organization

NNL

National Nuclear Laboratory
Filter by Funder:
128 projects, page 1 of 26
  • project . 2009 - 2014
    Funder: UKRI Project Code: EP/G004846/1
    Funder Contribution: 1,154,490 GBP
    Partners: University of Salford, NNL

    Energy use, especially in the form of electricity is an essential requirement for modern life, and one that most of us could not even contemplate living without. From transport and travel to computers and televisions, the global demand for energy is on the increase. The...

  • project . 2007 - 2010
    Funder: UKRI Project Code: NE/D014026/1
    Funder Contribution: 338,789 GBP
    Partners: University of Leeds, NNL

    Green rust is an iron oxyhydroxide mineral phase which forms in natural soils under reducing conditions. In addition, this mineral is an important product of iron metal corrosion in permeable zero-valent iron barriers, which are a novel remediation technology being used...

  • project . 2022 - 2025
    Funder: UKRI Project Code: EP/T016329/1
    Funder Contribution: 854,922 GBP
    Partners: NNL, BU

    A re-assessment of the impact of uncertainties within the nuclear industry is of paramount importance, not only ensuring the continued safety of nuclear energy systems, but also to ensure the economic viability of nuclear power, allowing for continued reductions in CO2 ...

  • project . 2018 - 2021
    Funder: UKRI Project Code: EP/R033366/1
    Funder Contribution: 302,361 GBP
    Partners: University of Salford, NNL

    The safe decommissioning of facilities used in the nuclear fuel cycle (nuclear fuel reprocessing, research and development and energy production) is a major socio-economic challenge facing the UK, with a predicted total cost of £120bn over the next 120 years. The ...

  • project . 2017 - 2019
    Funder: UKRI Project Code: EP/R001499/1
    Funder Contribution: 196,048 GBP
    Partners: University of Salford, NNL

    One of the most pressing problems facing society today is the management of existing and future waste forms arising from nuclear energy production. Here, the redox chemistry of the actinide elements plays a crucial role in many aspects of nuclear fission including safe ...

128 projects, page 1 of 26
Any information missing or wrong?Report an Issue