Pre-flight aerodynamics data for the Mars Phoenix entry capsule are presented. The aerodynamic coefficients were generated as a function of total angle-of-attack and either Knudsen number, velocity, or Mach number, depending on the flight regime. The database was constructed using continuum flowfield computations and data from the Mars Exploration Rover and Viking programs. Hypersonic and supersonic static coefficients were derived from Navier-Stokes solutions on a pre-flight design trajectory. High-altitude data (free-molecular and transitional regimes) and dynamic pitch damping characteristics were taken from Mars Exploration Rover analysis and testing. Transonic static coefficients from Viking wind tunnel tests were used for capsule aerodynamics under the parachute. Static instabilities were predicted at two points along the reference trajectory and were verified by reconstructed flight data. During the hypersonic instability, the capsule was predicted to trim at angles as high as 2.5 deg with an on-axis center-of-gravity. Trim angles were predicted for off-nominal pitching moment (4.2 deg peak) and a 5 mm off-axis center-ofgravity (4.8 deg peak). Finally, hypersonic static coefficient sensitivities to atmospheric density were predicted to be within uncertainty bounds.
Aerodynamics for the Mars Phoenix Entry Capsule
2008
18 pages
Report
Keine Angabe
Englisch
Astronomy & Astrophysics , Extraterrestrial Exploration , Aerodynamics , Wind tunnel tests , Phoenix mars lander , Atmospheric entry , Space capsules , Viking mars program , Reaction control , Navier-stokes equation , Flow distribution , Flight paths , Pitching moments , Hypersonic speed , Dynamic characteristics , Mars landing , Trajectories , Blunt bodies , Data bases
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