Out of control Chinese space station hurtling towards Earth - but where will it crash?
An out of control Chinese space station is set to smash into Earth - with space experts unsure where it will land.
The Tiangong-1 module is set to come crashing down to Earth in a fireball that could scatter debris over thousands of kilometres.
The Chinese space agency lost control of the spacecraft in 2016, five years after it blasted into orbit to make China only the third nation to operate a space station after the US and Russia.
The defunct module is now at an altitude of 150 miles and being tracked by space agencies around the world, with the European Space Agency’s centre in Darmstadt predicting a fiery descent for it between 27 March and 8 April.
Hurtling around the Earth at about 18,000mph, the module ranks as one of the larger objects to re-enter the atmosphere without being steered towards the ocean, as is standard for big and broken spacecraft, and cargo vessels that are jettisoned from the International Space Station (ISS), to reduce the risk to life below.
The spacecraft’s orbit ranges from 43° north to 43° south, which rules out a descent over the UK but includes vast stretches of North and South America, China, the Middle East, Africa, Australia, parts of Europe – and great swathes of the Pacific and Atlantic oceans.
Western analysts cannot be sure how much of the spacecraft will survive re-entry, because China has not released details of the design and materials used to make Tiangong-1. But the spacecraft may have well-protected titanium fuel tanks containing toxic hydrazine that could pose a danger if they land in populated areas.
Tiangong-1 weighs about 8.5 tonnes and is 10 metres long and 3 metres wide.
Richard Crowther, chief engineer at the UK Space Agency, said: “Given Tiangong-1 has a larger mass and is more robust, as it is pressurised, than many other space objects that return uncontrolled to Earth from space, it is the subject of a number of radar tracking campaigns. The majority of the module can be expected to burn up during re-entry heating, with the greatest probability being that any surviving fragments will fall into the sea.”