Chemists Just Turned Plastic Into Liquid Fuel

Chemists Just Turned Plastic Into Liquid Fuel

In news that offers hope that human civilisation won’t end up drowning in soda bottles and plastic wrap, Chinese chemists have developed a remarkably efficient method for converting polyethylene into liquid fuel. If it proves scalable, it could make a real dent in global plastic pollution.

Image: Wikimedia

Polyethylene is the most common plastic on Earth. Worldwide, our factories churn out some 100 million tons of the stuff each year. Composed of carbon and hydrogen atoms linked together in long chains, polyethylene is a remarkably inert substance, meaning it doesn’t react with much of anything, and therefore doesn’t degrade in the environment.

People have spent decades trying to figure out a better method for disposing of polyethylene, to replace our current approach of just letting it tumble into the ocean. You can stick plastic in a furnace and burn it at high temperatures, but that process is energy intensive, polluting, and results in a slew of nasty byproducts that are often just as hard to degrade as polyethylene itself.

The recent discovery of plastic-munching microbes has ignited hopes that we might be able to degrade polyethylene naturally, but so far, biological degradation has proven difficult to scale up.

Zheng Huang, an organic chemist at the Chinese Academy of Sciences, has spent the last four years developing a different approach. Writing today in Science Advances, Huang and his colleagues describe their method for degrading polyethylene at temperatures as low as 150°C, by adding an organometallic catalyst — a small, commercially available organic molecule doped with the metal iridium — to the reaction. The catalyst weakens bonds responsible for polyethylene’s stiff structure, accelerating its breakdown into a liquid product.

“Our products are much cleaner than those obtained by conventional [combustion] methods,” Huang told Gizmodo, adding that his method is also easier to control and can be used as a diesel fuel. It’s been proven on small samples of plastic bags, bottles and food packaging.

The challenge, of course, will be scaling up from grams to tons if we want to make a dent in the mountains of plastic waste that litter our planet. “The first challenge is the efficiency of the catalyst,” Huang said. Right now, his procedure works well at a plastic-to-catalyst ratio of roughly 30 to one. “That’s not good enough if you want to commercialise,” he continued. “We want to see ten thousand to one, or a million to one.”

Huang’s team is also looking into replacing iridium — a rare and precious metal in the platinum family — with a cheaper alternative, although this may prove more difficult, given the highly specific nature of metal catalysts.

“We think that the future potential is there — as long as we can improve the efficiency and reduce the cost of the iridium,” Huang said. “Hopefully, very soon we can scale up the process from gram scale in the lab to kilogram and even ton scale.”

I hope so, too. A vehicle that runs on 100 per cent recycled LEGO bricks sounds rad. The alternative — a future where the oceans contain more plastic than fish — sounds bleak as hell.

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