Module 1.

Content module 1: Stages and trends in the development of engines for vehicle power plants.

Topic 1: History of the development of the world engine industry.
Topic 2. Current state and trends in the further development of vehicle power plant engines.

Content module 2. Design features of transport power plants based on diesel and forced-ignition engines.

Topic 3. Classification of engines of vehicle power plants.
Topic 4. Principle of operation and design features of two-stroke and four-stroke internal combustion engines of vehicle power plants.
Topic 5. Design features of modern diesel engines for transport power plants.
Topic 6. Design features of modern petrol engines for transport power plants.
Topic 7. The use of rotary piston engines in transport power plants.
Topic 8. Design features of transport power plants when operating on natural gas.
Topic 9. Design features of transport power plants when operating on liquefied gas.

Content module 3. Alternative energy installations of vehicles.

Topic 10. Hybrid power plants of vehicles.
Topic 11. Electric power plants of vehicles.
Topic 12: Features of the use of hydrogen as a fuel in power plants with internal combustion engines.
Topic 13. Design schemes of hydrogen power plants for vehicles.
Topic 14. Vehicle power plants based on hydrogen fuel cells.
Topic 15: Promising areas for further development of transport power plants.

● Characteristics of internal combustion engines as energy sources and their applications.● Analyse the advantages and disadvantages of engine layouts in vehicles.● Gas distribution control systems.● Features of the design of fuel systems of modern petrol engines of vehicle power plants.● Features of the design of fuel systems of modern diesel engines for vehicle power plants.● Turbocharging of engines, purpose of the main schemes.● Exhaust gas recirculation system.● Design features of rotary piston engines.● Gas cylinder equipment of power plants of vehicles when working on natural gas.● Gas cylinder equipment of vehicle power plants when operating on liquefied gas.● Design features of electric power plants of vehicles. Analysis of basic schemes.● Design features of hybrid power plants of vehicles. Analysis of basic schemes.● Hydrogen internal combustion engines. Production and storage of hydrogen.● Design features of basic schemes of hydrogen power plants for vehicles.● Design features of vehicle power plants based on hydrogen fuel cells. 

Main literature
1. Marchenko A.P., Ryazantsev M.K., Shekhovtsov A.F. Internal combustion engines: a series of textbooks: in 6 vols. Vol. 1: Development of the design of forced engines of land transport machines / edited by A. P. Marchenko and Honoured Scientist of Ukraine A. F. Shekhovtsov. Kharkiv: Prapor, 2004. 384 с.
2. Marchenko A. P., Ryazantsev M. K., Shekhovtsov A. F. Internal combustion engines: a series of textbooks in 6 vols. Vol. 2. Design of forced engines of land transport machines / edited by Prof. A. P. Marchenko and Honoured Worker of Science of Ukraine Prof. A. F. Shekhovtsov. Kharkiv: Prapor, 2004. - 288 p.
3. Automobile engines: a textbook for students of the speciality ‘Automobiles and automotive economy’ / Ministry of Education and Science of Ukraine, Kharkiv National Automobile and Highway University, NTU / F. I. Abramchuk, Y. F. Gutarevych, K. E. Dolganov et al. 4th ed. Kyiv : Aristey, 2009. 476 с.
4. Transport power plants: a textbook / O. M. Artyukh, O. V. Dudarenko, V. V. Kuzmin et al. Zaporizhzhia: National University of Zaporizhzhia Polytechnic, 2021. 264 с.
5. General course of transport: Textbook / M. F. Dmytrychenko, I. I. Kelman, E. K. Vilkovsky, Z. I. Peklych, O. I. Melnychenko Lviv, 2011. 524 с.
6. Ecology and road transport: a textbook for university students / Ministry of Education and Science of Ukraine, NTU / Y. Gutarevych, D. Zerkalov, A. Govorun et al. 2nd edition, revised and supplemented. Kyiv : Aristey, 2008. 296 с.
7. Shapko V. F. Automobile engines. Fundamentals of the theory of internal combustion engines: a textbook. Kremenchuk: Kremenchuk Mykhailo Ostrohradskyi National University, 2023. 180 с.
8. Paykani A., Saray R.K., Shervani-Tabar M.T., Mohammadi-Kousha A. Effect of exhaust gas recirculation and intake pre-heating on performance and emission characteristics of dual fuel engines at part loads // Journal of Central South University. 2012. No. 19. pp. 1346-1352.
9. Ashok M., Saravanan C. The Effect of Preheating the Inlet Air to Study the Performance and Combustion Characteristics of Diesel Engine using Ethanol Emulsion // SAE Technical Paper. 2007. P. 10.
10. Crisostomi E., Shorten R., Stüdli S., Wirth F. Electrical and Plug-in Hybrid Vehicle Networks: Optimisation and Control. Taylor & Francis Group, 2018. 261 р.
11. Ehsani M., Gao Y., Longo S., Ebrahimi K. Modern Electric, Hybrid Electric and Fuel Cell Vehicles. Third Edition. Taylor & Francis Group, 2018. 419 р.
Supporting literature
1. Dyachenko V. G. Internal combustion engines. Theory : textbook / edited by A. P. Marchenko. Kharkiv: NTU ‘KHPI’, 2008. 488 с.
2. Abramchuk F. I., Gutarevych Y. F., Dolganov K. E., Timchenko I. I. Automobile engines: Textbook. - K.: Aristey, 2004. - 474 p.
3. Shapko V.F., Shapko S.V. Fundamentals of the theory and dynamics of automobile engines: Textbook. Kharkiv: Tochka, 2016. 232 с
4. Gutarevych YF, Merzhievska LP, Sirota OV, Transport energy installations (traditional, non-traditional and alternative), principles of operation and structural features: a textbook for students of universities studying in the specialities ‘Automobile and motor vehicles’, ‘Motor and automotive. Economy’, “Internal combustion engines”, “Wheeled and tracked vehicles”, “Lifting and transport, construction, road, land reclamation machines and equipment”, “Ecology and environmental protection” / Ministry of Education and Science of Ukraine, NTU. Kyiv: NTU, 2015. 244 с.
5. Automobile engines / edited by I. I. Timchenko. Kharkiv: Osnova, 1995. 295 с.
6. Diesel&Turbo M. Me-b.3 engines with variable exhaust valve timing. 2013.
7. Agarwal A., Gupta J., Sharma N., A. S. Model-Based Fault Detection on Modern Automotive Engines // In: Advanced Engine Diagnostics. Energy, Environment, and Sustainability. Singapore: Springer, 2019.
8. Simani S., Fantuzzi C., Patton R. Model-Based Fault Diagnosis Techniques //In: Model-based Fault Diagnosis inDynamic Systems Using Identification Techniques. Advances in Industrial Control. London: Springer, 2003.
9. Desantes J., Lopez J., Garcia-Oliver J., Hernández L. Application of Neural Networks for Prediction and Optimisation of Exhaust Emissions in a H.D. Diesel Engine, 2002.
10. Minchev D.S. Blitz-PRO. User's manual // blitzpro.zeddmalam.com. 2020. URL: http://blitzpro.zeddmalam.com/extra/Tutorial/Help.pdf.

Information resources on the Internet
1. Settlement service Blitz-PRO. Access mode:http://blitzpro.zeddmalam.com/application/index