EARS | European Advanced Reusable Satellite

Summary
This program proposes to design and build a low-cost spacecraft capable of supporting a variety of small experiments for orbital periods potentially longer than a year. The vehicle is to be designed to operate and return to Earth autonomously, to be reusable with minimal refurbishment, and to be compatible with common launch vehicles secondary payload attachments. The spacecraft is based on a current microsatellite platform with the addition of a heat shield, a powerful propulsion system and a recover system. The spacecraft is launched in LEO and perform its mission, which can be IOD/IOV, microgravity scientific experiments, or commercial activities like microgravity manufacturing. Thanks to its own propulsion system the spacecraft can re-position itself and perform a controlled reentry. After reentry and when the vehicle slows to the designated Mach number, a drogue parachute will be deployed which will decelerate the vehicle to a condition permitting deployment of the steerable gliding parachute. Terminal descent on the main parachute is controlled so that the vehicle soft-lands at a designated landing site. The reusability feature has four main advantages:
- Recover of the payload for usage/inspection/analysis
- Possibility to reuse the satellite for different missions
- Possibility to abort a mission without loss of the payload
- Limited pollution, debris mitigation both on ground and in orbit
This platform follows the call indications as it deals with re-entry technologies, green propulsion, advanced GNC. Marketing surveys have indicated that there is considerable user interest for such a platform.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101082531
Start date: 01-01-2023
End date: 31-12-2024
Total budget - Public funding: 1 296 158,75 Euro - 1 296 157,00 Euro
Cordis data

Original description

This program proposes to design and build a low-cost spacecraft capable of supporting a variety of small experiments for orbital periods potentially longer than a year. The vehicle is to be designed to operate and return to Earth autonomously, to be reusable with minimal refurbishment, and to be compatible with common launch vehicles secondary payload attachments. The spacecraft is based on a current microsatellite platform with the addition of a heat shield, a powerful propulsion system and a recover system. The spacecraft is launched in LEO and perform its mission, which can be IOD/IOV, microgravity scientific experiments, or commercial activities like microgravity manufacturing. Thanks to its own propulsion system the spacecraft can re-position itself and perform a controlled reentry. After reentry and when the vehicle slows to the designated Mach number, a drogue parachute will be deployed which will decelerate the vehicle to a condition permitting deployment of the steerable gliding parachute. Terminal descent on the main parachute is controlled so that the vehicle soft-lands at a designated landing site. The reusability feature has four main advantages:
- Recover of the payload for usage/inspection/analysis
- Possibility to reuse the satellite for different missions
- Possibility to abort a mission without loss of the payload
- Limited pollution, debris mitigation both on ground and in orbit
This platform follows the call indications as it deals with re-entry technologies, green propulsion, advanced GNC. Marketing surveys have indicated that there is considerable user interest for such a platform.

Status

SIGNED

Call topic

HORIZON-CL4-2021-SPACE-01-23

Update Date

06-02-2023
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Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.4 Digital, Industry and Space
HORIZON.2.4.10 Space, including Earth Observation
HORIZON-CL4-2021-SPACE-01
HORIZON-CL4-2021-SPACE-01-23 New space transportation solutions and services