The feasibility study of an active removal mission of multiple large abandoned objects from Low Earth Orbit region is presented. A chaser spacecraft, powered by a hybrid rocket engine, achieves contact with two Cosmos-3M second stages and provides for their de-orbiting by means of a hybrid propulsion module. Critical mission aspects and related technologies are investigated, such as an innovative electro-adhesive system for target capture, mechanical systems for the hard docking before the disposal. De-orbiting trajectory simulations and preliminary sizing and mass budget of chaser spacecraft and hybrid rocket engines were performed.
Multi-active removal of large abandoned rocket bodies by hybrid propulsion module
Anselmo L;Pardini C;
2013
Abstract
The feasibility study of an active removal mission of multiple large abandoned objects from Low Earth Orbit region is presented. A chaser spacecraft, powered by a hybrid rocket engine, achieves contact with two Cosmos-3M second stages and provides for their de-orbiting by means of a hybrid propulsion module. Critical mission aspects and related technologies are investigated, such as an innovative electro-adhesive system for target capture, mechanical systems for the hard docking before the disposal. De-orbiting trajectory simulations and preliminary sizing and mass budget of chaser spacecraft and hybrid rocket engines were performed.| File | Dimensione | Formato | |
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Descrizione: Multi-Active Removal of Large Abandoned Rocket Bodies by Hybrid Propulsion Module
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