Nuclear Fuels

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Paola Lettieri - One of the best experts on this subject based on the ideXlab platform.

  • reprocessing vs direct disposal of used Nuclear Fuels the environmental impacts of future scenarios for the uk
    Sustainable Materials and Technologies, 2021
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract The UK recently switched from a “nominal” twice-through cycle - whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not routinely reintroduced in the fuel cycle – to a once-through cycle, where used Nuclear Fuels are stored pending disposal. However, it is also the current strategy to keep other options open, including a twice-through cycle based on a different chemical separation process from the conventional PUREX. This article presents a comprehensive Life Cycle Assessment study of future scenarios for the back-end of the UK Nuclear fuel cycle that aims at informing policy- and decision-makers. The study considers the direct disposal approach and four reprocessing scenarios envisaging different strategies for disposal and/or reuse of reprocessed uranium and plutonium, and adopts a consequential approach including only short-term effects. These primarily represent reductions in demand for uranium mining due to recycling of uranium and plutonium, and are modelled upon identification of a marginal technology. Several marginal technologies are explored because of the uncertainty regarding the actual response of the market. Results of the study show that recycling of uranium, but especially of plutonium is of paramount importance because of the avoided burdens associated with production of Nuclear fuel from mined uranium. The reprocessing scenarios envisaging reprocessing of used Nuclear Fuels and recycling of both plutonium and uranium represent the most favourable options. The direct disposal approach may be advantageous only in terms of radiological impacts depending on the marginal technology chosen.

  • the environmental impacts of reprocessing used Nuclear Fuels a uk case study
    Sustainable Materials and Technologies, 2020
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Andrew Milliken, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract Historically the UK implemented a “nominal” twice-through cycle whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not recycled: they were stored pending a future decision by the UK Government. However, the policy for managing higher activity wastes is clear: it envisages their disposal in a Geological Disposal Facility. Consultations for siting a repository - which were suspended in 2013 - have recently restarted, but the repository will not be available for several decades at the earliest. This article presents a comprehensive LCA study on the historical UK approach for managing used Nuclear Fuels and the UK Government policy for disposal of higher activity wastes. The underpinning purpose is to inform policy and decision-makers concerned with decisions on the future of the UK Nuclear fuel cycle. The study relies on a combination of operational data from the Sellafield site – the industrial complex home to the UK reprocessing plants - and literature data on the GDF, and on a number of assumptions regarding the GDF design and disposal of higher activity wastes. The results reveal that a great proportion of the environmental impacts can be linked to two specific causes: indirect burdens from production of uranyl nitrate, which is used to separate plutonium from uranium, and copper, proposed in one scenario to be used as the outer layer of the disposal canister for High Level Waste. The results also demonstrate that the carbon intensity of the management of used Nuclear Fuels is practically negligible when compared with results from other LCA studies that cover the entire fuel cycle.

Andrea Paulillo - One of the best experts on this subject based on the ideXlab platform.

  • reprocessing vs direct disposal of used Nuclear Fuels the environmental impacts of future scenarios for the uk
    Sustainable Materials and Technologies, 2021
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract The UK recently switched from a “nominal” twice-through cycle - whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not routinely reintroduced in the fuel cycle – to a once-through cycle, where used Nuclear Fuels are stored pending disposal. However, it is also the current strategy to keep other options open, including a twice-through cycle based on a different chemical separation process from the conventional PUREX. This article presents a comprehensive Life Cycle Assessment study of future scenarios for the back-end of the UK Nuclear fuel cycle that aims at informing policy- and decision-makers. The study considers the direct disposal approach and four reprocessing scenarios envisaging different strategies for disposal and/or reuse of reprocessed uranium and plutonium, and adopts a consequential approach including only short-term effects. These primarily represent reductions in demand for uranium mining due to recycling of uranium and plutonium, and are modelled upon identification of a marginal technology. Several marginal technologies are explored because of the uncertainty regarding the actual response of the market. Results of the study show that recycling of uranium, but especially of plutonium is of paramount importance because of the avoided burdens associated with production of Nuclear fuel from mined uranium. The reprocessing scenarios envisaging reprocessing of used Nuclear Fuels and recycling of both plutonium and uranium represent the most favourable options. The direct disposal approach may be advantageous only in terms of radiological impacts depending on the marginal technology chosen.

  • the environmental impacts of reprocessing used Nuclear Fuels a uk case study
    Sustainable Materials and Technologies, 2020
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Andrew Milliken, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract Historically the UK implemented a “nominal” twice-through cycle whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not recycled: they were stored pending a future decision by the UK Government. However, the policy for managing higher activity wastes is clear: it envisages their disposal in a Geological Disposal Facility. Consultations for siting a repository - which were suspended in 2013 - have recently restarted, but the repository will not be available for several decades at the earliest. This article presents a comprehensive LCA study on the historical UK approach for managing used Nuclear Fuels and the UK Government policy for disposal of higher activity wastes. The underpinning purpose is to inform policy and decision-makers concerned with decisions on the future of the UK Nuclear fuel cycle. The study relies on a combination of operational data from the Sellafield site – the industrial complex home to the UK reprocessing plants - and literature data on the GDF, and on a number of assumptions regarding the GDF design and disposal of higher activity wastes. The results reveal that a great proportion of the environmental impacts can be linked to two specific causes: indirect burdens from production of uranyl nitrate, which is used to separate plutonium from uranium, and copper, proposed in one scenario to be used as the outer layer of the disposal canister for High Level Waste. The results also demonstrate that the carbon intensity of the management of used Nuclear Fuels is practically negligible when compared with results from other LCA studies that cover the entire fuel cycle.

Donald J Hanson - One of the best experts on this subject based on the ideXlab platform.

Jonathan M Dodds - One of the best experts on this subject based on the ideXlab platform.

