Im Sinne einer noch engeren und langfristigen Zusammenarbeit mit der TU Wien bietet das TU Wien Space Team von nun an eine neue Möglichkeit einer Spezialisierung im Bereich der Luft- und Raumfahrttechnik an. Das im Jahr 2020 neu eingeführte Student Aerospace Modul kann von Studenten der Studiengänge Maschinenbau (E033245) und Maschinenbau-Wirtschaftsingenieurwesen (E033282) im Bachelor mit 7 ECTS als Berufsfeldorientierungsmodul oder im Master mit 14 ECTS als Vertiefungsmodul absolviert werden und umfasst sowohl theoretische als auch praktische Arbeit an einem realen Luft- und Raumfahrtprojekt.

Beide Module bestehen aus verpflichtenden Lehrveranstaltungen sowie solchen, die aus einer vorgeschrieben Liste an Lehrveranstaltungen ausgewählt werden können. Im Kern der beiden Module steht die neue Student Aerospace Projektarbeit, die in beiden Modulen zu absolvieren ist.

Die offizielle Beschreibung der Student Aerospace Module findet sich in den jeweiligen Studienplänen sowie auf TISS.

 

Details: Student Aerospace Projektarbeit (307.502, 5 ECTS)

Die Projektarbeit ist in beiden Modulen verpflichtend zu absolvieren und wird von bis zu 3 Studenten pro Gruppe über ein Thema aus der Luft- und Raumfahrttechnik verfasst, das vom TU Wien Space Team als sinnvoll und relevant erachtet wird. Die Betreuung wird durch Mitarbeiter verschiedener Institute der TU Wien sichergestellt, dies führt jedoch auch zu einer eingeschränkten Anzahl der pro Semester möglichen Projektarbeiten. Falls Du Interesse hast ein Student Aeropace Projekt zu verfassen, dann kontaktiere bitte die zuständigen Tutoren (siehe Kontaktinformationen unten).

Diese Tabelle gibt einen Überblick über mögliche Aufgabenstellungen für das Student Aerospace Projekt, andere Themen können jedoch auch behandelt werden:

 

Project topicProject descriptionProject goalsResponsible Person in the TU Wien Space TeamDeadline
Feasibility study: Rocket launch from droneLaunching rockets from airplanes or remotely controlled drones is a tried-and-tested method. The aim of this project is to take a look at this approach and assess its technical complexity.Identify main advantages and disadvantages of drone-based rocket launches; estimate required resources; assess feasibilty and relevance of such project for a student clubMoritz Novaknot relevant
Numerical evaluation (CFD) and hot fire experiments: Comparison of 3 different supersonic nozzle designsIn this project three different supersonic nozzle designs (conical nozzle, Rao parabola approximation, truncated MOC-nozzle) shall be simulated and compared with respect to thrust, efficiency, mass and in house manufacturability. The nozzles are to be manufactured and test fired on the Small Scale Test Stand of the TU Wien Space TeamSimulate and compare the three nozzle designsAlexander Sebonot relevant
Design, manufacture and test: Flow field evaluation by using schlieren imaging/shadographyA low cost experimental setup for visualizing flow fields (rocket nozzle, Injector flow etc.) using Schlieren Imaging and/or Shadography shall be designed, built and tested.Design, build and test a low-cost experimental setup for visualizing flow fieldsAlexander Sebonot relevant
Design, manufacture and test: Cold flow test setup for component characterizationA simple setup for evaluating flow through certain components (valves, venturis, pumps etc.) shall be designed and built. The system shall be comprised of a pressurized fluid tank, control valves and necessary sensors (pressure, temperature, flow rate etc.) and shall be able to record said data with sufficient accuracy.Design, build and test a low-cost experimental setup for component characterizationAlexander Sebonot relevant
Design, manufacture and test: Rocket propellant tankPropellant tanks in rockets need to store propellants under high pressures while being as lightweight as possible. The aim of this project is to improve a current propellant tank for a small rocket, manufacture it and validate the design by pressure testing it.Analyze a present design, improve it, manufacture components and test the design.Andreas Bauernot relevant
Design, manufacture and test: Ablative rocket engine thrust chamber cooling conceptRocket engines need to be cooled to avoid damaging them. One cooling method is ablative cooling where the combustion chamber walls are burnt away, absorbing heat. The aim of this project is to compare different approaches to manufacture such a combustion chamber and to manufacture and test them.Research ablative cooling concepts and manufacturing methods, compare them, manufacture samples and test them.Bernhard Hansemannv
Design, manufacture and test: Rocket propellant pressurization systemFeeding propellant to a rocket engine requires either a pump or a high pressure in the propellant tank. For a small liquid-fueled rocket, components for a propellant pressurization system need to be designed, manufactured and tested, which is the aim of this project.Analyze a present design, improve it, perform performance calculations, manufacture components and test them.Tobias Bauernfeindnot relevant
Design, manufacture and test: Composite rocket airframeRockets need lightweight yet strong airframes. For a small rocket, an airframe needs to be designed and built. The aim of this project is to design such components, plan the manufacturing process to produce nosecones and fins and to actually manufacture them. A project focussed on the design of those components, aerodynamic aspects and CFD simulations is also possible.Design airframe components, plan their manufactoring processes, manufacture them. Alternatively, perform detailed aerodynamic analysis and optimize the design.Andreas Bauernot relevant
Improve design and test: Rocket engine test stand mass flow measurement systemResting liquid-fueled rocket engines requires data about the mass flow rates of the propellants into the engine. The aim of this project is to analyze a present mass flow measurement system, identify problems and develop and test an improved version.Analyze a present system that is not fully working, identify the causes and develop and test solutions.Johann Breynernot relevant
Design, manufacture and test: Pressurant fill & umbilical retract systemMost liquid-fueled rockets need a supply of high pressure gas provided by the launch pad which is disconnected shortly before liftoff. The goal of this project is to design, build and test such a high pressure supply system and a mechanism to disconnect and retract the supply lines from the rocket.Come up with and compare different design approaches; pick the best approach; design, build and test the system.Daniel Franknot relevant
Design, manufacture and test: Rocket holddown & force measurement systemLiquid-fueled rockets are prevented from launching by a hold down system until a nominal engine ignition is confirmed. The aim of this project is to design, build and test such a system for a small rocket that additionally can measure weight and thrust forces.Come up with and compare different design approaches; pick the best approach; design, build and test the system.Daniel Franknot relevant
Design, manufacture and test: Two stage parachute deployment systemTo ensure faster descent velocity of the rocket and reduce the parachute deployment shocks, rocket parachutes often deploy in two stages: A smaller drogue parachute for initial slowdown and a larger main one to reach landing velocity. The goal of this project is to project is to design, build and test a mechanism to deploy the main chute after the drogue was already released.Come up with and compare different design approaches; pick the best approach(based on reliability and weight); design, build and test the system.Florian Prechtnot relevant

 

Kontaktinformationen

Falls Du Fragen zum neuen Student Aerospace Modul hast oder ein Projekt verfassen möchtest, dann melde Dich gerne unter einer der folgenden E-Mail Adressen bei den zuständigen Tutoren:

Allgemeine Informationen: studentaerospace@tuwien.ac.at
Heinz Peter Stanek: heinz.stanek@tuwien.ac.at
Moritz Novak: moritz.novak@tuwien.ac.at