Europe's Earth Return Orbiter Reaches Design Maturity
Stay informed with our
free newsletters

This news is classified in: Aerospace Space

Jul 5, 2024

Europe's Earth Return Orbiter Reaches Design Maturity

ESA’s Earth Return Orbiter, the first spacecraft that will rendezvous and capture an object around another planet, passed a key milestone to bring the first Mars samples back to Earth.

The critical design review for the spacecraft's platform was completed today with the involvement of European industry and NASA.

A critical design review is one of the most important phases in any spaceflight project to make a spacecraft a reality. The Platform Critical Design Review (P-CDR) confirmed the performance, quality and reliability of the systems for this unprecedented mission to Mars.

Space Mining Market Report 2024-2034

Space Mining Market Report 2024-2034

Forecasts by Technique (Asteroid Mining, Lunar Mining, Planetary Mining), by Resource Extraction (Liquid Extraction, Precious Metals Extraction, Rare Earth Elements Extraction, Other), by Infrastructure (Drilling Rigs and Excavators, Payload Handling Systems, Autonomous Mining Vehicles, Ore Processing Plants, Orbital Storage Depots, Interplanetary Transport Vessels) AND Regional and Leading National Market Analysis PLUS Analysis of Leading Companies AND COVID-19 Impact and Recovery Pattern Analysis

Download free sample pages

The Earth Return Orbiter (ERO) is ESA’s major contribution to the Mars Sample Return campaign, a complex choreography of missions to bring martian rock, soil and atmospheric samples back to Earth.

Europe ready for Mars
The validation of the design and technical details represent a formal step towards the integration phase.

“European industry is ready for the next chapter. A robust design is the foundation for building, testing and assembling the hardware into a complete spacecraft,” says Tiago Loureiro, ERO’s project team leader.

The manufacturing and testing of the components of the spacecraft can now start to ensure the mission moves ahead for launch.

Suppliers from 11 European countries are on board for building the parts of an orbiter set for a full round-trip from Earth to Mars.

The challenges
NASA announced plans to update the Mars Sample Return programme last April with reduced complexity, risk and cost, including innovative designs and proven technology to return valuable samples from Mars to Earth.

ESA technical teams worked closely with their NASA counterparts to prepare for a revision of the programme.

“The configuration of the spacecraft is robust enough to be flexible with the cargo and to help finding solutions for a new architecture. ESA and our industrial partners adapted to a new scenario, staying inventive and resourceful while remaining a reliable partner for NASA,” explains Tiago.

“We have confirmed that the Earth Return Orbiter works for what was planned to do and more, whatever the alternatives are,” he adds.

The magic
The Earth Return Orbiter has the essential role of bringing samples from Mars back to Earth, but before doing that, it must find them in space.

ERO’s design demonstrated with flying colours that it is capable of capturing a basketball-sized capsule filled with samples collected by NASA’s Perseverance rover.

“This mission exemplifies European technological prowess at its finest. From a staggering distance of up to several hundred million kilometres, Earth-based teams will choreograph a complex orbital dance around Mars,” says Orson Sutherland, ESA’s Mars programme manager.

Their challenge: to locate a tiny capsule, maneuver into the precise orbit for rendezvous, and successfully capture it – all while operating remotely across the vast expanse of space.  

ERO’s five-year mission to Mars and back will also see the spacecraft acting as a communication relay with rovers and landers on the surface.

European excellence
Teams in Europe rely on already mature technologies in autonomous navigation, rendezvous and docking, an expertise built up over decades from missions like the Automated Transfer Vehicle and Europe’s first mission to Jupiter with JUICE. Knowledge from the ExoMars Rosalind Franklin rover mission to the Red Planet is also feeding into it.

ERO will be the largest spacecraft ever built for interplanetary flight. Contributions come from France, Italy, Germany, UK, Spain, Switzerland, Norway, Denmark, Belgium, Romania, and The Netherlands.

Airbus Defence and Space has overall responsibility for the ERO mission to build the spacecraft and to conduct mission analysis from France, Germany and the UK. Thales Alenia Space will play an important role in assembling the spacecraft, developing the communication system and providing the orbit insertion module from its plant in Turin, Italy.

European Space Agency (ESA)
View original News release