After nearly thirty years in space, the European Space Agency's (ESA) ERS-2 satellite made a fiery return to Earth, concluding its journey in our atmosphere. Fortunately, striking photos of its spectacular final descent were released by ESA, taken by cameras aboard satellites from the Australian space company HEO on behalf of the UK Space Agency.
Space Agencies Monitor Reentry with Satellite Imaging
National space agencies oversee reentry warning services and research to shape space operation policies, collaborating with international partners like ESA. Sharing data through platforms such as the Inter-Agency Space Debris Coordination Committee facilitates satellite reentry monitoring.
The UK Space Agency, in partnership with HEO, employed a novel approach using cameras on satellites to capture images of ERS-2 during its descent. These images may refine reentry predictions when coupled with ground-based sensor data.
Taken during 'flyby' inspections, the photos depict ERS-2's descent from over 300 km above Earth, weeks before reentry. Despite its altitude of 180 miles, the spacecraft's gradual descent of six miles per day pointed towards its inevitable reentry.
The photos were captured on January 14, January 28, January 29, and February 3, which depicts ERS-2's plunge towards the atmosphere. Despite resembling a TIE Fighter from "Star Wars," noted by many observers, the spacecraft's trajectory mirrored that of a pursuing object gradually descending towards Earth.
The satellite currently orbits at about 200 km, descending at over 10 km daily, with its descent speed accelerating. At around 80 km, it will fragment, mostly burning up, posing minimal risks during reentry.
Earth Observation Pioneer's Controlled Farewell and Impactful Legacy
Launched in 1995 and retired in 2011, ERS-2 underwent a gradual de-orbiting process to reduce the risk of space collisions. Regarded as the most advanced Earth observation spacecraft launched by Europe, it provided crucial information on climate and ozone layer dynamics during its operational years.
ERS-2's advanced capabilities uncovered significant insights into global warming, revealing the unexpectedly rapid melting of Earth's supposedly stable ice sheets.
Although operational during decommissioning, ERS-2 utilized its remaining fuel to initiate a controlled descent out of orbit. As it approached the atmosphere, the lack of remaining fuel resulted in an uncontrolled re-entry.
The decision to deorbit in 2011 aimed to minimize the satellite's long-term impact on space, reducing the risk of collisions with other satellites or space debris. The deorbiting significantly shortened ERS-2's orbital presence from over 100 years to less than 15.
On its final descent on Wednesday, ERS-2 faced atmospheric reentry, anticipated to disintegrate and burn up due to immense drag. Any surviving debris was expected to fall into the ocean. This marked the end of the beloved satellite, concluding its journey in a spectacular, albeit controlled, cremation.
ESA Operations bid farewell on X (formerly Twitter), stating, "Goodnight everyone. Goodnight ERS-2." Additional updates about the satellite re-entry are available on ESA's Rocket Science blog.
RELATED ARTICLE: ESA's ERS-2 Satellite Safely Burns Up Over North Pacific Upon Reentry After 30 Years in Orbit
Check out more news and information on Space in Science Times.