Parametric atmospheric entry corridor data are presented for Earth and Mars aerocapture. Parameter ranges were dictated by the range of mission designs currently envisioned as possibilities for the Human Exploration Initiative (HEI). This data, while not providing a means for exhaustive evaluation of aerocapture performance, should prove to be a useful aid for preliminary mission design and evaluation. Entry corridors are expressed as ranges of allowable vacuum periapse altitude of the planetary approach hyperbolic orbit, with chart provided for conversion to an approximate flight path angle corridor at entry interface (125 km altitude). The corridor boundaries are defined by open-loop aerocapture trajectories which satisfy boundary constraints while utilizing the full aerodynamic control capability of the vehicle (i.e., full lift-up or full lift-down). Parameters examined were limited to those of greatest importance from an aerocapture performance standpoint, including the approach orbit hyperbolic excess velocity, the vehicle lift to drag ratio, maximum aerodynamic load factor limit, and the apoapse of the target orbit. The impact of the atmospheric density bias uncertainties are also included. The corridor data is presented in graphical format, and examples of the utilization of these graphs for mission design and evaluation are included.
Parametric Entry Corridors for Lunar/Mars Aerocapture Missions
1991
73 pages
Report
Keine Angabe
Englisch
Spacecraft Trajectories & Flight Mechanics , Astronautics , Aerocapture , Atmospheric entry , Corridors , Earth atmosphere , Lunar atmosphere , Mars atmosphere , Mission planning , Planetary orbits , Aerodynamic loads , Atmospheric density , Bias , Controllability , Interorbital trajectories , Lift drag ratio , Vacuum
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