single impulse deorbit from an elliptical orbit
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11-14-2022, 01:45 PM
Post: #1
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single impulse deorbit from an elliptical orbit
This HP Program calculates the single impulsive deorbit maneuver required to establish a reentry altitude and flight path angle relative to a non-rotating, spherical Earth. The algorithm uses a tangential delta-v applied opposite to the velocity vector of an initial elliptical orbit to establish the de-orbit trajectory.
The following is a "hard-wired" example with the program input in bold font. // perigee altitude (kilometers) hp := 285.798; // perigee radius (kilometers) rp := req + hp; // apogee altitude (kilometers) ha := 35785.922; // apogee radius (kilometers) ra := req + ha; // entry altitude (kilometers) hentry := 111.252; // entry flight path angle (degrees) fpae := -4.0; The software will compute and display the orbital elements of the deorbit trajectory and the magnitude of the required deorbit delta-v. The zipped archive for the software and documentation for this example can be downloaded from https://www.dropbox.com/s/2f2zxm1frqxycp...t.zip?dl=0 |
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single impulse deorbit from an elliptical orbit - cdeaglejr - 11-14-2022 01:45 PM
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