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Chain-length-controllable upcycling of polyolefins to sulfate detergents

Author

Listed:
  • Nuwayo Eric Munyaneza

    (Virginia Tech)

  • Ruiyang Ji

    (Virginia Tech)

  • Adrian DiMarco

    (Virginia Tech)

  • Joel Miscall

    (National Renewable Energy Laboratory
    BOTTLE Consortium)

  • Lisa Stanley

    (National Renewable Energy Laboratory
    BOTTLE Consortium)

  • Nicholas Rorrer

    (National Renewable Energy Laboratory
    BOTTLE Consortium)

  • Rui Qiao

    (Virginia Tech)

  • Guoliang Liu

    (Virginia Tech
    Virginia Tech
    Virginia Tech)

Abstract

Escalating global plastic pollution and the depletion of fossil-based resources underscore the urgent need for innovative end-of-life plastic management strategies in the context of a circular economy. Thermolysis is capable of upcycling end-of-life plastics to intermediate molecules suitable for downstream conversion to eventually high-value chemicals, but tuning the molar mass distribution of the products is challenging. Here we report a temperature-gradient thermolysis strategy for the conversion of polyethylene and polypropylene into hydrocarbons with tunable molar mass distributions. The whole thermolysis process is catalyst- and hydrogen-free. The thermolysis of polyethylene and polyethylene/polypropylene mixtures with tailored temperature gradients generated oil with an average chain length of ~C14. The oil featured a high concentration of synthetically useful α-olefins. Computational fluid dynamics simulations revealed that regulating the reactor wall temperature was the key to tuning the hydrocarbon distributions. Subsequent oxidation of the obtained α-olefins by sulfuric acid and neutralization by potassium hydroxide afforded sulfate detergents with excellent foaming behaviour and emulsifying capacity and low critical micelle concentration. Overall, this work provides a viable approach to producing value-added chemicals from end-of-life plastics, improving the circularity of the anthropogenic carbon cycle.

Suggested Citation

  • Nuwayo Eric Munyaneza & Ruiyang Ji & Adrian DiMarco & Joel Miscall & Lisa Stanley & Nicholas Rorrer & Rui Qiao & Guoliang Liu, 2024. "Chain-length-controllable upcycling of polyolefins to sulfate detergents," Nature Sustainability, Nature, vol. 7(12), pages 1681-1690, December.
  • Handle: RePEc:nat:natsus:v:7:y:2024:i:12:d:10.1038_s41893-024-01464-x
    DOI: 10.1038/s41893-024-01464-x
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