Course Unit Code | 361-0530/04 |
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Number of ECTS Credits Allocated | 4 ECTS credits |
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Type of Course Unit * | Choice-compulsory |
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Level of Course Unit * | Second Cycle |
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Year of Study * | |
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Semester when the Course Unit is delivered | Winter Semester |
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Mode of Delivery | Face-to-face |
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Language of Instruction | English |
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Prerequisites and Co-Requisites | Course succeeds to compulsory courses of previous semester |
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Name of Lecturer(s) | Personal ID | Name |
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| JAN13 | Ing. Radim Janalík, CSc. |
| PAV641 | Ing. Petr Pavlík, Ph.D. |
Summary |
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The course acquaints students with the issues of combustion turbines and engines used in cogeneration units in the field of electricity and heat production.
In the field of internal combustion engines are discussed the piston combustion engines - function principle, ideal and actual working cycles, energy balance, diagrams, performance calculation, thermal and thermodynamic efficiency, increasing the efficiency and performance characteristics. The students are acquainted with design of piston engines - the construction of four-stroke and two-stroke engines, fuel preparation and dosing systems, cooling systems, ignition and control systems, construction of mobile and stationary motors and their use in energy production and transport. Another topic is the issue of ecology and economy of operation - emission systems, systems to increase efficiency, economy of operation, etc.
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Learning Outcomes of the Course Unit |
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Students are acquainted with bases theory, thermal calculation, construction, utilization and operation of combustion turbine and motors |
Course Contents |
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Combustrion Engines
1. Function principle of combustion engines
2. Ideal and actual working cycles
3. Efficiency and performance characteristics
4. Construction of four-stroke and two-stroke engines
5. Individual systen and parts of engines
6. Utilization in transport and energeics
7. Efficiency and economy of operation
Gas turbine
8. Function principle of Gas turbines
9. Brayton cycle (ideal and real)
10. Efficiency and way of increasing of efficiency
11. Microturbine
12. Main patrts construction
13. Aircraft gas turbine engines
14. Steam-gas cycle
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Recommended or Required Reading |
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Required Reading: |
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MORAN, M., J., SHAPIRO, H., N. Fundamental of Engineering Thermodynamics. 2nd ed. New York: John Wiey&Sons, Inc., December 2002. ISBN 0-471-97960-0.
HEISLER, H. Advanced engine technology. Oxford: Butterworth-Heinemann, c 1995. ISBN 0-340-56822-4.
GIAMPAOLO, Tony. Gas Turbine Handbook: Principles and Practice. The Fairmont Press, Fifth Edition, 2013. ISBN–10: 0-88173-712-7.
JANALÍK. R. Gas turbine, Projekt: Technika pro budoucnost 2.0. Učební opora. VŠB TU Ostrava, 2020. |
TRNKA, URBAN. Spalovacie motory I. Vydavatelství Alfa Bratislava, 1992.
KYSELA, TOMČALA. Spalovací motory I. Skripta. Katedra energetiky VŠB, 2003.
KYSELA, TOMČALA. Spalovací motory II. Skripta. Katedra energetiky VŠB, 2004.
BEČVÁŘ, J. Tepelné turbíny. SNTL Praha, 1968.
JANALÍK. R. Gas turbine, Projekt: Technika pro budoucnost 2.0. Učební opora. VŠB TU Ostrava, 2020. |
Recommended Reading: |
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FERGUSON, Colin, R. Internal combustion engines. New York: John Wiley & Sons, 1986.
MÍKA, J. Thermal Motors.
LEE, T.-W. Aerospace Propulsion. Chichester, John Wiley & Sons, United Kingdom, 2014. |
MACEK, SUK. Spalovací motory I. Skripta ČVUT Praha 2000.
GIAMPAOLO, Tony. Gas Turbine Handbook: Principles and Practice. The Fairmont Press, Fifth Edition, 2013. ISBN–10: 0-88173-712-7.
LEE, T.-W. Aerospace Propulsion. Chichester, John Wiley & Sons, Ltd., United Kingdom, 2014. |
Planned learning activities and teaching methods |
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Lectures, Tutorials |
Assesment methods and criteria |
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Tasks are not Defined |