A satellite monitoring Earth’s gravity field since 2009 will run out of fuel “in the coming days” and eventually crash, with little risk to humans, the European Space Agency said on Friday.
About 40 to 50 fragments with a combined mass of 250 kg are projected to hit our planet within weeks of the GOCE satellite running out of fuel, according to spacecraft operations manager Christoph Steiger.
“We are very close to the end,” he told AFP today, when the pressure in the satellite’s fuel tank dropped below 2.5 bar — the minimum required for full operation.
Not yet known is when and where the fragments will impact — over the ocean or on land.
The pressure in the orbiter’s tank is expected to drop to zero no later than October 26 but the engine will likely stop working before then, said Steiger.
“Right now, it is not possible to predict where it will happen, it could be anywhere. The closer we get to the re-entry point, the more precisely we will be able to say.
“Roughly one day before (impact), one can exclude certain regions of the Earth. A few hours before, we will be able to tell with... a few thousand kilometres of precision.”
The Gravity Ocean Circulation Explorer (GOCE) was launched into orbit in March 2009 at an altitude of just 260 km.
It has stayed aloft thanks to its unusual aerodynamic shape and an ion propulsion system.
GOCE’s stock of 41 kg of fuel stood at about 350 grammes today. When it runs out completely, the satellite will start losing altitude, become unstable and eventually de-orbit.
Most of the 5.3-metre-long spacecraft will break up at an altitude of about 80 km (50 miles), said Steiger.
But about a quarter of its mass will survive, hitting the surface in a trail of fragments over an area of a few hundred kilometres.
“The risk is very small, but it is not zero,” said Fernand Alby, in charge of space debris and space surveillance at France’s National Centre of Space Studies (CNES) in Toulouse.
“Per year, it is estimated that about 100 tonnes of manmade space debris is re-entering (the atmosphere), out of which between 20 and 40 tonnes survive reentry... and impact somewhere on Earth,” Steiger said.