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AAE450 Spring 2009 1 Spinning Descent and Compressed Gas Hopper Christine Troy Assistant Project Manager Webmaster Lunar Descent Attitude Control Analysis.

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Presentation on theme: "AAE450 Spring 2009 1 Spinning Descent and Compressed Gas Hopper Christine Troy Assistant Project Manager Webmaster Lunar Descent Attitude Control Analysis."— Presentation transcript:

1 AAE450 Spring 2009 1 Spinning Descent and Compressed Gas Hopper Christine Troy Assistant Project Manager Webmaster Lunar Descent Attitude Control Analysis Design Alternative Evaluation Christine Troy Attitude

2 AAE450 Spring 2009 2 Problem  Decrease mass, power, volume, cost, and/or integration complexity through design alternatives 1)Spinning lander on descent for attitude control 2)Compress gas with force of landing and release stored energy for hopping Christine Troy Attitude

3 AAE450 Spring 2009 3  Spinning Lander –Initial analysis: 1.7 kg attitude propellant savings Increased complexity, small mass margin for required structural changes, not recommended for large payloads –New mass properties: 2.2 kg attitude propellant savings Possible benefits for very small payloads  Compressed Gas Hopper –Some or all travel could be obtained from bouncing using stored descent energy –Compressed gas not recommended – highly temperature sensitive, limited velocity and acceleration inputs Commercial gas springs limited to approx. -23° to 82°C –Lunar surface temperature -153° to 107° C Christine Troy Attitude

4 AAE450 Spring 2009 4 References  Rauschenbakh, Boris, Michael Ovchinnikov, and Susan McKenna-Lawlor. Essential Spaceflight Dynamics and Magnetospherics. Dordrecht, The Netherlands: Kluwer Academic Publishers, 2003.  Wiesel, William. Spaceflight Dynamics. New York: McGraw-Hill, 1997.  Howell, Kathleen. Notes from A&AE 440. Spring 2008.  Dengel, Yunus and Michael Boles. Thermodynamics. Boston: McGraw-Hill, 2002.  Industrial Gas Springs and Dampers. Enidine Product Guide. 2007. Christine Troy Attitude

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