Pollution from rocket launches and burning satellites could cause the next environmental emergency
'If we don't take any action now or in the next five years, it might be too late.'
The growing number of rocket launches and satellites burning up in Earth's atmosphere could trigger the world's next big environmental emergency. Experts are racing to understand the new threat before it's too late.
The space industry is booming. Over the past 15 years, the number of rockets launched per year has nearly tripled, and the number of satellites orbiting the planet has increased tenfold, according to Statista. The amount of space debris — old satellites and spent rocket stages — falling back to Earth has doubled over the past 10 years. A few hundred tons of old space junk now vaporizes in the atmosphere every year, experts say.
And all of this is just the beginning. Applications for satellite spectrum for 1 million satellites have been filed with the International Telecommunications Union, and, although not all of those plans are likely to come to fruition, experts expect that around 100,000 spacecraft may circle Earth by the end of this decade. The majority of those satellites will belong to one of the megaconstellation projects, such as SpaceX's Starlink, that are currently planned or being deployed. By that time, the amount of space junk burning up in the atmosphere on a yearly basis is expected to reach more than 3,300 tons (3,000 metric tons).
Soot and alumina
Most rockets in use today run on fossil fuels and release soot, which absorbs heat and could increase temperatures in the upper levels of Earth's atmosphere. The atmospheric incineration of satellites produces aluminum oxides, which too can alter the planet's thermal balance. Both types of emissions also have the potential to destroy ozone, the protective gas that keeps dangerous ultraviolet (UV) radiation from reaching Earth's surface, studies suggest.
Related: Burned-up space junk pollutes Earth's upper atmosphere, NASA planes find
A study published in the journal Geophysical Research Letters in June found that concentrations of aluminum oxides in the mesosphere and stratosphere — the two atmospheric layers above the lowest layer, the troposphere — could increase by 650% in the coming decades due to the rise in reentering space junk. Such an increase could cause "potentially significant" ozone depletion, the study concluded.
Another study, published a year earlier and authored by a team from the U.S. National Oceanic and Atmospheric Administration (NOAA), concluded that the expected increase in soot-producing rocket launches will have a similar effect on ozone depletion.
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Yet another NOAA study, presented at a conference of the American Institute of Aeronautics and Astronautics in Florida in January, found that the increase in concentrations of aluminum oxides in the stratosphere could produce "significant temperature anomalies" in the stratosphere.
Other researchers have suggested that the shroud of metallic ash that is forming in the stratosphere as a result of the satellite reentries may interfere with Earth's magnetic field. The satellite dust could weaken the magnetic field, the researchers think, possibly allowing more harmful cosmic radiation to reach the planet's surface.
High up in the atmosphere
Both rockets and reentering satellites inject air pollution into higher layers of the atmosphere, which are out of reach of ground-based polluters. Even aircraft emissions are contained within the troposphere. Rockets, on the other hand, emit their exhaust throughout their climb through the atmospheric column.
Sebastian Eastham, an aerospace sustainability researcher at Imperial College London, told Space.com that rocket air pollution, due to the high altitude at which it is emitted, is "untested territory."
"Our understanding of the consequences of an emission decreases the further you get from the surface," Eastham said.
The higher the altitude of the air pollution particles, the longer they will remain in the atmosphere and the more time they will have to wreak havoc. But how much more havoc this high-altitude air pollution wreaks is unknown as well, added Eastham.
Ash from reentering satellites also accumulates high above the planet. Most of a satellite's mass burns up between altitudes of 37 miles and 50 miles (60 to 80 kilometers), according to Minkwan Kim, associate professor of astronautics at the University of Southampton in the U.K. Kim leads an international project funded by the U.K. Space Agency that aims to evaluate the environmental threats presented by satellite reentries and propose solutions to the problem.
"If we put the small particles at a very high altitude, they're going to stay there a very long time," Kim told Space.com. "Probably 100 years, 200 years."
Kim and his colleagues think that satellite operators could reduce the time the dangerous particles remain suspended in the thin air of the upper atmosphere by controlling the reentry trajectory to make those satellites burn at lower altitudes.
"If we burn it at the low altitude, like 20, 30 kilometers [12 to 18 miles], this metal oxide that is generated will eventually drop to the ground," Kim said.
Research into atmospheric effects of rocket flights and satellite air pollution is still in its early stages, Kim noted. However, he stressed that the space industry doesn't have time to waste. With the expected growth in the number of both reentering satellites and rocket launches, the world could soon have another major environmental crisis on its hands.
"If we don't take any action now or in the next five years, it might be too late," said Kim. "Starting earlier would probably mean a better chance to prevent serious problems. Just like with CO2 emissions, if it happened earlier, we would have a better response to global warming."
Related: Climate change: Causes and effects
Calls for regulation
Air pollution from rocket flights and reentering satellites is currently not subject to any regulations, Kim added.
In the U.S., the nonprofit Public Interest Research Groups (PIRG) recently called on the Federal Communications Commission, which awards licenses to satellite operators, to halt all megaconstellation satellite launches until the environmental impacts of satellite reentries are assessed.
An exemption from the National Environmental Protection Act in place since 1986 means that the FCC doesn't have to carry out environmental impact reviews before awarding satellite licenses. But experts say that things have changed in the last 40 years, and the FCC needs to change its attitude to satellite pollution.
This novel environmental threat is also outside the scope of all existing international space and environmental protection treaties.
