New Research Exposes Flaws in Current Plastic Recycling and Pyrolysis
These reactor-scale models balance the inflow of molten plastic and outflow of products with changing contents and reactions in the reactor.
SEATTLE (Scrap Monster): Researchers from the University of Illinois Urbana-Champaign noted in a study published in Accounts of Chemical Research that current recycling techniques, which require sorting, grinding, cleaning, remelting, and extrusion to obtain plastic pellets, produce low-value materials because of contamination and mechanochemical degradation during recycling.
To improve plastic recycling, some researchers have investigated pyrolysis, the chemical breakdown of plastic polymers with heat into energy-rich molecules such as oils. However, this method requires large amounts of energy and can produce a hazardous combination of products, limiting its potential as a large-scale solution to the problem of plastic waste.
Using catalysts to break down plastics could be a more effective alternative. But, trying to predict how different catalysts and chemical intermediates will interact at various stages of the process is difficult and makes research into catalysis-based recycling methods slow-moving.
Looking to find a way around these issues, the researchers devised a novel framework that combines molecular-scale processes, such as chemical reactions and adsorption of polymerase on catalyst surfaces, with reactor-scale models.
These reactor-scale models balance the inflow of molten plastic and outflow of products with changing contents and reactions in the reactor.
The researchers hope that these quantitative models of the catalytic breakdown of plastic polymers will aid in the design of catalysts and in devising solutions for plastic pollution.
Courtesy: www.azocleantech.com