Earth aerobraking strategies for manned return from Mars
Abstract
The atmospheric flight environment of manned return from Mars is evaluated by analyzing the earth-return entry corridor. To identify and quantify the effects of various atmospheric exit conditions on the mission, the differences beween the capture to a specific orbit and the direct entry to a target splashdown site are investigated. The differences are quantified in terms of the airbrake lift-drag ratio requirements, the stagnation-point heating, and the significance of off-nominal atmospheric conditions. Results are presented on three different earth-return aerobraking scenarios: (1) the capture into a phasing orbit with a 24-hr period, (2) the capture into a 500-km circular orbit, and (3) the direct entry to splashdown.
- Publication:
-
AIAA Atmospheric Flight Mechanics Conference
- Pub Date:
- August 1991
- Bibcode:
- 1991afm..conf.....B
- Keywords:
-
- Aerobraking;
- Lift Drag Ratio;
- Manned Mars Missions;
- Return To Earth Space Flight;
- Stagnation Point;
- Aerocapture;
- Circular Orbits;
- Interplanetary Flight;
- Trajectory Analysis;
- Astrodynamics