The re-entry of abandoned stages of rockets left in orbit from space launches have a six to 10 per cent chance of severely injuring or killing a human being in the next decade, according to a new study by the University of British Columbia.
From: University of British Columbia
July 12, 2022 -- Researchers
say governments need to take collective action and mandate that rocket stages
are guided safely back to Earth after their use, which could increase the cost
of a launch, but potentially save lives.
"Is it permissible
to regard the loss of human life as just a cost of doing business, or is it
something that we should seek to protect when we can? And that's the crucial
point here: we can protect against this risk," says lead author Dr.
Michael Byers, professor in UBC's department of political science.
When objects such as
satellites are launched into space, they use rockets, parts of which are often
left in orbit. If these leftover rocket stages have a low enough orbit, they
can re-enter the atmosphere in an uncontrolled way. Most of the material will
burn up in the atmosphere, but potentially lethal pieces can still hurtle
towards the ground.
In the Nature
Astronomy paper, the researchers looked at more than 30 years of data
from a public satellite catalogue, and calculated the potential risk to human
life over the next 10 years, given the corresponding rate of uncontrolled
rocket body re-entries, their orbits, and human population data.
Using two different
methods, they found that current practices have a six to 10 per cent chance of
one or more casualties over the next decade if each re-entry spreads, on
average, dangerous debris over an area of 10 metres squared. While the
calculations consider the probability of one or more casualties for people on
the ground, Dr. Byers says they do not take into account worst case scenarios,
such as a piece of debris striking an airplane in flight. In addition, they
found the risk is borne disproportionately by the global south, despite major
space-faring nations being located in the north, with rocket bodies being
approximately three times more likely to land at the latitudes of Jakarta,
Dhaka and Lagos than those of New York, Beijing or Moscow. This is due to the
distribution of orbits used when launching satellites.
While the risk to any
one individual is very low, the authors note that dangerous debris from space
hitting Earth's surface is far from unheard of, including a 12-metre-long pipe
from a Long March 5B rocket that struck a village in the Ivory Coast in 2020,
causing damage to buildings. And space launches are increasing, says co-author
Dr. Aaron Boley, associate professor in the department of physics and
astronomy. "Risks have been evaluated on a per-launch basis so far, giving
people the sense that the risk is so small that it can safely be ignored. But
the cumulative risk is not that small. There have been no reported casualties
yet, and no mass casualty event, but do we wait for that moment and then react,
particularly when it involves human life, or do we try and get in front of
it?"
Technology and mission
designs currently exist that can largely remove this risk, including by having
engines that reignite, as well as extra fuel, to guide the rocket bodies safely
to remote areas of ocean. But these measures cost money and there are currently
no multilateral agreements mandating that companies make these changes, says
Dr. Byers.
Examples exist of such
international collective action, Dr. Byers says, including the mandated
transition from single to double hulls on oil tankers following the Exxon
Valdez spill and the phasing out of chlorofluorocarbons to protect the ozone
layer in the 1980s. "Both required some cost to change practice but in
response to new scientific analysis, there was a collective will to do so and,
in both instances, they were complete successes. What we're proposing is
entirely feasible and there's therefore no excuse for delaying action on this
matter."
Future research
directions will include adding to the models, which currently assume all rocket
bodies are the same size, says co-author Ewan Wright, a doctoral student in
interdisciplinary studies. "While some have the mass of an average washing
machine, others have masses of up to 20 tonnes. This affects how much material
burns up in the atmosphere, and adding this detail would improve our models.
However, very little is known about how rocket bodies burn up, so having a
better understanding of the 'casualty area' of lethal debris that reaches the
ground is important."
Cite this page
University of British
Columbia. "Space rocket junk could have deadly consequences unless
governments act." ScienceDaily. ScienceDaily, 12 July 2022.
<www.sciencedaily.com/releases/2022/07/220712141300.htm>.
No comments:
Post a Comment