The UK Space Agency and the National Nuclear Laboratory (NNL) are
to collaborate on the world’s first space battery powered by
Americium-241.
This work, commissioned and funded by the UK Space Agency from
NNL, will be delivered in a new £19 million laboratory in Cumbria
equipped with next-generation equipment and technology. It will
deliver a sovereign supply of fuel for space batteries in the
context of a global shortage, enabling the UK and its partners to
pursue new space science and exploration missions.
Creating new highly-skilled jobs in the North West of England, it
will drive innovation in radiochemistry and separations science
and open a new market for the UK space sector.
Atomic space batteries, also known as Radioisotope Power Systems
(RPSs), release heat as the radioactivity within them decays. The
heat can be used directly to prevent spacecraft from freezing and
it can be converted into electricity to power onboard systems.
The batteries go on working for decades, without need for
maintenance over the many years in which a spacecraft could be
travelling.
The support from the UK Space Agency follows the UK’s record
investment to the European Space Agency for a range of new
programmes, including £22 million for ENDURE (European Devices
Using Radioisotope Energy), which will use radioisotopes to
develop systems for warming and powering spacecraft.
Considered ‘mission critical technologies’ by space agencies in
the UK and around the world, all the Apollo missions had an
atomic battery in tow, as has every rover that has gone to Mars.
Until now, these have been powered by Plutonium-238, a
radioisotope produced only in the US, where supply is limited,
and Russia, so an alternative is urgently needed.
NNL, the UK’s national laboratory for nuclear fission, has been
working on this endeavor since 2009, when its researchers first
discovered that Americium-241, an alternative to Plutonium-238,
is produced during the radioactive decay of used fuel from
nuclear reactors and that it emits power for over 400 years.
With the supply plentiful – the new laboratory is being opened at
NNL’s flagship Central Laboratory on the Sellafield site, home to
the largest resource of Americium-241 available for extraction in
the world – the new collaboration will turn a proven scientific
concept into a fully-realised technology. It will be operational
within the next four years and is expected to be first used on
the European Space Agency’s Argonaut mission to the Moon and for
future missions into deep space.
Science Minister said:
This new capability marks a significant milestone for the North
West Space Cluster, adding skilled jobs to the existing 2,000
strong workforce.
This exciting work from the National Nuclear Laboratory is
supported by over £19 million in government funding, creating a
nuclear-based fuel that will put Sellafield and the North West
firmly on the global space technology map.
Being able to offer a globally unique supply of Americium-241
will encourage investment and unlock growth opportunities for all
sorts of UK industries looking to explore nuclear energy.
Professor Tim Tinsley, account director for this work at the
National Nuclear Laboratory said:
For the past 50 years space missions have used Plutonium-238 to
stop spacecrafts from freezing but it is in very limited supply.
At NNL we have identified significant reserves of Americium-241,
a radioisotope with similar properties to Plutonium-238 but
game-changing potential for the UK’s space ambitions.
This work, which is being made possible through the support of UK
Space Agency, will see us applying decades of experience in
separating and purifying used nuclear material in order to unlock
great public benefits, and it goes to the heart of our purpose of
nuclear science to benefit society.
Dr Paul Bate, CEO at the UK Space Agency said:
We are backing technology and capabilities to support ambitious
space exploration missions and boost sector growth across the UK.
This innovative method to create Americium to power space
missions will allow us not only to sustain exploration of the
Moon and Mars for longer periods of time, but to venture further
into space than ever before.
Supporting the National Nuclear Laboratory’s expansion will make
the UK the only country in the world capable of producing this
viable alternative to Plutonium, reducing the global space
community’s reliance on limited supplies, which are increasingly
difficult and costly to obtain.
The UK Space Agency is committed to keeping space activities
sustainable, and this resourceful technology exploits otherwise
unused waste Plutonium biproducts without generating additional
waste.
