Двигуни внутрішнього згоряння, установки та технічна експлуатація Internal Combustion Engines, Plants and Technical Maintenance Department
DESIGN OF DEVICES AND COOLING SYSTEMS
Type: compulsoryLecturer: Yurii MoshentsevYear of preparation: 1stSemester: 1stNumber of credits: 7 Number of modules: 2Number of content modules: 3Total number of hours: 210Type of control: exam, course projectWork programme 2023
Hours distribution
General information
Acquired competences
● Ability to solve research and/or innovation problems in the field of power engineering.● Ability to apply specialised conceptual knowledge, including modern scientific achievements in the field of power engineering.Ability to design and operate power and heat engineering equipment.Ability to make effective decisions on the production and operation of power and heat engineering equipment, taking into account the requirements for quality, environmental friendliness, reliability, competitiveness and occupational safety.Ability to understand the principles and norms of academic integrity.● Ability to perform calculations, design and set up internal combustion engine systems and their components.
Learning outcomes
● Apply specialised conceptual knowledge, including modern scientific achievements, as well as critical understanding of modern problems in the field of power engineering to solve complex problems of professional activity.● Formulate and solve complex engineering, manufacturing and/or research problems in the design, manufacture and operation of power equipment and the creation of competitive developments, implementation of results in innovative projects.● Present research and innovation results, clearly and unambiguously communicate own knowledge, conclusions and arguments to specialists and non-specialists.Perform technical, economic and operational calculations of heat exchangers and engine cooling systems to ensure the design, research and operation of relevant elements in production, in various power plants with internal combustion engines and in research institutions.
Programme of the academic discipline
Module 1.
Content module 1: Heat exchangers and cooling systems for internal combustion engines
Topic 1: Designs of heat exchangers for internal combustion engines, their purpose and main parameters.
Topic 2. Operating conditions of heat exchangers in internal combustion engine cooling systems.
Content module 2. Calculation and design of heat exchangers for internal combustion engines
Topic 3: Theoretical foundations of calculations of internal combustion engine heat exchangers.
Topic 4. Methods of calculation of charge air coolers and radiators of internal combustion engines.
Topic 5. Calculations of water and oil coolers of internal combustion engines.
Content module 3: Calculation and design of cooling systems
Topic 6. Regenerative cooling systems for internal combustion engines. Possible system schemes.
Topic 7. Methods of calculation of cooling systems.
Topic 8: Optimisation and regulation of systems.
Module 2. Сourse project.
Topics of practical classes
Practical lesson 1: Study of the principles of classification, design schemes and parameters of heat exchangers for internal combustion engines.
Practical lesson 2. Study of the operating conditions of heat exchangers in internal combustion engine cooling systems.
Practical lesson 3. Study of schemes of recuperative cooling systems and basic parameters of heat exchangers.
Practical training 4. Performing calculations of air-water coolers for charge air.
Practical lesson 5. Mastering the calculation methodology for shell-and-tube oil and water coolers.
Practical training 6. Mastering the programs for calculating the forward and inverse problem for a modern cooling system.
Practical lesson 7. Optimisation of systems. Building graphs
Practical training 8. Mastering the methods of optimisation and control of cooling systems
Course project
Course project topic: Design a regenerative cooling system for an engine of type ... (engine parameters are provided in the personal assignment).
Content of the course project
1. Explanatory note (25...40 pages)
2. Graphic part
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. Moshentsev Y. L. Heat exchangers of internal combustion engines. Study guide / Yu. L. Moshentsev - Mykolaiv: NUK, 2006. 431 p.
2. Moshentsev Y. L. A complete set of materials for the study of the discipline ‘Design of devices and systems for cooling internal combustion engines.’ - 2021.
3. Moshentsev Y. L. Lecture notes on the discipline ‘Design of devices and systems for cooling internal combustion engines.’ - 2021.
4. Moshentsev Y. L. Cooling systems and heat exchangers of internal combustion engines: Study guide / Yu. L. Moshentsev, O. A. Gogorenko, D. S. Minchev - Mykolaiv: Torubara V. V. Publisher, 2020. 234 p.
5. Programmes for calculating heat exchangers and cooling systems for internal combustion engines: Study guide / Yu. L. Moshentsev, O. A. Gogorenko - Mykolaiv: NUK, 2016. 94 p.
6. Calculations of charge air coolers of internal combustion engines: Methodical instructions / Yu: Mykolaiv Regional Printing House, 2008. 24 p.
7. Kuppan T. Heat exchanger design handbook. 2000. - 1119 р.
8. Heat Exchanger Design Handbook. 2013. - 1245 р.
9. Thulukkanam K. Heat Exchanger Design Handbook. Second Edition. New York: CRC Press. - 2013. - 1186 p.
Supporting literature
1. Hesselgreaves J.E. Compact heat exchangers. Selection, design and operation. 2001. – 417 p.2. Holman J.P. Heat transfer. 2010. – 758 p.3. Kakac S. Heat exchangers selection rating and thermal desig. 2012. – 522 p.4. Bott T. R. Fouling of Heat Exchangers. 1995. – 529 р.5. Compact Heat Exchangers a Training Package for Engineers. 2000. – 255 p.6. Donatello A. Handbook for heat exchangers and tube banks design. 2010. – 185 p.7. Gupta J.P. Working with heat exchangers. Questions and answer. 1990, 312 p.8. Kakac S. Heat exchangers: selection, rating and thermal design / Sadik Kakac, Hongian Liu. 2002. – 522 p.9. Kakac S. Heat transfer enhancement of heat exchangers. 1999. – 684 p.10. Kays W.M. Convective heat and mass transfer / W.M Kays, M. E. Crawfold. 1993. – 635 р.11. Теплотехніка: підручник / Б. Х. Драганов, О. С. Бессараб, А. А. Долінський та ін. (за ред. Б. Х. Драганова). – Київ: Фірма «ІНКОС», 2005. – 400 с.12. Caterpillar. Cooling system guide. 2006. – 129 р.13. Cooling, Hiating, and Power for Instructional Module. 2004. – 168 р.14. Standards of TEMA 9th edition. 2007. – 298 р.
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.