A method for the construction of a lunar transfer trajectory using ballistic capture
Abstract
The weak stability boundary (WSB) method for the design and optimization of lunar transfer trajectories is described. Considerable savings of propellant are shown over classical methods of orbit transfer such as the Hohmann transfer method. The savings in Delta V required of the spacecraft ranges from 100 to 200 m/s, which translates into a 5-10 percent reduction in spacecraft propellant for a science payload. Another advantage of the WSB method involves the utilization of low thrust propellant systems. Since the transfer trajectory is nearly completely ballistic, thrusting propulsive maneuvers may be performed over a long time duration.
- Publication:
-
Spaceflight Mechanics 1991
- Pub Date:
- 1991
- Bibcode:
- 1991sfm..proc...97M
- Keywords:
-
- Earth-Moon Trajectories;
- Swingby Technique;
- Trajectory Optimization;
- Transfer Orbits;
- Fuel Consumption;
- Japanese Spacecraft;
- Astrodynamics