Environment
The Transforming Foundation Industries Challenge Dr Hugh Falkner* highlights some of the funding opportunities available to UK glass companies in their quest to be more sustainable.
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ecognising the common challenges shared by the UK’s foundation industries (metals, glass, paper, cement, ceramic and chemical sectors), the UK Government is investing £66 million of public funding to support the innovation needed to reduce their energy and resource use. UKRI’s Transforming Foundation Industry Challenge, managed by Innovate UK, is already on target to attract an additional £83 million of private sector investment. While the glass and other products made by the foundation industry sector are often taken for granted, they provide essential products and materials to the sectors that support our way of life – such as construction, aerospace, automotive and packaging. These materials cannot realistically be replaced as part of the economy before 2050, and indeed are unlikely to be even within our children’s lifetimes. So, as we move towards a sustainable future, it is imperative that these materials are produced in a more environmentally sound, but commercially viable, manner. The Transforming Foundation Industries (TFI) challenge programme, which will run until 2024, is designed to both stimulate and pull through the multi-sector that are required to make this happen. An aspect of the programme is a recognition that many of the challenges are too big for any of the sectors to tackle alone, and so cross-sector working to share both knowledge and the costs of innovation is central to the work. In heat recovery, advanced sensors, condition monitoring, automation and digitisation, companies have seen the benefits from collaborative cross-sector working. By creating a larger cross-sector market opportunity, existing suppliers
are adapting proven solutions from other sectors to meet the needs of the Foundation Industries. The TFI challenge is best known within the glass sector for its £15m contribution to the £54m Glass Futures global centre of excellence. Opening Autumn 2023, this flexible 30t/day batch plant at St Helens will dramatically speed up the development of new products and processes. But in addition, the Challenge is on track to invest in over a hundred innovation projects on the way to meeting its wider objectives, many of which will benefit the glass sector. The following examples illustrate the breadth and ambition of the opportunities that are being explored with Challenge funding.
Glass Cullet conversion to Waterglass (GUITAR) Sodium silicate (waterglass) is used as a feedstock in the Glass, Cement, Steel and Chemicals processing sectors, where applications include detergents and ‘cementless’ binder systems for building products. A project led by Re-gen Waste is developing a process that mixes waste glass cullet with sodium hydroxide at a temperature of just 150C, producing sodium silicate at a much lower energy cost than with traditional methods. Re-gen Waste Ltd draws on several years of alkali activated binder expertise at Queen’s University Belfast (QUB), and leads a multi-partner team of collaborators: Ecocem GB leading the research on a one-part binder system, Quinn Building Products producing prototype Autoclaved Aerated Concrete (AAC) blocks, and T&J Recycling providing expertise in the pre-processing of glass cullet. Hybrid sintering for decarbonisation
and productivity in manufacturing Sintering of raw ceramic or glass powder is an energy intensive process, requiring peak temperatures of 1200-1800°C, over several hours. This collaboration between Lucideon and the University of Sheffield will explore how combining flash and cold sintering technologies could provide densification within seconds, offering a dramatic reduction in the energy and time requirements for this process.
Raman high temperature monitoring Technology originally designed for nuclear waste decommissioning is being developed by SME IS-Instruments for use in high temperature furnace or stack/ flue monitoring. The Raman-based instrument exploits the properties of hollow core micro-structured optical fibres (HC-MOFs) to provide unparalleled levels of specificity and accuracy in a single instrument. The cross-sector project partnership includes Glass Technology Services (GTS), Breedon Group (Cement) and Wienerberger, with academic support from Southampton’s Optoelectronics Research Centre and Sheffield Hallam’s Materials Engineering Research Institute.
Upcoming funding opportunities Glass companies with a registered UK presence could be eligible to receive research funding from one of several Transforming Foundation Industries Challenge grant funded competitions. These competitions can offer support of up to 70% of eligible project costs. The Small scale R&D programme opened in August and offers support for smaller R&D projects costing £25k-£250k. Continued>>
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