Trans Lunar Injection

Trans Lunar Injection

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Typical lunar transfer trajectories approximate Hohmann transfers, although low energy transfers have also been used in some cases, as with the Hiten probe. [cite web |url=http://nssdc.gsfc.nasa.gov/database/MasterCatalog?sc=1990-007A |title=Hiten |publisher=NASA] For short duration missions without significant perturbations from sources outside the Earth-Moon system, a fast Hohmann transfer is typically more practical.

A spacecraft performs TLI to begin a lunar transfer from a low circular parking orbit around Earth. The large TLI burn, usually performed by a chemical rocket engine, increases the spacecraft's velocity, changing its orbit from a circular low Earth orbit to a highly eccentric orbit. As the spacecraft begins coasting on the lunar transfer arc, its trajectory approximates an elliptical orbit about the Earth with an apogee near to the radius of the Moon's orbit. The TLI burn is sized and timed to precisely target the moon as it revolves around the Earth. The burn is timed so that as the spacecraft nears apogee when the Moon is near. Finally, the spacecraft enters the Moon's sphere of influence, making a hyperbolic lunar swingby.

Modeling

Patched Conics

TLI targeting and lunar transfers are a specific application of the n body problem, which may be approximated in various ways. The simplest way to explore lunar transfer trajectories is by the method of patched conics. The spacecraft is assumed to accelerate only under classical 2 body dynamics, being dominated by the Earth until it reaches the moon's sphere of influence. Motion in a patched-conic system is deterministic and simple to calculate, lending itself for rough mission design and "back of the envelope" studies.

Restricted Circular Three Body (RC3B)

In reality, though, the spacecraft is subject to gravitational forces from many bodies. Since the Earth and moon dominate the spacecraft's acceleration, and since the spacecraft's own mass is negligible in comparison, the spacecraft's trajectory may be better approximated as a restricted three-body problem. This model provides enhanced accuracy but lacks an analytic solution, [Henri Poincaré, "Les Méthodes Nouvelles de Mécanique Céleste", Paris, Gauthier-Villars et fils, 1892-99.] requiring numerical calculation via methods such as Runge-Kutta. [Victor Szebehely, "Theory of Orbits, The Restricted Problem of Three Bodies", Yale University, Academic Press, 1967.]

Further Accuracy

More detailed modeling can be achieved by modeling the moon's true orbital motion; including gravitation from other astronomical bodies; modeling the non-uniformity of the Earth and Moon's gravity; including solar radiation pressure; and so on. Propagating spacecraft motion in such a model is numerically intensive, but necessary for true mission accuracy.

Free Return

In some cases it is possible to design a TLI to target a free return trajectory, so that the spacecraft will loop around behind the moon and return to Earth without need for further propulsive maneuvers. [Arthur J. Schwaninger, "Trajectories in the Earth-Moon Space With Symmetrical Free Return Properties", Technical Note D-1833, George C. Marshall Space Flight Center, Huntsville, Alabama, 1963.] Such free return trajectories add a margin of safety to human spaceflight missions, since the spacecraft will to return to Earth "for free" after the initial TLI burn. After an inflight emergency en route to the moon, Apollo 13 performed a course correction to put the crippled vehicle on a free return trajectory, passing behind the moon and back to Earth safely without need for further large maneuvers.

History

The first space probe to successfully perform TLI was the Soviet Union's Luna 1 on January 2, 1959. The first manned mission to successfully perform this procedure, and thus becoming the first humans to leave the Earth's influence, was the crew of Apollo 8 on December 21, 1968.

For the Apollo lunar missions, the restartable J-2 engine in the third (S-IVB) stage of the Saturn V rocket performed TLI. This particular TLI burn lasted approximately 350 seconds, providing 3.05 to 3.25 km/s (10,000 to 10,600 ft/s) of delta-v, at which point the spacecraft was traveling at approximately 10.4 km/s (34150 ft/s) relative to the Earth. [cite web |url=http://history.nasa.gov/SP-4029/Apollo_18-24_Translunar_Injection.htm |title=Apollo By the Numbers |publisher=NASA]

See also

* Trans Earth Injection
* low energy transfer
* Astrodynamics

References


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