Dead European satellite weighing 5,000lbs will crash back to Earth this month

  • ERS-2 launched in 1995 to collect data on Earth’s land, oceans and polar caps
  • It’s finally coming back to Earth – but experts can’t say exactly when or where



It’s been floating above our planet for nearly 30 years.

But a satellite launched by the European Space Agency (ESA) is finally set to crash back down to Earth this month. 

ERS-2, which blasted off from French Guiana in 1995, weighs just over 5,000lbs – about the same as an adult rhinoceros. 

Experts at ESA say it will reenter the planet’s atmosphere ‘mid-February’, although exactly when or where it will land is as yet unknown. 

The agency expects any parts of the machine to ‘likely fall into the ocean’ – and stresses that the risk of being injured by space debris is less than 1 in 100 billion.

ERS-2 satellite prior to launch. ERS-2 was launched in 1995, following its sister, the first European Remote Sensing satellite ERS-1, which was launched in 1991. The two satellites were designed as identical twins with one important difference – ERS-2 included an extra instrument to monitor ozone levels in the atmosphere

What is ERS-2? 

ERS-2 (European Remote-Sensing Satellite 2) launched on April 21, 1995. 

At the time, it was the most sophisticated Earth observation spacecraft ever developed and launched by Europe. 

Together with the almost-identical ERS-1, it collected data on Earth’s land surfaces, oceans and polar caps.

It was called upon to monitor natural disasters such as severe flooding or earthquakes in remote parts of the world. 

In 2011, ESA retired ERS-2 and began the process of deorbiting – and now it’s due to reenter the atmosphere and start to burn up. 

ERS-2 launched with a mass of 5,546lbs (2516kg). Now depleted of fuel, its current mass is estimated to be around 5,057lbs (2294kg). 

‘European Remote Sensing 2 (ERS-2) satellite will reenter Earth’s atmosphere and begin to burn up in mid-February 2024,’ the agency said in a statement. 

‘It is impossible to predict exactly when and where the satellite will begin to burn up.

‘The window during which reentry is possible will continue to shrink until the time of reentry.’ 

ESA said it is monitoring the satellite ‘very closely’ along with international partners and will provide regular updates in the days leading up to reentry.

The ERS-2 satellite was launched back in April 1995 from ESA’s Guiana Space Centre near Kourou, French Guiana to study Earth’s land surfaces, oceans and polar caps.

After 15 years, the space probe was still functioning when ESA declared the mission complete in 2011. 

After deorbiting manoeuvres used up the satellite’s remaining fuel, ground control experts started lowering its altitude from about 487 miles (785km) to 356 miles (573km).

The experts wanted to minimise the risk of collision with other satellites or adding to the cloud of ‘space junk’ currently around our planet. 

Since then ERS-2 has been in a period of ‘orbital decay’ – meaning it’s been gradually getting closer and closer to Earth as it goes around the planet. 

The ERS-2 satellite was launched back in April 1995 from ESA’s Guiana Space Centre near Kourou, French Guiana (pictured)

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ERS-2 will reenter Earth’s atmosphere and burn up once its altitude has decayed to roughly 50 miles (80km) – about one fifth the distance of the International Space Station. 

At this altitude, it will break up into fragments, the vast majority of which will burn up in the atmosphere. 

However, some fragments could reach Earth’s surface, where they will ‘most likely fall into the ocean’, according to ESA. 

‘None of these fragments will contain any toxic or radioactive substances,’ the agency said. 

Although it couldn’t guarantee there’s no chance of ERS-2 hitting someone, ESA did point out that the annual risk of any single human being even just injured by space debris is under one in 100 billion.

That’s about 1.5 million times lower than the risk of being killed in an accident at home and 65,000 times lower than the risk of being struck by lightning. 

Worryingly, ESA is describing the event as a ‘natural’ reentry because there’s no way for ground staff to control it during its descent. 

‘ERS-2 used up the last of its fuel in 2011 in order to minimise the risk of a catastrophic explosion that could have generated a large amount of space debris,’ the agency said. 

‘Its batteries were depleted and its communication antenna and onboard electronics were switched off. 

‘There is no longer any way to actively control the motion of the satellite from the ground during its descent.’ 

ERS-2 was launched in 1995 following on from its sister satellite, ERS-1, which had been launched four years earlier. 

Both satellites carried the latest high-tech instruments including a radar altimeter (which sends pulses of radio waves towards the ground) and powerful sensors to measure ocean-surface temperature and winds at sea. 

ERS-2 had an additional sensor to measure the ozone content of our planet’s atmosphere, which is important to block out radiation from the sun. 

ERS-1 is no longer operational, having suffered a malfunction in 2000, but its exact whereabouts are unknown. 

WHAT IS SPACE JUNK? MORE THAN 170 MILLION PIECES OF DEAD SATELLITES, SPENT ROCKETS AND FLAKES OF PAINT POSE ‘THREAT’ TO SPACE INDUSTRY



There are an estimated 170 million pieces of so-called ‘space junk’ – left behind after missions that can be as big as spent rocket stages or as small as paint flakes – in orbit alongside some US$700 billion (£555bn) of space infrastructure.

But only 27,000 are tracked, and with the fragments able to travel at speeds above 16,777 mph (27,000kmh), even tiny pieces could seriously damage or destroy satellites.

However, traditional gripping methods don’t work in space, as suction cups do not function in a vacuum and temperatures are too cold for substances like tape and glue.

Grippers based around magnets are useless because most of the debris in orbit around Earth is not magnetic.

Most proposed solutions, including debris harpoons, either require or cause forceful interaction with the debris, which could push those objects in unintended, unpredictable directions.

Scientists point to two events that have badly worsened the problem of space junk.

The first was in February 2009, when an Iridium telecoms satellite and Kosmos-2251, a Russian military satellite, accidentally collided.

The second was in January 2007, when China tested an anti-satellite weapon on an old Fengyun weather satellite.

Experts also pointed to two sites that have become worryingly cluttered.

One is low Earth orbit which is used by satnav satellites, the ISS, China’s manned missions and the Hubble telescope, among others.

The other is in geostationary orbit, and is used by communications, weather and surveillance satellites that must maintain a fixed position relative to Earth. 

 

Reference

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