World's First 1-Step Method Turns Plastic Into Fuel At 95% Efficiency

A U.S.-China research team has developed the world's first one-step process to convert mixed plastic waste into gasoline and hydrochloric acid with up to 95-99% efficiency, all at room temperature and ambient pressure. InterestingEngineering reports: As the authors put it, "The method supports a circular economy by converting diverse plastic waste into valuable products in a single step." To carry out the conversion, the team combines plastic waste with light isoalkanes, hydrocarbon byproducts available from refinery processes. According to the paper, the process yields "gasoline range" hydrocarbons, mainly molecules with six to 12 carbons, which are the primary component of gasoline. The recovered hydrochloric acid can be safely neutralized and reused as a raw material, potentially displacing several high-temperature, energy-intensive production routes described in the paper. "We present here a strategy for upgrading discarded PVC into chlorine-free fuel range hydrocarbons and [hydrochloric acid] in a single-stage process," the researchers said. Reported conversion efficiencies underscore the potential for real-world use. At 86 degrees Fahrenheit (30 degrees Celsius), the process reached 95 percent conversion for soft PVC pipes and 99 percent for rigid PVC pipes and PVC wires. In tests that mixed PVC materials with polyolefin waste, the method achieved a 96 percent solid conversion efficiency at 80 degrees Celsius (176 degrees Fahrenheit). The team describes the approach as applicable beyond laboratory-clean samples. "The process is suitable for handling real-world mixed and contaminated PVC and polyolefin waste streams," the paper states. SCMP points to an ECNU social media post citing the study, which characterized the achievement as a first, efficiently converting difficult-to-degrade mixed plastic waste into premium petrol at ambient temperature and pressure in a single step.

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