Abstract The Medium Earth Orbit (MEO) region hosts satellites for navigation, communication, and geodetic/space environmental science, among which are the Global Navigation Satellites Systems (GNSS). Safe and efficient removal of debris from MEO is problematic due to the high cost for maneuvers needed to directly reach the Earth (reentry orbits) and the relatively crowded GNSS neighborhood (graveyard orbits). Recent studies have highlighted the complicated secular dynamics in the MEO region, but also the possibility of exploiting these dynamics, for designing removal strategies. In this paper, we present our numerical exploration of the long-term dynamics in MEO, performed with the purpose of unveiling the set of reentry and graveyard solutions that could be reached with maneuvers of reasonable cost. We simulated the dynamics over 120–200 years for an extended grid of millions of fictitious MEO satellites that covered all inclinations from 0 to 90°, using non-averaged equations of motion and a suitable dynamical model that accounted for the principal geopotential terms, 3rd-body perturbations and solar radiation pressure (SRP). We found a sizeable set of usable solutions with reentry times that exceed years, mainly around three specific inclination values: 46°, 56°, and 68°; a result compatible with our understanding of MEO secular dynamics. For m/s (i.e., achieved if you start from a typical GNSS orbit and target a disposal orbit with ), reentry times from GNSS altitudes exceed years, while low-cost ( m/s) graveyard orbits, stable for at lest 200 years, are found for eccentricities up to . This investigation was carried out in the framework of the EC-funded “ReDSHIFT” project.
Medium Earth Orbit dynamical survey and its use in passive debris removal
Advances in Space Research ; 63 , 11 ; 3646-3674
2019-02-13
29 pages
Article (Journal)
Electronic Resource
English
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