Двигуни внутрішнього згоряння, установки та технічна експлуатація Internal Combustion Engines, Plants and Technical Maintenance Department
DESIGN AND ENGINEERING OF INTERNAL COMBUSTION ENGINES
Type: compulsoryLecturer: Olexander MitrofanovYear of preparation: 1stSemester: 2ndNumber of credits: 4 Number of modules: 1Кількість змістових модулів: 3Number of content modules: 120Type of control: екзаменWork programme 2023
Розподіл годин
General information
Acquired competences
● Ability to analyze and comprehensively integrate modern knowledge of natural, engineering, socio-economic and other sciences to solve complex problems and problems associated with the design and operation of energy and heat-technological equipment.● Ability to develop and implement innovative projects and programs, ensure product competitiveness, carry out feasibility studies of projects in the field of power engineering.● Ability to design and operate power and heat technology equipment.● Ability to apply modern CAD and engineering calculation programs for the design and engineering of ICE and its parts.
Learning outcomes
● Formulate and solve complex engineering, production and/or research problems during the design, manufacture and operation of power equipment and the creation of competitive developments, the implementation of results in innovative projects.● Create the latest technologies and processes and justify the choice of equipment and tools, taking into account the limitations in energy engineering based on modern knowledge in the energy and related industries.● Formulate and solve innovative problems of the power engineering industry taking into account the requirements for results, technical standards, as well as non-technical (society, health and safety, intellectual property, environment, economy and production) aspects.
Programme of the academic discipline
Module 1.
Content module 1. Procedure for creating an engine. Construction of the skeleton.
Topic 1. Procedure for creating new engines. Standard size rows. Selection of the type of engine, its design scheme, basic parameters and dimensions of the cylinder.
Topic 2. Structural diagrams of the frame. Foundation frames, purpose, working conditions and operating forces. Structural diagrams and design of foundation frames.
Topic 3. Crankcases (stands) of engines, purpose, operating conditions and operating forces. Selection of design scheme and design of crankcase, block crankcase.
Topic 4. Engine cylinder blocks (bushings and blocks), purpose, operating conditions and acting forces. Selection of structural layout and design of engine cylinders of various types.
Topic 5. Operating cylinder covers, purpose, operating conditions and operating forces. Selection of design scheme and design of covers of working cylinders of engines of various types.
Content module 2. Design of crank gear elements
Topic 6. Structural diagrams of KSM engines of various types, operating conditions and operating forces. Selection of CSM scheme.
Topic 7. Piston group, purpose, operating conditions and operating forces. Selection of structural layout and design of pistons.
Topic 8. Piston pin, piston rings (compression and oil removal). Purpose, working conditions and operating forces.
Topic 9. Connecting rod group, purpose, working conditions and operating forces. Selection of design diagram.
Topic 10. Connecting rod. Purpose, working conditions and operating forces. Design of connecting rods.
Topic 11. Design features of piston and connecting rod groups of crosshead type engines.
Topic 12. Crankshaft group, purpose, operating conditions and operating forces. Design of crankshafts.
Content module 3. Design of gas distribution mechanism.
Topic 13. Gas distribution mechanism. Purpose, working conditions and operating forces. Selection of design scheme and method of camshaft drive.
Topic 14. Operating valves. Purpose, working conditions and operating forces. Selection of structural layout and design of valve group.Topic 15. Design of gas distribution mechanism elements.
Topics of practical classes
● Design features of the parts of the skeleton of two-stroke and four-stroke engines.
● Calculation of elements of the engine frame (foundation frame, crankcase and working cylinder).
● Design features of the piston group. Calculation of piston strength.
● Design features of the connecting rod group. Calculation of connecting rod strength.
● Design features of piston and connecting rod groups MOD.
● Design features of the crankshaft group. Crankshaft strength calculation.
● Design features of the gas distribution mechanism of four-stroke internal combustion engines.
● Design features of the gas distribution mechanism of two-stroke internal combustion engines.
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. Marchenko A.P., Ryazantsev M.K., Shekhovtsov A.F. Internal combustion engines: a series of textbooks in 6 vols. T. 1. Development of the design of forced engines of ground transport vehicles/rev. prof. A.P. Marchenko and assl. scientist of Ukraine Prof. A. F. Shekhovtsova. Kharkiv: Flag, 2004. - 384 s.
2. Shapko V.F. Fundamentals of the theory and dynamics of automobile engines: textbook/V.F. Shapko, S.V. Shapko. - Kharkiv: Tochka, 2016. - 232 s.
3. Marchenko A.P., Ryazantsev M.K., Shekhovtsov A.F. Internal combustion engines: a series of textbooks in 6 vols. T. 2. Refinement of the design of forced engines of ground transport vehicles/Rev. A. P. Marchenko and bolt. scientist of Ukraine Prof. A. F. Shekhovtsova. Kharkiv: Flag, 2004. - 288 s.
4. Internal combustion engines. Theory: Textbook/V.G. Dyachenko; As edited by A.P. Marchenko. - Kharkiv: NTU "KhPI," 2008. - 488 s.
6. Abramchuk F. I. Car engines: Textbook/F. I. Abramchuk, Yu. F. Gutarevich, K. E. Dolganov, I. AND. Timchenko. - K.: Aristaeus, 2004. - 474 s
5. Marchenko A.P., Pylov V.A., Shekhovtsov A.F. Internal combustion engines: a series of textbooks in 6 vols. T. 4. Basics of CAD Internal Combustion Engine/edited by Prof. A.P. Marchenko and Assl. scientist of Ukraine Prof. A. F. Shekhovtsova. Kharkiv: Flag, 2004. - 336 s.
7. Abramchuk F.I., Internal combustion engines: A series of textbooks in 6 volumes. T.6 Reliability of ICE/F. I. Abramchuk, M.K. Ryazantsev, A.F. Shekhovtsov/edited by Prof. A.P. Marchenko and Assl. scientist of Ukraine Prof. A. F. Shekhovtsova. Kharkiv: Flag, 2004. - 324 s.
8. Zakharchuk V. I. Fundamentals of the theory and design of automobile engines: A textbook for students of higher educational institutions. - Lutsk: LNTU, 2011 - 233 p.
Supporting literature
1. Gutarevich Yu. F. Transport power plants (traditional, non-traditional and alternative), the principle of operation and structural features: Textbook/Yu. F. Gutarevich, L. P. Merzhievskaya, O. V. Sirota, D. M. Trifonov - K.: NTU, 2015. - 244 s.
2. Bilousov I. Modern Marine Internal Combustion Engines / I. Bilousov, M. Bulgakov, V. Savchuk – Springer Series on Naval Architecture, Marine Engineering, Shipbuilding and Shipping, 2020. – 395 p.
3. John Manning. Internal Combustion Engine Design. – Ricardo UK Ltd; First Edition, 2012. - 657
Information resources on the Internet
1. National Library of Ukraine named after V.I. Vernadsky. Access mode: http://www.nbuv.gov.ua
2. Scientific library of the National University of Shipbuilding named after Admiral Makarov. Access mode: http://lib.nuos.edu.ua
3. Kharkiv State Scientific Library named after V.G. Korolenko. Access mode: http://korolenko.kharkov.com