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The research of Prof Jim Frederickson and the Integrated Waste Systems Research group at The Open University (OU) has impacted industrial partners and government agencies in developing a sustainable approach to waste processes and treated products. In particular they have developed the biodegradability tests (DR4 and BM100/BMc) used extensively for the evaluation of Mechanical and Biological Treatment (MBT) waste plants, and also the Residual Biogas Potential (RBP) test for determining the stability of anaerobic digestates, which forms part of the BSI PAS110: 2010 specification. This work is a significant contribution to the development of sustainable waste management practices in the UK.
Wastes management represents a major global environmental challenge. In the early 2000s Defra recognised that the UK's emphasis needed to change from managing waste to preventing it arising, and that Local Authorities must be equipped to produce cost-effective waste reduction plans. To this end, WRAP (Waste and Resources Action Programme) financed a major Local Authority training programme involving the Centre for Sustainable Wastes Management (CSWM) due to its track record of research expertise. Evaluation of this training demonstrated that over 90% of 204 delegates (from 33% of Local Authorities) developed a deeper understanding of waste prevention and 41% consequently upgraded their plans, embedding sustainable practice into their organisations and reducing arisings. The ultimate impact of this has been to save Local Authorities money and reduce the amount of waste going to landfill.
The impact of the research by the Caledonian Environment Centre can be demonstrated by the shift in Scotland's recycling rates from 4% in 1998 when the Centre was established, to 40% in 2011. The Centre's research methods were embedded in assessment tools which led to Scottish Councils being provided with £64m of additional annual funding. The Remade Scotland programme, hosted and developed by the Centre, between 2000 and 2010, delivered change as the first recyclate UK market development programme, and was further developed across the UK: two years later leading to the establishment of Waste Resources Action Programme (WRAP).
Accelerated Carbonation Technology (ACT) is an innovative solution to several key environmental issues - CO2 emissions to the atmosphere, sustainable use of resources and the reliance on use of virgin stone for construction. ACT rapidly stabilises industrial waste recycling it into valuable aggregate, thereby reducing the amount going to landfill. ACT simultaneously captures the greenhouse gas CO2, via the rapid production of carbonate, which solidifies the waste into a hardened product. ACT has been commercialised through two spin-out companies leading to the first commercial production of carbon negative concrete blocks, taking hazardous waste from the bottom to the top of the waste hierarchy.
The demand for biofuels and alternative energies is increasing globally as a sustainable source of energy is sought for the future. Energy from crops is no longer a viable option due to the increase in wheat prices. Scientists at the BEST Research Institute have managed to bridge the gap by using novel and unique microwave systems for converting waste (biomass, food, animal) into energy. Our advances in this area have generated considerable interest from both national (e.g., United Utilities PLC, Balfour Beatty PLC, Biofuels Wales Ltd, Stopford Projects Ltd, Longma Clean Energy Ltd) and international (e.g., RIKEN-Japan, Fraunhofer-Germany, Sairem-France, Acondaqua-Spain, Ashleigh Farms-Ireland) companies. This has resulted in several collaborative, funded projects leading to industrial adoption of our microwave technologies.
Carbon8 Systems (C8S) was founded on joint research between UCL and the University of Greenwich. The company has since developed a technology known as Accelerated Carbonation, which helps to reduce carbon dioxide (CO2) emissions by using carbon dioxide gas to treat waste materials and form artificial aggregate. In January 2013, C8S completed the first commercial plant for treating municipal solid waste incinerator (MSWI) fly ashes, designed to produce 1,000 tonnes per day of aggregate. Masonry products company Lignacite has also benefited commercially. It has used C8S's aggregate to develop an award-winning building block that captures more carbon dioxide than is emitted during its manufacture. Carbon8 Systems and its offshoot company Carbon8 Aggregates currently employ 11 people.
By identifying opportunities for waste reduction and recommending changes in forecasting, inventory management and packing, Cranfield research has shaped policy and practice in the reduction of food waste.
Working with the UK's major food retailers and UK government, Cranfield has investigated the causes of food waste to help organisations and influence the development of the Courtauld Commitment, a voluntary agreement to reduce product and packaging waste in the food supply chain. Reductions in product and packaging waste exceeded 8% between 2010 and 2012, building on earlier reductions, exceeding 500,000 tonnes in the period 2005-2009. Annual savings on product waste for UK food companies are estimated at £400 to 500 million for fresh fruit and vegetables and £110 million for fresh meat.
Research at Loughborough University during the REF period (and extending back at least three decades beyond that) has had a significant impact on national and international policy decisions governing the management of radioactive waste, one of the Grand Challenges facing society. The Unit's research ranges from deep geological disposal to abatement of marine discharges and remediation strategies for industrial radioactive waste, the latter safeguarding the competitiveness of the oil & gas and mineral processing sectors. This input has been crucial for revising the new Environmental Permitting Regulations and International Basic Safety Standards. Many of the Unit's doctoral graduates occupy important decision-making roles at key organisations such as the Nuclear Decommissioning Authority (NDA), Sellafield, Environment Agency, CEA (France) and the International Atomic Energy Agency (IAEA).
Through strategic national roles Grimes and Lee have had a major impact on the expansion of the UKs nuclear R&D programme since 2000 and on directing Government policy in the nuclear sector. Their research led directly to appointments to influential positions including (Grimes) as Specialist Advisor Nuclear to the House of Lords Science and Technology Committee (HoLSTC) for their report on Nuclear R&D Capabilities and (Lee) as Deputy Chair of the Government Advisory Committee on Radioactive Waste Management (CoRWM), which has a major scrutiny and advice role to Government's £multi-billion Managing Radioactive Waste Safely (MRWS) programme reporting directly to the Energy Minister. Due to his unique insight in nuclear engineering Grimes is now Chief Scientific Adviser to the Foreign and Commonwealth Office.
Research into a new waste treatment process model at Loughborough University (1993 to date) has resulted in the following benefits for Unilever: