Chemical engineers at the University of Bath have modelled a new way of recycling polystyrene that could become the first viable way of making the hard-to-recycle packaging material reusable.
The team, who are working with Worcester Polytechnic Institute in Massachusetts, US, say their technique could be the first to make recycling polystyrene both economically viable and energy efficient, preventing most of it ending up as landfill waste.
Very little polystyrene is recycled at present. The material can be chemically recycled using heat, but repeated treatments degrade it, causing it to lose strength and flexibility.
As this process requires specialised facilities, most recycling centres do not accept polystyrene – and because of its bulk, high transport costs mean it is rarely moved to these facilities.
As a result, less than 5% is recycled at present.
Explained in a new research paper published in the Chemical Engineering Journal, the technique uses a chemical process called pyrolysis to break down polystyrene into parts which can be reformed into new pieces of the material.
Pyrolysis involves exposing a material to very high temperatures (of more than 450°C) in an oxygen-free chamber, meaning it cannot ignite.
Instead, the polystyrene breaks down into parts known as monomers, which can then be purified and subsequently reconstituted into virgin polystyrene.
Creating one kilogram of the new material requires less than 10 megajoules of energy – roughly enough to power a typical microwave for around 30 minutes.
The identified process involves a pyrolysis reactor, heat exchanger and a pair of distillation columns, which separate out the parts of polystyrene into ‘monomer grade’ styrene – the part which can be reformed into polystyrene – and ‘light’ and ‘heavy’ petroleum-like by-products, which can be reused in other ways.
The process has a yield of 60% – meaning that if 1kg of used polystyrene were used, 600 grams of 99% pure monomer grade styrene would be left available to generate new polystyrene, thus reducing the use of fossil fuels.
This work also highlights the environmental benefits, noting that the cost to decrease the amount of carbon emissions through the implementation of this process is approximately $1.5 per ton of CO2, considerably lower than many other recycling processes.
The researchers say that policies to incentivise consumers to recycle polystyrene, or divert it from landfill, would help make the process even more economically attractive.
University of Bath senior lecturer in Chemical Engineering Dr Bernardo Castro-Dominguez, who is also a co-director of the Centre for Digital, Manufacturing & Design (dMaDe), said chemical recycling techniques were a major focus within chemical engineering right now, and cost- and energy-efficient ways to breakdown plastics to their primary building blocks such as polystyrene are urgently needed.
“Less than 5% of polystyrene is recycled at present – our work shows that as much as 60% of all polystyrene used today could be replaced by chemically recycled styrene,” he added,
Professor of Chemical Engineering at Worcester Polytechnic Institute, Michael Timko, PhD, said their analysis found polystyrene to be an ideal candidate for a chemical recycling process.
“Surprisingly, the process is energetically efficient and potentially economically competitive,” he added.
“In terms of emissions, investing in this process has the potential to be equivalent to simple measures such as energy conservation in terms of the amount of emissions reduction that can be achieved for a given investment.”
