Space propulsion  

Learning outcomes The module teaches the basics of space propulsion and provides a systematic overview of rocket propulsion and propulsion for spacecraft in space. The students should understand and be able to apply the theoretical basics of space propulsion. In addition, a systematic overview of the various drive concepts and the associated basic technical principles and system solutions should be learned. After successfully completing this course, students will be able to: - differentiate between different types of propulsion and systems, including the basic advantages and disadvantages - name and explain the basic principles and main elements of a rocket engine - recognize different thrust vector systems with their advantages and disadvantages - to know and be able to distinguish between the basics of combustion chambers and their cooling systems, igniters, fuel tanks and fuel delivery systems including different types of injectors - to be able to classify and name the losses of a rocket engine - to calculate basic parameters of a rocket engine (e.g. launch and fuel masses , thrust, specific impulse, temperatures and pressures) - to be able to classify different fuels - to be able to recognize and evaluate different combustion cycles - to be able to distinguish and evaluate different types of nozzles - to know and be able to calculate the physical-thermodynamic processes of a nozzle - to fundamentally understand air-breathing hypersonic drives - be able to classify and fundamentally calculate solid propulsion systems - be able to classify and calculate electrical propulsion systems - have a deeper understanding of liquid in-space propulsion systems - have basic knowledge of test stands and peripherals for rocket propulsion systems - Have knowledge of various future or unrealized propulsion systems Teaching content The content of the lecture and the exercises relate to the following topics: - Overview of all drive types (chemical, electrical,…) - More detailed consideration of the different chemical drives (solid, hybrid, liquid, single-substance, dual-substance) - Presentation of various engines - Theoretical principles and formulas for calculating rocket engines, - Classification of fuels - Fuel tanks and fuel delivery - Combustion chamber and combustion chamber cooling - Injectors - Nozzles: calculations and construction - Thrust vector control - Solid fuel drives - Hybrid drives - Fuel block shapes - In-space propulsion - Test stands and safety - Electric drives for spacecraft - Air-breathing hypersonic engines - Other drives
Presential
English
Space propulsion
English

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