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Module Number:
| 13802
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| Module Title: | Core Engine Design 1 |
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Kerntriebwerkskonstruktion 1
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| Department: |
Faculty 3 - Mechanical Engineering, Electrical and Energy Systems
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| Responsible Staff Member: | -
Prof. Dr.-Ing. Höschler, Klaus
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| Language of Teaching / Examination: | English |
| Duration: | 1 semester |
| Frequency of Offer: |
Every summer semester
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| Credits: |
6
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| Learning Outcome: | At the end of the module the student are able to understand the layout and construction of core engine designs, including compressor and combustion chamber. They are able to evaluate new designs in the field of core engines and to independently propose and develop justified adaptations of standard designs. The independent development of application-related and research-oriented knowledge represents a complementary point of the acquired competence. |
| Contents: | - Overall: purpose of construction, construction process and cooperation with other departments, legally aviation standards and certification requirements, general view on core engines
- Compressor: implementation of aerodynamic requirements, annulus determination, construction of blades, rotors and casings, construction of variable stator vanes
- Combustor: construction types, annular combustor
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| Recommended Prerequisites: | None |
| Mandatory Prerequisites: | No successful completion of module 31414 Kerntriebwerkskonstruktion. |
| Forms of Teaching and Proportion: | -
Lecture
/ 2 Hours per Week per Semester
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Self organised studies
/ 150 Hours
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| Teaching Materials and Literature: | - Aircraft Engine Design, Third Edition, eISBN: 978-1-62410-650-7
- Jet Engines: Fundamentals of Theory, Design and Operation, ISBN: 0760304599
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| Module Examination: | Final Module Examination (MAP) |
| Assessment Mode for Module Examination: | - Oral examination, 60 minutes OR Written examination, 120 minutes
In the first lecture it will be announced, if he examination will be offered in written or oral form.
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| Evaluation of Module Examination: | Performance Verification – graded |
| Limited Number of Participants: | None |
| Part of the Study Programme: | -
Master (research-oriented) /
Hybrid Electric Propulsion Technology /
PO 2024
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Abschluss im Ausland /
Maschinenbau /
keine PO
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Master (research-oriented) /
Maschinenbau /
PO 2023
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Master (research-oriented) - Reduced Semester /
Maschinenbau /
PO 2023
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Master (research-oriented) - Co-Op Programme with Practical Place /
Maschinenbau - dual /
PO 2023
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| Remarks: | None |
| Module Components: | VL+Ü+PRÜ Core Engine Design 1 |
| Components to be offered in the Current Semester: | |
| Phase-out Module: |
Follow-up Module since: 09.07.2024
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