Issue |
Volume 4, 2013
Progress in Propulsion Physics
|
|
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Page(s) | 763 - 788 | |
Section | Chapter Eight. Mitigation and removal of space debris | |
DOI | https://doi.org/10.1051/eucass/201304763 | |
Published online | 06 March 2013 |
Active Debris Removal mission design in Low Earth Orbit
1
CNES, French Space Agency
Av. E. Belin, Toulouse 31400, France
2
Thales C4I Systems
Parc Technologique du Canal
3 Av. de l'Europe, Toulouse 31400, France
Active Debris Removal (ADR) aims at removing large sized intact objects ― defunct satellites, rocket upper-stages ― from space crowded regions. Why? Because they constitute the main source of the long-term debris environment deterioration caused by possible future collisions with fragments and worse still with other intact but uncontrolled objects. In order to limit the growth of the orbital debris population in the future (referred to as the Kessler syndrome), it is now highly recommended to carry out such ADR missions, together with the mitigation measures already adopted by national agencies (such as postmission disposal). At the French Space Agency, CNES, and in the frame of advanced studies, the design of such an ADR mission in Low Earth Orbit (LEO) is under evaluation. A two-step preliminary approach has been envisaged. First, a reconnaissance mission based on a small demonstrator (∼500 kg) rendezvousing with several targets (observation and in-flight qualification testing). Secondly, an ADR mission based on a larger vehicle (inherited from the Orbital Transfer Vehicle (OTV) concept) being able to capture and deorbit several preselected targets by attaching a propulsive kit to these targets. This paper presents a flight dynamics level tradeoff analysis between different vehicle and mission concepts as well as target disposal options. The delta-velocity, times, and masses required to transfer, rendezvous with targets and deorbit are assessed for some propelled systems and propellant less options. Total mass budgets are then derived for two end-to-end study cases corresponding to the reconnaissance and ADR missions mentioned above.
© Owned by the authors, published by EDP Sciences, 2013