Add to ORKGInternational audienceThe long-term behaviour of vitrified high-level waste in an underground clay repository was assessed by using the reactive transport model HYTEC with respect to silica diffusion, sorption and precipitation processes. Special attention was given to the chemical interactions between glass, corroded steel and the host-rock considering realistic time scale and repository design.
International audienceHigh-level nuclear waste (HLW) is confined in a glass matrix packaged into sta...
AbstractAn understanding of the aqueous durability of glass is essential for determining the dissolu...
Borosilicate glass is to be used for permanent disposal of high-level nuclear waste in a geologic re...
International audienceThe long-term behaviour of vitrified high-level waste in an underground clay r...
International audienceLong term integrated in situ experiments are performed in the HADES undergroun...
Abstract Deep geological storage is the accepted solution for the final disposal of high-level radio...
International audienceThe long term behaviour of materials such as glass, steel and clay has been in...
Funder: Engineering and Physical Sciences Research Council; doi: http://dx.doi.org/10.13039/50110000...
International audienceLong-term storage of high-level nuclear waste glass in France is expected to o...
Nations using borosilicate glass as an immobilization material for radioactive waste have reinforced...
International audienceThe Belgium, Dutch and French concepts for the disposal of vitrified high-leve...
The reliable simulation of radionuclide migration away from the near field of a geological repositor...
Within the United Kingdom (UK), it is proposed that nuclear waste will be disposed of in a geologica...
Vitrification is used for the immobilization and conditioning of high-level waste (HLW) arising from...
An immediate EM science need is a reliable kinetic model that predicts long-term waste glass perform...
International audienceHigh-level nuclear waste (HLW) is confined in a glass matrix packaged into sta...
AbstractAn understanding of the aqueous durability of glass is essential for determining the dissolu...
Borosilicate glass is to be used for permanent disposal of high-level nuclear waste in a geologic re...
International audienceThe long-term behaviour of vitrified high-level waste in an underground clay r...
International audienceLong term integrated in situ experiments are performed in the HADES undergroun...
Abstract Deep geological storage is the accepted solution for the final disposal of high-level radio...
International audienceThe long term behaviour of materials such as glass, steel and clay has been in...
Funder: Engineering and Physical Sciences Research Council; doi: http://dx.doi.org/10.13039/50110000...
International audienceLong-term storage of high-level nuclear waste glass in France is expected to o...
Nations using borosilicate glass as an immobilization material for radioactive waste have reinforced...
International audienceThe Belgium, Dutch and French concepts for the disposal of vitrified high-leve...
The reliable simulation of radionuclide migration away from the near field of a geological repositor...
Within the United Kingdom (UK), it is proposed that nuclear waste will be disposed of in a geologica...
Vitrification is used for the immobilization and conditioning of high-level waste (HLW) arising from...
An immediate EM science need is a reliable kinetic model that predicts long-term waste glass perform...
International audienceHigh-level nuclear waste (HLW) is confined in a glass matrix packaged into sta...
AbstractAn understanding of the aqueous durability of glass is essential for determining the dissolu...
Borosilicate glass is to be used for permanent disposal of high-level nuclear waste in a geologic re...