2015. 332 p.
2. Basshuysen, R. Internal Combustion Engine Handbook. Basics, Components, Systems, and Perspectives. Edited by Richard van Basshuysen and Fred Schäfer, Vieweg Verlag, Wiesbaden, Germany, 2002. - 874 р.
3. Lino Guzzella, Christopher H. Onder Introduction to Modelling and Control of Internal Combustion Engine Systems. Springer-Verlag Berlin Heidelberg New York, 2004. - 303р.
4. Nalyvaiko V.S. Structural units and systems of marine internal combustion engines / V.S. Nalyvaiko, B.G. Tymoshevskyi - Mykolaiv: NUK,
2013. 100 р.
5. Timchenko I. I. Systems of internal combustion engines / I. I. Timchenko, P. V. Zhadan, S. S. Zhylin. Kh.: KhNADU, 2007. - 204 p.
6. Dyachenko, V. G. Internal combustion engines. Theory: textbook / V. G. Dyachenko; edited by A. P. Marchenko - Kharkiv: NTU 'KhPI', 2008.
488 р.
7. Timchenko I. I. Automobile engines / I. I. Timchenko, F. Yu. Kh.: Osnova, 1995. - 464 p.
8. Abramchuk F.l. Automobile engines / F.l. Abramchuk, Y.F. Gutarevych, K.E. Dolganov, I.. Timchenko - K.: Aristey, 2009. - 476 р.
9. Artemov G.A. Ship power plants / G.A. Artemov, V.M. Gorbov: UDMTU, 2002. - 356р.
10. Internal combustion engines: A series of textbooks in 6 volumes. T.1. Development of designs of forced engines of land transport machines / Edited by Prof. A. P. Marchenko, Honoured Worker of Science of Ukraine, Prof. A. F. Shekhovtsov - Kharkiv: Publishing centre of NTU 'KhPI', 2004. - 491 р.
11. Kyslykov V. F. Structure and operation of cars / V. F. Kyslykov, V. V. Lushchyk - K.: Lybid, 2002. - 400 p.
12. Chernysh I.l. Design of modern marine low-speed diesel engines / I.l. Chernysh, M.O. Kolehayev - Odesa: Phoenix, 2016. - 142 p.
13. Methodical instructions for independent work in the discipline 'Design of ship power plant systems' for students studying for the second (master's) level of higher education in the specialty 135 'Shipbuilding' (specialisation 'Internal Combustion Engines') / V. Uvarov, R.
Avdiunin, V. Khomenko, V. Misko - Mykolaiv: Torubara V. V. Publisher, 2018. - 100 p.
Supporting literature
1. Nalyvaiko, V. S. Internal combustion engine systems: methodical instructions for the implementation of the course project / V. S.
Nalyvaiko, G. O. Stepanov, S. G. Tkachenko - Mykolaiv: NUK, 2005. 68 p.
2. Cooling system application and installation guide. Caterpillar, 2006. - 129 p.
3. Guzzella L., Onder C. H. Introduction to Modelling and Control of Internal Combustion Engine Systems. Springer-Verlag, Berlin, Heidelberg, 2010. - 354 р.
4. Mollenhauer K. Handbook of Diesel Engines / K. Mollenhauer, H. Tschoeke. - Germany: Springer, 2010. - 636 р.
5. Pulkrabek Willard W. Engineering Fundamentals of the Internal Combustion Engine. New Jersey: Prentice-Hall, 1997. - 411р.
6. Practical bases of diagnostics of automobile engines: a textbook / V. D. Migal, V. A. Korogodsky, 0. I. Voronkov, I. M. Nikitchenko - Kharkiv:
KhNADU, 2021. 412р.
7. Technical operation and maintenance of vehicles: Technology / OA Ludchenko. - K.: Vysha Shkola, 2007. - 527р.
8. Nalyvaiko V. S. Methodical instructions for the implementation of the course project in the discipline 'Internal combustion engine systems' / V. S. Nalyvaiko, G. O. Stapanov, S. G. Tkachenko - Mykolaiv: NUK, 2005. 68р.
9. Sergeev O. P. Thermal engines. Outline / O. P. Sergeev, V. O. Ulexin. -Dnipropetrovsk, 2012. - 246р.
10. Chernysh I. Modern marine diesel engines: features of design, operation and automatic control / I. Chernysh, S. Karynsky, E. Ozhenko - Odesa: OMA, 2019. 217р.
Information resources on the Internet
1. Vernadsky National Library of Ukraine. Access mode: http://www.nbuv.gov.ua.
2. Scientific Library of the Admiral Makarov National University of Shipbuilding. Access mode: http://lib.nuos.edu.ua.
3. Kharkiv State Scientific Library named after V. G. Korolenko. Access mode: http://korolenko.kharkov.com.
4. NUOS repository: https://eir.nuos.edu.ua/home
5. Catalogue of publications of the State Enterprise 'Classification Society Register of Shipping of Ukraine' https://shipregister.ua/katalog-
6. Society of Automotive Engineers (SAE): http://www.sae.org
7. Winterthur Gas & Diesel Ltd. (WinGD) www.wingd.com
8. Wärtsilä https://www.wartsila.com
9. MAN Energy Solutions https://www.man-es.com
10. Caterpillar website https://www.caterpillar.com
11. Mitsubishi website: https://www.mhi.com
12. Akasaka Diesels Ltd website: http://www.akasaka-diesel.jp/en/
13. Daihatsu Diesel website: https://www.dhtd.co.jp/en/
14. Hyundai website: http://www.hyundai-engine.com/en/