On January 28, 2026, Astroscale France and Exotrail announced a strategic partnership to develop and demonstrate controlled deorbiting capabilities for satellites in Low Earth Orbit (LEO).
The collaboration aims to address increasing orbital congestion by providing a repeatable, sovereign European solution for satellite end-of-life management and debris mitigation.
Building on the CNES France 2030 Study
The partnership follows a successful study phase led by Exotrail under a France 2030 contract with the French space agency, CNES. During this phase, the two companies evaluated a deorbiting mission for a constellation satellite, laying the groundwork for the current operational roadmap. The initiative is closely aligned with European space priorities regarding technological sovereignty and the “circular space economy”.
“By combining Exotrail’s mission leadership on vehicles and maneuvers with Astroscale’s proven capture and close-proximity operations expertise, we are helping to position France and Europe at the forefront of in-orbit servicing,” stated Philippe Blatt, Managing Director of Astroscale France.
Integration of spacevan™ and RPO Technology
The technical core of the partnership relies on merging Exotrail’s mobility platforms with Astroscale’s specialized servicing hardware:
- Exotrail spacevan™: A high-mobility orbital transfer vehicle (OTV) capable of significant altitude and inclination changes. The spacevan™ LEO offers a delta-V of 500 m/s and is designed to act as a mission integrator and “last mile” delivery vector.
- Astroscale RPO & Capture: Drawing on flight heritage from missions like ADRAS-J and ELSA-d, Astroscale France provides the critical Rendezvous and Proximity Operations (RPO) algorithms and docking mechanisms required to safely secure a target.
Rationale: Resilience of European Space Architecture
The move to operationalize deorbiting services reflects a shift in how satellite operators and governments view the life cycle of space assets. As LEO becomes more congested with mega-constellations, the ability to actively remove non-functional hardware is transitioning from a research interest to a regulatory and operational necessity.
“Controlled deorbiting and on-orbit rendezvous capabilities are now recognized as critical technological building blocks, for both civilian applications and the future of defense endeavors,” added Jean-Luc Maria, CEO of Exotrail. “We add more capabilities to strengthen the resilience of European space architectures”.
Timeline to 2030 Demonstration
The partners intend to execute their first joint demonstration mission before 2030, which will target the removal of a commercial satellite currently in orbit. Beyond this initial proof-of-concept, the collaboration includes a long-term shared roadmap to establish permanent European rendezvous and docking infrastructure, supporting future in-orbit assembly, refueling, and maintenance missions.