Course detail
Engine Dynamics
FSI-9DSMAcad. year: 2023/2024
Driving mechanisms of combustion engines. Driving mechanisms kinematics and dynamics. Balancing of driving mechanisms of combustion engines. Combustion engines bearings. Vibration in driving mechanisms of combustion engines, calculation models. Vibration dampers in driving mechanisms, dynamic vibration dampers. Cam mechanisms in combustion engines. Dynamics of hybrid drives.
Language of instruction
Czech, English
Mode of study
Not applicable.
Guarantor
Entry knowledge
Technical mechanics, kinematics, dynamics. Elasticity and strength. Fundamentals of finite element method. Fundamentals of multi-body systems theory.
Rules for evaluation and completion of the course
The exam verifies and evaluates the knowledge of mathematical and physical fundamentals of presented problems and application to solved tasks, foremost in relation with a dissertation thesis. The exam consists of a written part and an oral part.
Education runs by the way of tuitions with subject provider.
Education runs by the way of tuitions with subject provider.
Aims
The objective of this course is to make students familiar with dynamics of driving mechanisms of combustion engines, in area of calculation methods and in experimental research too.
This course enables students to acquire the knowledge and basic practical skills within the area of calculation methods and experimental research of driving mechanism dynamics.
This course enables students to acquire the knowledge and basic practical skills within the area of calculation methods and experimental research of driving mechanism dynamics.
Study aids
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
ADAMS, Maurice L. Bearings: basic concepts and design applications. Boca Raton: CRC Press, 2017. ISBN 9781138049086. (EN)
DAVITASSHVILI, Nodar a Valeh BAKHSHALIEV. Dynamics of Crank-Piston Mechanisms. Springer, 2016. ISBN 981100322X. (EN)
FUCHS, Anton: Automotive NVH technology. New York, NY: Springer Berlin Heidelberg, 2015. ISBN 978-3-319-24053-4. (EN)
HAYES, John G. a Gordon A. GOODARZI. Electric powertrain: energy systems, power electronics & drives for hybrid, electric & fuel cell vehicles. Hoboken, NJ: John Wiley, 2018. ISBN 978-1-119-06364-3. (EN)
NORTON, Robert L. Cam design and manufacturing handbook. New York: Industrial Press, c2002. ISBN 0-8311-3122-5. (EN)
DAVITASSHVILI, Nodar a Valeh BAKHSHALIEV. Dynamics of Crank-Piston Mechanisms. Springer, 2016. ISBN 981100322X. (EN)
FUCHS, Anton: Automotive NVH technology. New York, NY: Springer Berlin Heidelberg, 2015. ISBN 978-3-319-24053-4. (EN)
HAYES, John G. a Gordon A. GOODARZI. Electric powertrain: energy systems, power electronics & drives for hybrid, electric & fuel cell vehicles. Hoboken, NJ: John Wiley, 2018. ISBN 978-1-119-06364-3. (EN)
NORTON, Robert L. Cam design and manufacturing handbook. New York: Industrial Press, c2002. ISBN 0-8311-3122-5. (EN)
Recommended reading
Hafner, K. E. - Maass, H._: Torsionsschwingungen in der Verbrennungskraftmaschine. Springer-Verlag Wien New York
Maass, H. - Klier, H.: Kraefte, Momente und deren Ausgleich in der Verbrennungskraftmaschine. Springer-Verlag Wien New York
Maass, H. - Klier, H.: Kraefte, Momente und deren Ausgleich in der Verbrennungskraftmaschine. Springer-Verlag Wien New York
Classification of course in study plans
Type of course unit
Lecture
20 hod., optionally
Teacher / Lecturer
Syllabus
Outline of lectures:
1. Powertrain mechanism of combustion engines, calculation models.
2. Forces in powertrains of combustion engines.
3. Powertrain balancing, crank mechanism.
4. Balancing of multi-cylinder in-line piston engines.
5. Balancing of V-engines and VR-engines.
6. Combustion engine powertrain vibrations, computational models.
7.Computational modelling of engine bearings.
8.Powertrain vibrations damping, dynamic dampers.
9.Dynamics of cam mechanism of combustion engines.
10. Dynamics of hybrid drives.
1. Powertrain mechanism of combustion engines, calculation models.
2. Forces in powertrains of combustion engines.
3. Powertrain balancing, crank mechanism.
4. Balancing of multi-cylinder in-line piston engines.
5. Balancing of V-engines and VR-engines.
6. Combustion engine powertrain vibrations, computational models.
7.Computational modelling of engine bearings.
8.Powertrain vibrations damping, dynamic dampers.
9.Dynamics of cam mechanism of combustion engines.
10. Dynamics of hybrid drives.