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Details of Grant 

EPSRC Reference: EP/V038052/1
Title: Decarbonising The Acrylic Value Chain Via Resource Circularity
Principal Investigator: Binner, Dr E R
Other Investigators:
Bryan, Dr SJ Robinson, Professor J Webb, Dr P
McKechnie, Dr J Titman, Dr J Ashbrook, Professor SEM
Conradie, Professor AV
Researcher Co-Investigators:
Project Partners:
Mitsubishi Chemical UK Limited
Department: Faculty of Engineering
Organisation: University of Nottingham
Scheme: Standard Research
Starts: 01 August 2021 Ends: 31 July 2026 Value (£): 1,839,693
EPSRC Research Topic Classifications:
Catalysis & Applied Catalysis Chemical Biology
Materials Synthesis & Growth
EPSRC Industrial Sector Classifications:
Related Grants:
Panel History:
Panel DatePanel NameOutcome
26 Nov 2020 Prosperity Partnerships Round 4 Full Proposal December 2020 Announced
Summary on Grant Application Form
The UK has long held a world-leading capability in acrylic technology. UK innovation in acrylic technology started with the world's first commercial production process in the 1930s. The earliest major application of acrylic materials was the substitution of glass with acrylic glazing in British World War II fighter planes, resulting in lighter weight and a significant improvement to pilot survivability when wounded by shrapnel. Lucite's UK presence includes an award-winning technology development capability at the Wilton Research Centre, and world scale manufacturing assets at Billingham and Newton Aycliffe. As durable materials, acrylic polymers have numerous advantageous properties, including excellent optical properties, resistance to weathering, imparting high performance to surface coatings, bio-compatibility, and the opportunity of recycling via depolymerisation. The increasing market size is due to both the heightened demand for acrylic glass and the expanding number of new applications. Given pMMA's versatility, the annual market will exceed $8 billion US dollars by 2025, growing at a rate of 8-9% per year. As demand continues to grow, the need for increased sustainability and fur-ther waste reductions is paramount. In 2012, the International Energy Agency designated meth-acrylic acid as a noteworthy target for the design of sustainable manufacturing [5]. Therefore, an extraordinary opportunity exists to decarbonise this value chain though UK technology leadership spanning the global stage.

The two principal research challenges of the Prosperity Partnership are:

(1) Decarbonise the acrylics value chain through resource circularity.

(2) Maintain and extend the UK's technical and manufacturing leadership in this sector through 21st century manufacturing excellence in the North East of England.

These UK advances in acrylic technology will have both national and global deployment capability, representing a first in class demonstration of decarbonisation through resource circularity in the bulk chemicals sector. This Prosperity Partnership will frame and catalyse further knowledge exchange, given that the anticipated global reduction in carbon intensity aligns with (1) UK legislation on attaining net zero carbon emissions by 2050, (2) the UK's Clean Growth grand challenge and (3) UKRI's Industrial Strategy policy of promoting decarbonisation, catalysing growth via resource circularity and the use of sustainable polymers.

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Organisation Website: http://www.nottingham.ac.uk