- Space debris is a major threat to the satellite services we
rely on
- 13 projects involve industry and academia across the UK
The UK Space Agency is providing £1.7 million for new projects to
support sustainable space operations, Science Minister announced today.
The 13 new projects will help track and remove dangerous debris
in space. They include an AI-based tool which can take autonomous
action to avoid a collision and another which will see multiple
small spacecraft fired at debris before taking it into the
atmosphere to dispose of it.
The Science Minister, UK Space Agency CEO Paul Bate and
representatives from the UK space sector met at the Harwell Space
Cluster in Oxfordshire to discuss the sustainable future of the
space environment today (Monday 31 January).
Orbital congestion created by space debris is one of the biggest
global challenges facing the space sector. There are currently an
estimated 330 million pieces of space debris, including 36,500
objects bigger than 10cm, such as old satellites, spent rocket
bodies and even tools dropped by astronauts orbiting Earth.
Space debris can stay in orbit for hundreds of years and present
a real danger to the rapidly increasing number of new satellites
being launched each year which provide vital services, including
communications and climate change monitoring.
Science Minister said:
Like debris on Everest, the first generation of space exploration
and satellite launch has left millions of pieces of dangerous
satellite fragments and 4,000 redundant satellites in orbit.
As our reliance on satellites for everyday activity grows, and
the UK becomes a leading hub of small satellite design,
manufacturing and launch this year via Virgin Orbit in Cornwall,
this debris now poses a serious threat to our £16 billion space
sector.
That’s why we have made debris mitigation and removal - and the
long-term importance of space sustainability - key elements of
our National Space Strategy.
These projects will help put the UK at the forefront of both
protecting the space environment for future activity, and
accelerating UK technology leadership.
The UK’s National Space Strategy set out a bold vision for the
sector and recognises the need for the UK to lead in making space
safe and sustainable. The new funding supports the development of
underlying technology or data processing capabilities for space
surveillance and tracking to support the removal of orbital
debris.
In the past two years the UK Space Agency has provided £2.7
million for UK industry and academia to develop new technology
for Space Surveillance and Tracking (SST) and debris removal, as
well as investing around £16 million on space sustainability
through the European Space Agency in 2019.
The UK is the largest contributor to ESA’s Space Safety
Programme. This new funding comes from a joint call from the UK
Space Agency’s Space Surveillance and Tracking and National Space
Technology Programme.
Managing Director, Astroscale Ltd and Co-Chair of the IOSM
Working Group, UKspace, John Auburn said:
We need to act now to build the UK’s capability with the right
level of UK investment; enhanced UK regulation and policy; supply
chain development, and international partnerships. The In-orbit
Servicing and Manufacturing (IOSM) working group, part of
UKspace, is comprised of more than 65 members.
This rapidly expanding group is driving forward a shared vision
to gain first leader commercial advantage in the in-orbit
servicing and manufacturing sector. We must accelerate our
efforts to secure a safe and sustainable space environment and
see it as a natural extension of the Earth’s environment. This
will help to protect vital services, including those monitoring
climate change, weather forecasting, disaster management and
digital services for citizens and ensure we can provide them for
generations to come.
In 2021 the UK Space Agency worked with the UN Office for Outer
Space Affairs (UNOOSA) to support the next stage of international
efforts to promote space sustainability and provided funding to
research a UK-led mission to remove junk from space.
