Turning Plastic Waste into Fuel

One hundred million tons. That’s how much plastic we produce globally each year with most of it ending up as waste adding to the massive amounts of plastic trash already piled up in mountainous landfills or suffocating marine life in vast atolls of toxic flotsam.

It gets worse. Some 95% of plastic that we consume is discarded after a single use. Some 8 million tons of it winds up in the oceans each year, amounting to a garbage truck full of plastic dumped into the seas every single minute. If current trends continue, the amount of plastic waste will increase to two truckloads a minute by 2030 and four truckloads a minute by 2050, according to the World Economic Forum (WEF).

“In a business-as-usual scenario, the ocean is expected to contain 1 tonne of plastic for every 3 tonnes of fish by 2025, and by 2050, more plastics than fish,” the WEF says. Not surprisingly, more and more conservationists consider the issue of plastic waste to be just as acute an environmental problem facing the planet as climate change.

Can science, routinely our trusted ally in adversity, come to the rescue? Scientists have been working on ways to reduce the vast amounts of plastic waste, including the use of microbes that can metabolize polyethylene terephthalate (PET), the most common type of polyester. Now here comes another solution: turning plastic into liquid hydrocarbon fuel.

That’s what a team of researchers from the Shanghai Institute of Organic Chemistry proposes doing in a paper published in the journal Science Advances. They have devised a technique that can break down polyethylene at relatively low temperatures, thereby preventing it from disintegrating into a messy mix of gas, oil, wax and char, which happens when it’s heated to higher temperatures in the usual method. The new method uses the same process of chemical catalysts that is used for creating polymers in a form of reverse engineering. Through a series of catalysts, the scientists have managed to turn the chemical structure of polyethylene into usable products: either a diesel fuel or a wax that can be used in industry.

The process still needs fine-tuning, but if successful it might be used at a mass scale to transform plastic waste collected from around the world into something useful. That will be the day!