  • reprocessing vs direct disposal of used Nuclear Fuels the environmental impacts of future scenarios for the uk
    Sustainable Materials and Technologies, 2021
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract The UK recently switched from a “nominal” twice-through cycle - whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not routinely reintroduced in the fuel cycle – to a once-through cycle, where used Nuclear Fuels are stored pending disposal. However, it is also the current strategy to keep other options open, including a twice-through cycle based on a different chemical separation process from the conventional PUREX. This article presents a comprehensive Life Cycle Assessment study of future scenarios for the back-end of the UK Nuclear fuel cycle that aims at informing policy- and decision-makers. The study considers the direct disposal approach and four reprocessing scenarios envisaging different strategies for disposal and/or reuse of reprocessed uranium and plutonium, and adopts a consequential approach including only short-term effects. These primarily represent reductions in demand for uranium mining due to recycling of uranium and plutonium, and are modelled upon identification of a marginal technology. Several marginal technologies are explored because of the uncertainty regarding the actual response of the market. Results of the study show that recycling of uranium, but especially of plutonium is of paramount importance because of the avoided burdens associated with production of Nuclear fuel from mined uranium. The reprocessing scenarios envisaging reprocessing of used Nuclear Fuels and recycling of both plutonium and uranium represent the most favourable options. The direct disposal approach may be advantageous only in terms of radiological impacts depending on the marginal technology chosen.

  • the environmental impacts of reprocessing used Nuclear Fuels a uk case study
    Sustainable Materials and Technologies, 2020
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Andrew Milliken, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract Historically the UK implemented a “nominal” twice-through cycle whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not recycled: they were stored pending a future decision by the UK Government. However, the policy for managing higher activity wastes is clear: it envisages their disposal in a Geological Disposal Facility. Consultations for siting a repository - which were suspended in 2013 - have recently restarted, but the repository will not be available for several decades at the earliest. This article presents a comprehensive LCA study on the historical UK approach for managing used Nuclear Fuels and the UK Government policy for disposal of higher activity wastes. The underpinning purpose is to inform policy and decision-makers concerned with decisions on the future of the UK Nuclear fuel cycle. The study relies on a combination of operational data from the Sellafield site – the industrial complex home to the UK reprocessing plants - and literature data on the GDF, and on a number of assumptions regarding the GDF design and disposal of higher activity wastes. The results reveal that a great proportion of the environmental impacts can be linked to two specific causes: indirect burdens from production of uranyl nitrate, which is used to separate plutonium from uranium, and copper, proposed in one scenario to be used as the outer layer of the disposal canister for High Level Waste. The results also demonstrate that the carbon intensity of the management of used Nuclear Fuels is practically negligible when compared with results from other LCA studies that cover the entire fuel cycle.

Stephen Palethorpe - One of the best experts on this subject based on the ideXlab platform.

  • reprocessing vs direct disposal of used Nuclear Fuels the environmental impacts of future scenarios for the uk
    Sustainable Materials and Technologies, 2021
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract The UK recently switched from a “nominal” twice-through cycle - whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not routinely reintroduced in the fuel cycle – to a once-through cycle, where used Nuclear Fuels are stored pending disposal. However, it is also the current strategy to keep other options open, including a twice-through cycle based on a different chemical separation process from the conventional PUREX. This article presents a comprehensive Life Cycle Assessment study of future scenarios for the back-end of the UK Nuclear fuel cycle that aims at informing policy- and decision-makers. The study considers the direct disposal approach and four reprocessing scenarios envisaging different strategies for disposal and/or reuse of reprocessed uranium and plutonium, and adopts a consequential approach including only short-term effects. These primarily represent reductions in demand for uranium mining due to recycling of uranium and plutonium, and are modelled upon identification of a marginal technology. Several marginal technologies are explored because of the uncertainty regarding the actual response of the market. Results of the study show that recycling of uranium, but especially of plutonium is of paramount importance because of the avoided burdens associated with production of Nuclear fuel from mined uranium. The reprocessing scenarios envisaging reprocessing of used Nuclear Fuels and recycling of both plutonium and uranium represent the most favourable options. The direct disposal approach may be advantageous only in terms of radiological impacts depending on the marginal technology chosen.

  • the environmental impacts of reprocessing used Nuclear Fuels a uk case study
    Sustainable Materials and Technologies, 2020
    Co-Authors: Andrea Paulillo, Jonathan M Dodds, Andrew Milliken, Stephen Palethorpe, Paola Lettieri
    Abstract:

    Abstract Historically the UK implemented a “nominal” twice-through cycle whereby used Nuclear Fuels were reprocessed, but uranium and plutonium were not recycled: they were stored pending a future decision by the UK Government. However, the policy for managing higher activity wastes is clear: it envisages their disposal in a Geological Disposal Facility. Consultations for siting a repository - which were suspended in 2013 - have recently restarted, but the repository will not be available for several decades at the earliest. This article presents a comprehensive LCA study on the historical UK approach for managing used Nuclear Fuels and the UK Government policy for disposal of higher activity wastes. The underpinning purpose is to inform policy and decision-makers concerned with decisions on the future of the UK Nuclear fuel cycle. The study relies on a combination of operational data from the Sellafield site – the industrial complex home to the UK reprocessing plants - and literature data on the GDF, and on a number of assumptions regarding the GDF design and disposal of higher activity wastes. The results reveal that a great proportion of the environmental impacts can be linked to two specific causes: indirect burdens from production of uranyl nitrate, which is used to separate plutonium from uranium, and copper, proposed in one scenario to be used as the outer layer of the disposal canister for High Level Waste. The results also demonstrate that the carbon intensity of the management of used Nuclear Fuels is practically negligible when compared with results from other LCA studies that cover the entire fuel cycle.

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