Piston Engines II
Lecturer (assistant) | |
---|---|
Number | 0000000982 |
Type | lecture |
Duration | 3 SWS |
Term | Sommersemester 2024 |
Language of instruction | German |
Position within curricula | See TUMonline |
Dates | See TUMonline |
- 16.04.2024 16:15-17:00 003, Hörsaal 2, "Interims II"
- 22.04.2024 08:30-10:00 MW 0350, Egbert-von-Hoyer-Hörsaal
- 23.04.2024 16:15-17:00 003, Hörsaal 2, "Interims II"
- 29.04.2024 08:30-10:00 2701M, Seminarraum
- 29.04.2024 10:15-11:00 2701M, Seminarraum
- 06.05.2024 08:30-10:00 2701M, Seminarraum
- 06.05.2024 10:15-11:00 2701M, Seminarraum
- 13.05.2024 08:30-10:00 2701M, Seminarraum
- 13.05.2024 10:15-11:00 2701M, Seminarraum
- 27.05.2024 08:30-10:00 2701M, Seminarraum
- 27.05.2024 10:15-11:00 2701M, Seminarraum
- 03.06.2024 08:30-10:00 2701M, Seminarraum
- 03.06.2024 10:15-11:00 2701M, Seminarraum
- 10.06.2024 08:30-10:00 2701M, Seminarraum
- 10.06.2024 10:15-11:00 2701M, Seminarraum
- 17.06.2024 08:30-10:00 2701M, Seminarraum
- 17.06.2024 10:15-11:00 2701M, Seminarraum
- 24.06.2024 08:30-10:00 2701M, Seminarraum
- 24.06.2024 10:15-11:00 2701M, Seminarraum
- 08.07.2024 08:30-10:00 2701M, Seminarraum
- 08.07.2024 10:15-11:00 2701M, Seminarraum
- 15.07.2024 08:30-10:00 2701M, Seminarraum
- 15.07.2024 10:15-11:00 2701M, Seminarraum
Admission information
Objectives
After participating in the module events, the student is able to
... understand the thermodynamic basics of engines and transfer them to the complexity of engine relationships.
... to understand actuators and sensors in the engine.
... to analyze the engine behavior in the form of mathematical models and to evaluate the validity of different engine models.
... understand the effects of engine control changes on both petrol and diesel engines. ... apply methods of DoE processes.
... evaluate the effort and complexity of optimization tasks.
... understand the thermodynamic basics of engines and transfer them to the complexity of engine relationships.
... to understand actuators and sensors in the engine.
... to analyze the engine behavior in the form of mathematical models and to evaluate the validity of different engine models.
... understand the effects of engine control changes on both petrol and diesel engines. ... apply methods of DoE processes.
... evaluate the effort and complexity of optimization tasks.
Description
- Thermodynamic Basics and combustion
- Combustion system Development and charging
- Explanation of basic relationships regarding engine settings and emissions
- 0D/1D/3D simulation of internal combustion engines
- phaenomenological Models
- presentation of selsctet actuators and sensors
- design and structure of engine control unit
- design and structure of ECU-Software
- presentation of application process and test bench equipment
- presentation of DoE-Processes and statistical test planning
- derivation of opmiziation strategies
- Combustion system Development and charging
- Explanation of basic relationships regarding engine settings and emissions
- 0D/1D/3D simulation of internal combustion engines
- phaenomenological Models
- presentation of selsctet actuators and sensors
- design and structure of engine control unit
- design and structure of ECU-Software
- presentation of application process and test bench equipment
- presentation of DoE-Processes and statistical test planning
- derivation of opmiziation strategies
Prerequisites
Piston Engiens I
Teaching and learning methods
In the lecture, the teaching content is conveyed using lectures, presentations and tablet PCs. The theory is supported by use cases. Experiences and problems from practice are presented and discussed.
Examination
written examination
Recommended literature
Reif, Konrad (2020): Dieselmotor-Management. 6. Aufl. Springer Vieweg Wiesbaden
Reif, Konrad (2014): Ottomotor-Management. 4. Aufl. Springer Vieweg Wiesbaden
Reif, Konrad (2014): Ottomotor-Management. 4. Aufl. Springer Vieweg Wiesbaden