I suppose a future commercial space station (Lunar optimized) should have less orbit inclination than current ISS has
I think the major factors to balance would be: 1. The rate of westward nodal regression, which is a function of inclination and altitude. The higher the regression rate, the more frequent the launch windows.
2. The duration of a free-return trajectory (for crewed or reusable vehicles, anyway). Free returns exist for all orbital inclinations, but they become slower and slower as the trajectory moves out of the earth-moon plane.
3. Safety and lifetime of orbit: higher is better, to avoid drag and debris. 4. Energy efficiency of orbit: lower is better, because then the trans-lunar injection benefits from more "Oberth effect."
Quote from: Proponent on 10/12/2019 02:08 pmI think the major factors to balance would be: 1. The rate of westward nodal regression, which is a function of inclination and altitude. The higher the regression rate, the more frequent the launch windows. Elaborate on this. It sounds useful since it'd be rather inconvenient for passengers or cryogenic fuels.
Quote from: Proponent on 10/12/2019 02:08 pm 2. The duration of a free-return trajectory (for crewed or reusable vehicles, anyway). Free returns exist for all orbital inclinations, but they become slower and slower as the trajectory moves out of the earth-moon plane. Encouraging for safety. What about, presuming a match with the Moon's 5 degree tilt, the fasted a trajectory can go?
Quote from: Proponent on 10/12/2019 02:08 pm 3. Safety and lifetime of orbit: higher is better, to avoid drag and debris. 4. Energy efficiency of orbit: lower is better, because then the trans-lunar injection benefits from more "Oberth effect." Regarding the Oberth effect, that would be more useful for spacecraft that start from a high orbit dipping to a low point. LEO wouldn't offer much of a boost, but presuming the station orbit is something like 1,000 km high and the departing spacecraft dips to say 200 km there could be some Oberth effect to use. This does make me wonder if a slightly elliptical orbit in LEO could be useful, if albeit tricky to match for arriving spacecraft.