A research group at Chalmers University of Technology, Sweden, has developed an efficient process for breaking down any plastic waste to a molecular level. The resulting gases can then be transformed back into new plastics – of the same quality as the original. The new process could transform today’s plastic factories into recycling refineries, within the framework of their existing infrastructure.
?The fact that plastics do not break down, and therefore accumulate in our ecosystems, is one of our major environmental problems. But at Chalmers, a research group led by Henrik Thunman, Professor of Energy Technology, sees the resilience of plastic as an asset. The fact that it does not degrade makes it possible for circular usage, creating a true value for used plastic, and therefore an economic impetus to collect it.
“We should not forget that plastic is a fantastic material – it gives us products that we could otherwise only dream of. The problem is that it is manufactured at such low cost, that it has been cheaper to produce new plastics from oil and fossil gas than from reusing plastic waste,” says Henrik Thunman.
Now, through experimenting with chemical recovery via steam cracking of plastic, the researchers have developed an efficient process for turning used plastics into plastics of virgin quality.
“Through finding the right temperature – which is around 850 degrees Celsius – and the right heating rate and residence time, we have been able to demonstrate the proposed method at a scale where we turn 200 kg of plastic waste an hour into a useful gas mixture. That can then be recycled at the molecular level to become new plastic materials of virgin quality,” says Henrik Thunman.
The experiments were carried out at the Chalmers Power Central facility in Gothenburg.
In 2015, around 350 million tonnes of plastic waste were generated worldwide. In total, 14 per cent was collected for material recovery – 8 per cent was recycled into plastic of lower quality, and 2 per cent to plastics of similar quality as the original. Around 4 per cent was lost in the process.
Overall, around 40 per cent of global plastic waste in 2015 was processed after collection, mainly through incineration for energy recovery or volume reduction – releasing carbon dioxide into the atmosphere.
The rest – about 60 per cent – went to landfill. Only around 1 per cent was left uncollected and leaked into natural environments. Though only a small percentage, this nevertheless represents a significant environmental problem, since the amount of plastic waste is so high overall, and since the natural degradation of plastic is so slow, it accumulates over time.
The current model for recycling plastic tends to follow what is known as the ‘waste hierarchy’. This means the plastic is repeatedly degraded, to lower and lower quality before finally being burned for energy recovery.
“Instead of this, we focused on capturing the carbon atoms from the collected plastic and using them to create new plastic of original quality – that is, back to the top of the waste hierarchy, creating real circularity.”
Today, brand new plastics are made by shattering fossil oil and gas fractions in a device known as a ‘cracker’ in petrochemical plants. Inside the cracker, building blocks consisting of simple molecules are created. These can then be combined in many different configurations, resulting in the enormous variety of plastics we see in our society.
To do the same from collected plastics, new processes need to be developed. What the Chalmers researchers now present are the technical aspects of how such a process could be designed and integrated into existing petrochemical plants, in a cost-effective way. Eventually, this kind of development could enable a hugely significant transformation of today’s petrochemical plants into recycling refineries of the future.
The researchers are continuing their work on the process.
“We are now moving on from the initial trials, which aimed to demonstrate the feasibility of the process, to focusing on developing more detailed understanding. This knowledge is needed to scale up the process from a few tonnes of plastic a day, to hundreds of tonnes. That is when it becomes commercially interesting,” says Henrik Thunman.
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