Двигуни внутрішнього згоряння, установки та технічна експлуатація Internal Combustion Engines, Plants and Technical Maintenance Department
BASICS OF INTERNAL COMBUSTION ENGINES COMPUTER DESIGN
Hours distribution
General information
Acquired competences
● Ability to solve complex specialized problems and practical works in the field of power engineering or in the learning process, which involves the application of the theory of heat and mass exchange, technical thermodynamics, hydrogas dynamics, energy transformation (transformation), technical mechanics and methods of the relevant sciences and is characterized by complexity and uncertainty of conditions● Ability to apply knowledge in practical situations.● Knowledge and understanding of the subject area and understanding of professional activity.● Skills of using information and communication technologies.● Ability to apply their knowledge and understanding to identify, formulate and solve engineering problems using electrical engineering techniques.● Ability to apply their knowledge and understanding to the design of ship's internal combustion engines and the design and construction of their main elements.● Ability to apply their knowledge for the design of transport and stationary engines, understanding their features in comparison with ship's ICE and for the design and construction of their main elements.
Learning outcomes
● Understanding the broad interdisciplinary context of specialty 142 Power Engineering.● Develop and design products in the field of power engineering, processes and systems that meet specific requirements, which may include awareness of non-technical (society, health and safety, environment, economy and industry) aspects; selection and application of adequate design methodology.● Design power engineering facilities, apply modern commercial and proprietary software products based on an understanding of the industry's advanced achievements.● Apply practical skills to solve problems involving the implementation of engineering projects and research.● Manage professional activities in the work on projects in at least one of the energy directions, taking responsibility for decision-making.● Develop and design the main units, systems and parts of internal combustion engines, choose and apply adequate design methodologies, select the main units for engines from standard-sized series developed by world manufacturers.
Programme of the academic discipline
Module 1. Theoretical basis of ICE modeling and design
Content module 1. Modeling and calculations in engine building.
Topic number 1. The main stages of design and creation of internal combustion engines.
Topic number 2. Modern ICE modeling and calculation programs.
Topic number 3. Tools and tools for performing calculations when designing internal combustion engines in the Visual Basic for Application environment.
Topic number 4. Create simulation models in Visual Basic for Application.
Content module 2. Creates 3D models of internal combustion engine parts.
Topic number 1. Modern programs for creating volumetric models of ICE parts.
Topic number 2. Tools and tools for creating 3D models of ICE parts and assemblies in AutoCAD.
Topic number 3. Runs 3D models of parts and internal combustion engines in AutoCAD.
Topic number 4. Creation of working drawings of ICE parts on the basis of three-dimensional models using computer design tools.
Module 2. Optimization of ICE operation parameters (course work).
Topics of laboratory work
Laboratory work №1. Determination of parameters and operation characteristics of low-turnover marine internal combustion engines using WinGD's General Technical Data software system.
Laboratory work №2. Determination of parameters and characteristics of operation of low-turnover marine internal combustion engines using MAN CEAS engine calculations software system.
Laboratory work №3. Full and fractional factor experiment using Visual Basic for Application.
Laboratory work №4. Using Visual Basic for Application to construct polynomial regression equations.
Laboratory work №5. Use Visual Basic for Application to determine the optimal combination of factors.
Laboratory work №6. Creates a 3D model of the ICE frame part.
Laboratory work №7. Building a three-dimensional model of a part of the ICE gas distribution mechanism.
Laboratory work №8. Building a three-dimensional model of a part of the piston group of internal combustion engines.
Laboratory work №9. Building a three-dimensional model of a part of the connecting rod group of internal combustion engines
Laboratory work №10. Creates detail working drawings based on the ICE assembly drawing.
Course project
Topic of the course project: Optimisation of parameters of operation (purpose) of the engine (brand)
Content of the course project
1. Calculation and explanatory note (25... 30 pages):
● description of the engine;
● calculation of the nominal mode of operation of the engine according to the method of Grinevetsky-Masing;
● selection of the optimal parameters of the ICE.
2. Graphic part:
● volumetric model of the ICE part;
● construction of graphic dependencies of the main parameters of ICE.
Application form for the implementation of the course project
Topics of course projects (2024/2025 academic year)
Guidelines for the implementation of the course project
Prototype of course project No. 1
Prototype of course project No. 2
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., Timoshevsky B. G., Tkachenko S. G. Ship internal combustion engines: manual. Nikolaev: Publishing house Torubara V.V., 2015. - 332 s.2. Minchev D.S. Methods for diagnosing the technical condition of combustion engines using digital doubles: dis. doctor of technical sciences: special. 05.05.03: branch of knowledge 14/Dmitry Stepanovich Minchev; Odes. nat. sea. un-t; Nats. Techn. un-t' Kharkov. Polytechnic. in-t. " - Odessa, 2023. - 385 s.3. Nalyvaiko V.S., Tkachenko S.G., Khomenko V.S., Avdyunin R.Yu. Fundamentals of computer design of ICE: tutorial. Manual. Nikolaev: Publishing house Torubara V.V., 2017. - 135 p.4. Minchev D. S., Nagorny A. V. Information bases of systems of computer-aided design of internal combustion engines: planning and processing of experiment results: training manual. Nikolaev: NUK Publishing House, 2012. - 100 s.5. Andreev A. A., Dudchenko O. M., Loy S. A., Spikhtarenko V. V., Tsviklis V. S. Computer technologies in thermotechnical calculations. Part I: tutorial. Kherson: Grin D.S., 2014. - 224 s.6. Munir M. Hamad, Autocad 2021 3D modeling. Publisher: David Pallai Mercury learning and information. 2021. – 401 p.7. Bernd S. Palm, Alf Yarwood Introduction to AutoCAD® 2017 2D and 3D design. Routledge Taylor & Francis Group, New York, 2017. – 435 p.
Supporting literature
1. Michael Alexander, Dick Kusleika Excel® 2019 Power Programming with VBA. John Wiley & Sons, Inc., Indianapolis, Indiana, 2019. – 756 p. 2. Chiodi M. An innovative 3D-CFD-Approach towards Virtual Development of Internal Combustion Engines. Germany : Vieweg+Teubner Verlag, 2011. – 278 p. 3. Günter P. Combustion Engines Development. Berlin, New York : Springer, 2012. – 642 p.4. Rolf Isermann Engine Modeling and Control: Modeling and Electronic Management of Internal Combustion Engines. Berlin : Springer, 2014. – 658 p. 5. Jozˇe Duhovnik, Ivan Demšar, Primozˇ Drešar Space Modeling with SolidWorks and NX Springer International Publishing Switzerland 2015. – 499 р. 6. Pavlovsky S.M., Babkov A.V. Fundamentals of automated design: laboratory work in the AutoCAD environment: textbook/S.M. Pavlovsky, A.V. Babkov. Kherson: OLDIE-PLUS, 2021. - 598 s.7. Douglas Smith, Antonio Ramires, Ashlegh Congon-Fuller Technical drawing with AutoCAD. Publisher: Stephen Schroff, 2022. -517 p.
Information resources on the Internet
1. Scientific and technical journal "Internal combustion engines." National Technical University "Kharkiv Polytechnic Institute."2. Scientific and technical journal "Ship power plants." National University "Odessa Maritime Academy."3. https://www.man-es.com/marine/4. https://wingd.com/products-solutions/engines/5. American Society for Quality: www.asq.org6. Configuration Management Process Improvement Center: www.cmpic.com7. Official website of the American multinational corporation Autodesk https://www.autodesk.com/