Space likely for rare earths search
2013-02-20 18:50
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Sydney - The quest for rare earths vital to some of
modern life's most indispensable technologies may see mining robots jet to the
stars within decades, a world-first conference in Australia was told on Wednesday.
Yttrium, Lanthanum and the other 15 minerals which make
up the group of elements known as rare earths are crucial to everything from
wind turbines and hybrid cars to cruise missiles and the ubiquitous smartphone.
As technology advances, so too does demand for the
elements which, although relatively abundant, require laborious and
waste-intensive processing to be freed from surrounding rock.
They are a precious commodity - so precious scientists
are now looking beyond Earth's reaches for new supplies, with moon and asteroid
mining becoming a lucrative prospect, according to researchers and tech firms
gathered in Sydney for the world's first formal "Off-Earth Mining
Forum".
"It's about joining the dots," explained
conference convenor Andrew Dempster from the Australian Centre for Space
Engineering.
"I think we've got to the point where people are
saying 'yeah, I think we can do this'."
A cross-section of the space and mining industry's top
minds have gathered to swap ideas about the latest advances in space and mining
technology, from Rio Tinto and Sandvik to Nasa and Japan's space agency Jaxa.
Rene Fradet, of Nasa's Jet Propulsion Laboratory - the
organisation behind the current Mars Curiosity Rover mission - believes space
mining will be possible and economical within 20-30 years.
But Dempster thinks it could be quicker than that.
"Most of the technology already exists, but there
needs to be a business case. It depends on making that business case."
Like the challenges, the costs are substantial: To
transport 1kg to the moon is $100 000 and none of the cutting-edge completely
automated technology comes cheap.
One delegate, Nasa affiliate Berok Khoshnevis from the
University of Southern California, has developed technology to make waterless
sulphur-based cement from the loose rubble on Mars and Earth's moon.
Mining in space
Matthew Dunbabin, from the Australia's government's
science agency Csiro, has done a large-scale simulation of using mining
machinery in space and told delegates the main issue was electrical power.
Few space missions had attempted significant excavations
- the sum total of all Nasa's Apollo missions had been 382kg and the Mars
programme had netted in the order of "grams", Dunbabin said.
Gravity, temperatures, atmospheric pressure, radiation
and the consistency of surfaces themselves all present unique problems,
complicated by the fact that operations in space would have to be largely
automated and remote-controlled.
Space drilling also throws up the question: Who owns the
moon's resources?
SingTel Optus lawyer Donna Lawler likened it to the law
of the high seas, where energy firms can mine in international waters without
claiming territorial ownership.
More than 100 countries including the US have ratified
the 1967 Outer Space Treaty, which holds signatory nations responsible for
activities in space but it is as yet untested.
It may be soon if space mining joins the moon landings in
the annals of science fiction-turned-reality.
"There's nothing really science fiction about any of
this. In many ways a lot of the technology already exists, I don't think we
really have to invent much science," said Dempster.
