Satellite Internet Has An Exhaust Problem Nobody Is Regulating
The race to blanket the globe in high-speed internet has turned low Earth orbit into one of the busiest construction zones in history, and all those rockets are leaving something behind.
A new study published in the journal Earth’s Future finds that satellite megaconstellations, the massive networks of thousands of small satellites being launched by companies like SpaceX, have grown so quickly that by 2024, their rockets burned more fuel than all other types of rocket missions combined. Researchers used a detailed inventory of launches and re-entries from 2020 to 2022, then modeled how those emissions could grow through 2029, and what they found raises fresh questions about an industry whose upper-atmosphere emissions remain largely unregulated and poorly monitored.
Every time a rocket launches or a used satellite falls back through the atmosphere and burns up, it releases a cocktail of chemicals and particles into layers that regulate the planet’s temperature and protect life on the surface from harmful radiation.
Thousands of Satellites, Tons of Rocket Soot
Researchers estimate that at least 65,000 more megaconstellation satellites are expected in low Earth orbit over the next ten years, from providers including China’s Guowang and Amazon’s Leo. That’s on top of the roughly 22,500 objects already tracked in low orbit today.
To launch all those satellites, rockets burn enormous quantities of kerosene, the same basic fuel used in jet engines, though highly refined. When kerosene burns, it produces soot, also called black carbon. On the ground, soot from cars and power plants is a well-known climate problem. But soot released high in the upper atmosphere behaves very differently.
Soot from rockets absorbs sunlight with a warming effect more than 500 times greater per unit of mass than soot released at Earth’s surface. Upper-atmosphere soot can linger for years without being washed away by rain, sitting right where it can intercept sunlight before it even reaches the lower atmosphere.
Warming Above, Cooling Below
That effect plays out in two competing ways the study’s authors compare to an accidental experiment in what scientists call “solar geoengineering,” deliberate attempts to reflect sunlight away from Earth to cool the planet.
Soot absorbs incoming sunlight, warming the upper atmosphere. Across all rocket missions over the decade studied, that warming effect, measured as the net change in energy reaching Earth, came in at 6.47 milliwatts per square meter, with megaconstellation missions responsible for 56% of it. But as the upper atmosphere warms and adjusts, it reflects more energy back to space, producing a nearly equal cooling influence on the lower atmosphere and Earth’s energy balance. Megaconstellation missions accounted for 42% of that offsetting effect.
Researchers describe this push-and-pull as operating “like small-scale stratospheric aerosol injection experiments without forethought for potential unintended consequences.” Rockets may already be inadvertently tinkering with the planet’s energy balance, without a clear international framework for measuring or limiting these upper-atmosphere emissions, and with major scientific uncertainties still unresolved.
A Small but Growing Ozone Problem
Rocket emissions are also affecting the ozone layer, the part of the upper atmosphere that blocks dangerous ultraviolet radiation. Ozone damage from all rocket missions combined is still quite small, estimated at about 0.02% of total global ozone by 2029, compared to roughly 2% loss from chemicals regulated under the Montreal Protocol.
Megaconstellation rockets account for only about 9% of rocket-caused ozone depletion, because they almost exclusively burn kerosene, which does not release the chlorine compounds most destructive to ozone. But satellites in megaconstellations are designed to be replaced roughly every five years, meaning burn-up re-entries will accelerate. Each re-entry releases its own byproducts, including metal particles, that can affect ozone chemistry in ways not yet fully understood.
Source : https://studyfinds.com/satellites-changing-atmosphere/
