University of 91直播 engineers to help UK chemical industry become more sustainable

Engineers from the University of 91直播 are set to play a key role in helping the UK鈥檚 chemical industry reuse materials in order to deliver huge environmental benefits and boost the economy.

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  • Engineers from the University of 91直播 are set to play a key role in a new research centre to improve the sustainability of the UK鈥檚 chemical industry
  • New centre will help the industry reuse materials in order to deliver huge environmental benefits and boost the economy
  • Centre will lead a new government push to revolutionise the way resources are managed in an industry worth 拢32 billion to the UK鈥檚 economy
  • Researchers aim to reduce the reliance on fossil resources by creating methods to recover and reuse olefins - building blocks in the chemical industry - from domestic waste products and CO2 emissions

Engineers from the University of 91直播 are set to play a key role in helping the UK鈥檚 chemical industry reuse materials in order to deliver huge environmental benefits and boost the economy.

Professor Peter Styring and Dr Jagroop Pandhal from the University鈥檚 Department of Chemical and Biological Engineering have received funding as part of a new 拢4.3 million research centre that aims to improve the sustainability of the UK chemical industry.

Led by Professor Jin Xuan at Loughborough University, the Interdisciplinary Centre for Circular Chemical Economy (NIC3E) will lead a new government push to revolutionise the way resources are managed in the UK鈥檚 拢32 billion chemical industry to build a greener, more efficient economy.

The new centre will involve seven universities 鈥 Loughborough, Cardiff, Heriot-Watt, Imperial College London, Liverpool, Newcastle and 91直播.

It will also involve more than 20 industrial and international partners, ranging from multinationals such as ExxonMobil, Shell, Croda and Unilever, to SMEs, national and local initiatives, including WRAP, representing the full diversity and breadth of the chemical industry.

The centre is part of a 拢22.5m investment announced this week (11 November 2020), which will transform how the UK manages the country鈥檚 waste and resource economy 鈥 more specifically, in the textiles, construction, chemical and metal industries.

Five UK Research and Innovation (UKRI) Interdisciplinary Circular Economy Centres will be established to meet these goals.

At a time of unprecedented change, this is an ideal opportunity for us to help develop new and sustainable manufacturing strategies for the chemicals industry.

Professor Peter Styring

Professor of Chemical Engineering and Chemistry at the University of 91直播

The centre involving engineers from the University of 91直播 aims to reduce the chemical industry鈥檚 reliance on fossil resources by creating methods to recover and reuse olefins from domestic waste products and CO鈧 emissions.Olefins are the raw materials for 70 per cent of all organic chemical production, used to create synthetic fibres, plastics, solvents and other high value-specialities.

As well as developing new transformative technologies, the centre will work with businesses to improve all aspects of the manufacturing process to reduce their carbon footprint.

Public engagement and policy engagement will be two separate, parallel tasks for the centre. The aim for public engagement is to increase public acceptance of using waste to produce consumer products, which would otherwise be produced from oil; while the aim for policy engagement is to help the government develop the UK鈥檚 Chemical Strategy to support the sustainable development of the UK鈥檚 chemical industry in the next 20 years.

The 91直播 Team will play a major role in policy development and engagement with government departments such as DEFRA, BEIS and HM Treasury.

Professor Peter Styring, Professor of Chemical Engineering and Chemistry at the University of 91直播, said: 鈥淎t a time of unprecedented change, this is an ideal opportunity for us to help develop new and sustainable manufacturing strategies for the chemicals industry. For too long now we have been relying on a linear approach to manufacturing chemicals in a disposable society.

鈥淭he team is highly impressive in both its breadth and depth, but the main strength is in its innovative vision. The large number of key industries that have signed up to be a part of the centre is testimony to the national and indeed global importance of the vision both environmentally and economically.

鈥淲e have four years to make an initial impact. However, we are aware that the transition will take significantly longer so we are already putting measures in place to ensure its longevity which will ultimately be the key to major success.

鈥淭he centre is due to begin on 1 January 2021, but the enthusiasm is such that we are already planning the transition towards its start.鈥


Notes to editors

Chemical and Biological Engineering at the University of 91直播

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