Education

Northumbria University Helps Businesses Turn Waste Streams Into New Products

Issue 108

Following its part in the successful delivery of a £4.7 million, three-year government funded research consortium, Northumbria University aims to engage with companies eager to commercialise their waste streams, increase their efficiency and bolster profitability.

The Government’s Transforming Foundation Industries Research and Innovation (TransFIRe) Hub, has a focus on UK manufacturing and its supply chain, specifically, those companies that are part of the chemicals, cement, ceramics, glass, metals, and paper industries.

Northumbria University, which has been recognised as Modern University of the Year 2025 by The Times and also recorded the biggest rise in research power of any UK university for the second time in a row in REF2021, is ideally positioned to facilitate real impact through knowledge exchange and collaboration for organisations of all sizes, from multinationals to SMEs, based in the North East of England.

According to a report by BiGGAR Economics, Northumbria’s research and knowledge exchange activities contributed £181 million to the UK economy, supporting over 3,100 jobs in the academic year 2021-2022.

As part of the consortium, Professor Justin Perry and Professor Matt Unthank, from Northumbria’s Department of Applied Sciences, led research focussed on the bulk chemicals sector. Their research has showcased that it is not only possible but, also, potentially profitable, to take zero value waste from one industry and turn it into valuable feedstocks or components for another industry.

One of the collaborations established through the research was with coatings specialists AkzoNobel and Jayplas, a specialist in post-consumer plastic recycling, reprocessing and manufacturing. The project showcases what is achievable by working across discipline boundaries in the manufacturing, polymer and construction industries.

The team has shown that it is possible to further optimise current plastic bottle recycling technology, which recycles a plastic called PET, used in single-use water and soft drink bottles, by taking its currently unrecyclable waste and transforming it into a novel, high-performance protective coating, for industrial applications, using only sustainable feedstocks. This demonstrates it is viable to convert a waste material into a high-value, high-performance product which can supply a coating market with global consumption reported as high as one million tonnes per annum.

Professor Matt Unthank, co-lead on the project for Northumbria University, said: “This research was undertaken to showcase what is attainable when bringing businesses from different industries together to implement science-led, solution-based, projects.

“The UK government is making a real push to enable the manufacturing sector to become more sustainable and investment in research is key. We are keen to help businesses of all sizes develop their R&D to take advantage of sustainability as a driver of profitability. We have shown with this coating how one such ‘waste stream’ can create value for another industry and it is just one step towards a closed loop economy where there is no such thing as waste.”

Together, the foundation industries are worth £52 billion to the UK economy and produce 28 million tonnes of materials per year, accounting for about 10% of the UK total CO2 emissions.

Ralph Slikkerveer, R&D Director at AkzoNobel’s Marine Protective & Yacht business unit, said: “At AkzoNobel, advancing more sustainable coatings is a top priority. Our collaboration with Northumbria University on projects like this is vital for achieving our sustainability ambitions, including 100% circular use of materials in our own operations by 2030.

“Although it may take time to fully implement these innovations, they represent more than just exciting advancements—they are essential for inspiring collaboration and driving entire industries toward a brighter, more sustainable future.”

For more information visit

www.northumbria.ac.uk/spin

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