lectures:
1. Classification of internal combustion engines, principles of function, the basic parameters of the engines, structural components of vehicle engines
2. Characteristics of vehicle engines
3. Geometrical parameters of vehicle engines and kinematics of the crank mechanism
4. Fuels and fuel mixture of Internal Combustion Engines
5. Idealized and real thermodynamic cycle of Internal Combustion Engines
6. Process of combustion in reciprocating internal combustion engines
7. Gas exchange process
8. Thermodynamic cycle modeling of Internal Combustion Engines
9. Dynamics of the crank mechanism
10. Balancing of Engine
11. Increasing the efficiency of vehicle engines
12. Engines of the railway vehicles
13. Measuring and testing of vehicle engines
14. Wankel, Stirling engines, gas turbines and electric motors.
exercise:
1. Project assignment (simulation of the development team)
2 - 5 Search and design part of the project
6. First presentation of project
7.Creation computational model of engine
8. Simplification of stress analysis of crank mechanism
9-13. Computing part of the project and second presentation of project
14. Making of technical report and final presentation of the project
1. Classification of internal combustion engines, principles of function, the basic parameters of the engines, structural components of vehicle engines
2. Characteristics of vehicle engines
3. Geometrical parameters of vehicle engines and kinematics of the crank mechanism
4. Fuels and fuel mixture of Internal Combustion Engines
5. Idealized and real thermodynamic cycle of Internal Combustion Engines
6. Process of combustion in reciprocating internal combustion engines
7. Gas exchange process
8. Thermodynamic cycle modeling of Internal Combustion Engines
9. Dynamics of the crank mechanism
10. Balancing of Engine
11. Increasing the efficiency of vehicle engines
12. Engines of the railway vehicles
13. Measuring and testing of vehicle engines
14. Wankel, Stirling engines, gas turbines and electric motors.
exercise:
1. Project assignment (simulation of the development team)
2 - 5 Search and design part of the project
6. First presentation of project
7.Creation computational model of engine
8. Simplification of stress analysis of crank mechanism
9-13. Computing part of the project and second presentation of project
14. Making of technical report and final presentation of the project