Making aluminum is dirty work, and hasn’t improved much since the 1886 debut of its most widespread production method. Aside from all the carbon emissions, the ubiquitous metal’s smelting process also creates massive amounts of a toxic red mud byproduct with a pH level often rivaling commercial bleach or engine cleaner. The caustic gunk is usually relegated to giant landfills, unless something like an industrial accident unleashes torrents of the sludge, as was unfortunately the case for rural Hungarian residents back in 2010.
But if there’s anything worse than aluminum manufacturing, it’s steel, which accounts for about 8 percent of all CO2 emissions. In order to reduce the industry’s damaging impact, many researchers and companies are working towards a “green steel” future—strategies such as swapping out the dirty power sources in steel factories for renewable energy, and integrating hydrogen or electric energy into production.
As many engineers continue focusing on reducing industrial smelting’s notorious emission issues, a team at the Max-Planck-Institut für Eisenforschung has developed a way to quickly and affordably recycle aluminum’s red mud byproduct for use in green steel projects with a little help from hydrogen plasma.
[Related: Inside the high-powered process that could recycle rare earth metals.]
The researchers’ paper, recently published in Nature, details how the aluminum industry could one day account for its annual generation of an estimated 198 million tons of red mud—a number expected to only grow larger as demand for the material increases.
For the scientists, it’s a (relatively) simple procedure. Red mud is deposited in an electric arc furnace, where it is subjected to the extremely high temperatures of a plasma containing 10 percent hydrogen. The intense heat then melts down the mud, which separates into liquid metal oxides. As much as 60 percent of red mud is iron oxide, which…
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