Decommissioning, Immobilisation and Storage soluTIons for NuClear wasTe InVEntories (DISTINCTIVE)

Completed

Nuclear Fission and Fusion(Nuclear Fission, Nuclear supporting technologies)

Basic and strategic applied research

PHYSICAL SCIENCES AND MATHEMATICS (Chemistry)
PHYSICAL SCIENCES AND MATHEMATICS (Physics)
PHYSICAL SCIENCES AND MATHEMATICS (Metallurgy and Materials)
ENGINEERING AND TECHNOLOGY (Civil Engineering)
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering)

Not Cross-cutting
Sociological economical and environmental impact of energy (Environmental dimensions)
Sociological economical and environmental impact of energy (Policy and regulation)

Professor SR Biggs
Inst of Particle Science & Engineering
University of Leeds

Professor M Fairweather
Inst of Particle Science & Engineering
University of Leeds

Standard

EPSRC

10 February 2014

09 February 2019

60 months

£4,905,730

Energy

Yorkshire & Humberside; Yorkshire & Humberside

Energy : Energy

Professor SR Biggs, Inst of Particle Science & Engineering, University of Leeds
Professor M Fairweather, Inst of Particle Science & Engineering, University of Leeds

Professor C Boxall, Engineering, Lancaster University
Dr C Corkhill, Engineering Materials, University of Sheffield
Dr G El Mountassir, Civil Engineering, University of Strathclyde
Dr NDM Evans, Chemistry, Loughborough University
Dr A Hamilton, Civil Engineering, University of Strathclyde
Professor BC Hanson, Inst of Particle Science & Engineering, University of Leeds
Dr J Hriljac, School of Chemistry, University of Birmingham
Dr NC Hyatt, Engineering Materials, University of Sheffield
Dr N Kaltsoyannis, Chemistry, University College London
Professor B Lee, Materials, Imperial College London
Dr RA Lord, Civil Engineering, University of Strathclyde
Prof RJ Lunn, Civil Engineering, University of Strathclyde
Professor SM Pimblott, Chemistry, University of Manchester
Professor D Read, Chemistry, Loughborough University
Dr M S D Read, School of Chemistry, University of Birmingham
Dr JC Renshaw, Sch of Geography, Earth & Env Sciences, University of Birmingham
Dr TB Scott, Interface Analysis Centre, University of Bristol
Professor A Tarantino, Civil Engineering, University of Strathclyde
Dr s yang, Civil Engineering, University of Strathclyde

Project Contact, Nuclear Decommissioning Authority (NDA)
Project Contact, National Nuclear Laboratory
Project Contact, Sellafield Ltd

The UK Government, through its most recent Energy White Paper, remains committed to Nuclear Power as an important part of the energy generation capacity over the next 30 - 50 years, and possibly beyond. The recently published 'Nuclear Industrial Strategy' (2013) describes clearly the Governments aspirations for both 'New Build' power stations and the life extension of the existing fleet within this timeline. A central component of public acceptance for this new build programme remains the need to demonstrate our ability to safely manage and dispose of high- and intermediate-level wastes from the legacy nuclear operations. This clearly links to on-going studies of public attitudes to nuclear power which repeatedly show that acceptance of this technology is directly linked to having viable routes for the safe clean-up and disposal of any wastes arising.Within the 'Nuclear Industrial Strategy' clear milestones associated with the needs of "waste management & decommissioning" are provided and most of these rely upon further research and technical developments being delivered over the next 10 - 20 years. Indeed, central objectives for the strategy are "To have a joined up approach to nuclear R&D across government, industry and academia which serves to benefit the UK economy and ensures the security of supply" and "To establish the UK industry as a global leader in waste management and decommissioning ...". It is clear, therefore, that there is a substantial, current and real need for further research in the broad area of nuclear wastes supporting this strategy.This consortium addresses the broad area of nuclear waste and decommissioning bringing together key industry partners and leading academic researchers from 11 of the UKs leading research intensive universities. The research proposed is multi-disciplinary in its scope and covers both fundamental and applied topics associated with this important industry. The consortium includes 30 separate research projects clustered into 4 major themes, viz.: Spent Fuels, Plutonium Oxide & fuel residues, Legacy ponds & silo wastes, and Structural Integrity. All members of the consortium are leading researchers in this field. They come from a diverse array of backgrounds and experience, but all with a track-record of innovation and problem solving of relevance in the nuclear field. This consortium builds upon and consolidates the work of a previous EPSRC funded programme in the same field, known as Diamond (Decommissioning, immobilisation and management of nuclear wastes for disposal, EP/F055412/1). Importantly, this new proposal draws in researchers from a larger group of universities and increases the multi-disciplinary nature of the group. All participating research groups have a strong track-record of supporting the nuclear industry through basic and applied research as well as consultancy activities. As with our earlier consortium, a key aim here is to furtherextend and develop a relevant academic skill base in the UK associated with the needs of the nuclear waste management industry. importantly, we will do this by supporting cutting-edge research that has the potential to provide new and innovative pathways to better (that is safer and cheaper) management of both legacy and future nuclear wastes

12/03/14