Advances in the Astronautical Sciences.
Univelt Inc..
Vol. 170.
2020.
P. 591-605
Optimal flyby of space debris objects on a geostationary orbit
This work presents the results of numerical forecast for the movement of 92 space debris objects in a geostationary orbit. According to the calculation results, there were compiled the time variation graphs of: inclination, longitude of the ascending node, semi-major axis and eccentricity. Based on the obtained data we elaborated two flyby strategies of space debris objects and made an estimation of fuel costs as part of implementation of active debris removal schemes. The graphs of the change in inclination and the longitude of the ascending node represent the greatest interest, since the rotation of orbit plane by several degrees requires significant expenditures of the total characteristic velocity. The obtained results may be used for further elaboration of active debris removal schemes. © 2020, Univelt Inc. All rights reserved.
Authors
Baranov A.A.
1
,
Makarov N.Y.
1
Publisher
Univelt Inc.
Language
English
Pages
97-113
Status
Published
Volume
170
Year
2020
Organizations
- 1 Academy of Engineering, Peoples’ Friendship University of Russia (RUDN University), 6 Miklukho-Maklaya str, Moscow, 117198, Russian Federation
Keywords
Graph theory; Space applications; Space flight; Space platforms; Active debris removals; Ascending nodes; Calculation results; Characteristic velocities; Geo-stationary orbits; Orbit planes; Semimajor axis; Time variations; Space debris
Date of creation
02.11.2020
Date of change
02.11.2020
Share
Other records
Advances in the Astronautical Sciences.
Univelt Inc..
Vol. 170.
2020.
P. 805-811