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Tereza is a London-based science and technology journalist, aspiring fiction writer and amateur gymnast. Originally from Prague, the Czech Republic, she spent the first seven years of her career working as a reporter, script-writer and presenter for various TV programmes of the Czech Public Service Television. She later took a career break to pursue further education and added a Master's in Science from the International Space University, France, to her Bachelor's in Journalism and Master's in Cultural Anthropology from Prague's Charles University. She worked as a reporter at the Engineering and Technology magazine, freelanced for a range of publications including Live Science, Space.com, Professional Engineering, Via Satellite and Space News and served as a maternity cover science editor at the European Space Agency.
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Unclear Engineer The article talks about only undesirable results of emissions from rocket launches and satellite reentries. But, considering that some have advocated purposely injecting particulates into the upper levels of the atmosphere to reduce global warming, I am left wondering if there are any beneficial results of the emissions that are the subject of this article.Reply -
maggotbrain
What do you think some of these beneficial results could be?Unclear Engineer said:The article talks about only undesirable results of emissions from rocket launches and satellite reentries. But, considering that some have advocated purposely injecting particulates into the upper levels of the atmosphere to reduce global warming, I am left wondering if there are any beneficial results of the emissions that are the subject of this article. -
Unclear Engineer
Not saying that these potential results are true, but since you asked the question, I'll speculate a little, which seems to be what the article does, too.maggotbrain said:What do you think some of these beneficial results could be?
First, as I previously mentioned, the particles might provide a bit of "shade" or "reflectivity" that could help decrease "global warming". We have all read about proposals to intentionally inject large amounts of particulates into the upper atmosphere for that purpose, and we have also all read that the particles injected into the atmosphere by nuclear war would cause a 'nuclear winter', plus the effect of the asteroid strike that killed the dinosaurs supposedly caused a years long decrease in temperature and even light for photosynthesis due to the particulates ejected high into the atmosphere. Yet, nobody has mentioned any cooling effect from particulates resulting from satellite burnup in the atmosphere. Why not speculate about that, too?
And, what are the effects of UV + aluminum oxide (or other constituents of satellite ashes) on atmospheric CO2 concentrations? Other metal are used to catalyze CO2 reactions with UV. Are any of the products beneficial?
I am not going to waste any more of my time posing questions that may or may not have been investigated. All I intended to do is point out that the article seems to be assuming that any effect would have to be bad, and proposes a bunch of speculative mechanisms for being bad. Then it says we may have only 5 years to protect ourselves from whatever bad things will happen, whatever they might be. It just doesn't see like a balanced perspective. -
Meteoric Marmot The soot issue can be solved simply by requiring that all rockets use liquid hydrogen and oxygen for their propulsion. That then leaves the issue of what all that water vapour and ice crystals will do to the climate.Reply
As for buildup of pollutants from re-entries, that too is solvable by requiring all satellites and rocket stages to have enough propellant to put themselves in a parking orbit that's high enough to not re-enter the atmosphere for at least a century. That would allow space tech enough time to figure out a permanent solution.
This won't happen because it would cost too much and humans have proven time and again that we value corporate profits more than human life. -
Unclear Engineer I don't think there is a soot problem with liquid methane and oxygen, which is much easier to deal with than liquid hydrogen. And, the newer rockets seem to be going to liquid methane for fuel.Reply -
Meteoric Marmot
There is a soot problem any time you burn a hydrocarbon and you can't guarantee 100% clean combustion. Methane is cleaner than more complex hydrocarbons, but soot is still a potential problem.Unclear Engineer said:I don't think there is a soot problem with liquid methane and oxygen, which is much easier to deal with than liquid hydrogen. And, the newer rockets seem to be going to liquid methane for fuel. -
Helio
Agreed. Isn’t aluminum oxide white, thus offering some greater reflection?Unclear Engineer said:Yet, nobody has mentioned any cooling effect from particulates resulting from satellite burnup in the atmosphere. Why not speculate about that, too?
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Meteoric Marmot
Alumina is Al2O3 and its optical properties depend on which crystal structure it forms. One crystal structure is clear and forms emerald, ruby, topaz, etc. depending on impurities.Helio said:Agreed. Isn’t aluminum oxide white, thus offering some greater reflection?
Clear crystals (e.g. table salt) look white but aren't. I suspect that alumina would be largely reflective, but that's a guess. They might just pass most of the light and refract it in various directions.
However, regardless of the pollutants' effects on global warming, the specific concerns mentioned in the article are ozone depletion. What the mechanism is for this depletion isn't stated, which is rather poor reporting. -
Unclear Engineer "Rather poor reporting" was my issue from the beginning. Not only did the article merely speculate that there would be negative effects without providing any actual analysis, it completely ignored any potentials for beneficial effects. It was all speculation, and speculation with a bias.Reply
Regarding always having soot from burning hydrocarbons. it is pretty hard to get soot from burning methane. People do in in their homes on a daily basis in kitchens and don't accumulate soot from it. And given that rockets are designed to be as efficient as possible, which means as complete combustion as possible, I doubt that methane powered rockets are more soot producing than kitchen stoves.
So, the post about "there must be some soot" also seems biased. The switch from kerosene is likely much cleaner with the new methane powered rockets. And, that is what I said. Trying to imply that there is still a soot problem seems biased, especially when the original accusation was so speculative to begin with.
"The sky is falling" is wearing thin as a journalistic and activist attention getting tactic. Show me "a piece of the sky", please. Otherwise, these things get put into the "Chicken Little" file.