Spacecraft propulsion systems  

Learning Outcomes The module gives a technical overview of rocket and spacecraft propulsion systems. Students will understand the basic principles and system solutions for a large variety of propulsion technologies. After successful completion of this module, students will be able to - name and classify propulsion systems that are used in space projects, - explain the principles physical principles of propulsion (e.g. Newton's laws, rocket equation, thrust, staging), - recognize the application of propulsion systems for different orbital maneuvers, - explain the working principles, technologies, challenges, and application areas of the most relevant types of propulsion systems (electric, solid, liquid, hybrid, airbreathing) - explain the working principles and application areas of less conventional non-chemical propulsion systems, - explain the classification, thermodynamic principles, characteristics, and application areas of space propellants, - calculate the delta-v for space maneuvers, - calculate the main parameters for the design of electrical propulsion systems (e.g. specific impulse, propellant mass, transfer duration), - calculate the main parameters for the design of chemical propulsion systems (e.g. specific impulse, mass flow, nozzle parameters, propellant mass/volume, pressure, tanks), - develop and draw the architecture of a chemical propulsion system. Content - Applications and classification of spacecraft propulsion systems - Theoretical basics of rocket propulsion systems (e.g. fundamental rocket equation, staging, ascent trajectories) - Characteristic parameters of space propulsion (e.g. thrust, impulse, velocity) - Basics of orbital mechanics for spacecraft maneuvers - Electric propulsion systems (e.g. electrothermal, resistojets, arcjets, electromagnetic, electrostatic) - Other non-chemical propulsion systems (e.g. nuclear, launch assist, propellantless, gas, antimatter, space elevator, interstellar) - Solid propulsion systems - Hybrid propulsion systems - Space propellants (e.g. liquid, solid, gel, green) - Fundamentals of thermodynamics, gas dynamics, and nozzles - Liquid propulsion systems - Tank design and propellant feed systems - Injection system - Airbreathing propulsion systems (ramjet and scramjet)
Presential
English
Spacecraft propulsion systems
English

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