Monitoring of the concentration of actinides in process streams and waste materials can be effectively carried out by detecting and measuring their radioactive emissions. Such monitoring techniques lead to more efficient control of the process, and also aid in the minimisation of losses to the waste and better accounting of the nuclear materials. This paper provides an overview of some of the techniques such as on-line alpha monitoring, passive and active neutron assay and gamma counting, and also describes the monitoring systems which have been developed in our laboratory for use in a reprocessing plant
International audienceNuclear measurements are used at AREVA NC/La Hague for the monitoring of spent...
The minor actinide elements, particularly neptunium and americium, are produced as a normal byproduc...
Because of their impacts on long-term storage of high-level radioactive waste and their value as nuc...
This research program is directed toward rapid, sensitive, and selective determination of beta and a...
Research and development investigations have been performed for the control of the activity inventor...
The Salt Waste Processing Facility and the Actinide Removal Process at the Savannah River Site will ...
Because of their value as nuclear fuels and their impact on long-term storage of high-level radioact...
Safeguarding spent fuel reprocessing facilities and other bulk material handling facilities is a cha...
Plutonium is one of the principal materials of both commercial and military nuclear power. It is pro...
A gamma waste monitor has been developed and evaluated at the Savannah River Plant (SRP). The purpos...
The ultimate objective of this project is to develop technology to detect and accurately measure qua...
A decommissioning of nuclear fuel cycle facilities is inseparable from the problems of radioactive w...
Advanced nuclear fuel cycles are being developed in order to reduce the long-term radiotoxicity of h...
Radioisotopes are radioactive versions of the natural chemical elements, differing from these only i...
Many DOE applications would significantly benefit from the availability of robust and convenient ins...
International audienceNuclear measurements are used at AREVA NC/La Hague for the monitoring of spent...
The minor actinide elements, particularly neptunium and americium, are produced as a normal byproduc...
Because of their impacts on long-term storage of high-level radioactive waste and their value as nuc...
This research program is directed toward rapid, sensitive, and selective determination of beta and a...
Research and development investigations have been performed for the control of the activity inventor...
The Salt Waste Processing Facility and the Actinide Removal Process at the Savannah River Site will ...
Because of their value as nuclear fuels and their impact on long-term storage of high-level radioact...
Safeguarding spent fuel reprocessing facilities and other bulk material handling facilities is a cha...
Plutonium is one of the principal materials of both commercial and military nuclear power. It is pro...
A gamma waste monitor has been developed and evaluated at the Savannah River Plant (SRP). The purpos...
The ultimate objective of this project is to develop technology to detect and accurately measure qua...
A decommissioning of nuclear fuel cycle facilities is inseparable from the problems of radioactive w...
Advanced nuclear fuel cycles are being developed in order to reduce the long-term radiotoxicity of h...
Radioisotopes are radioactive versions of the natural chemical elements, differing from these only i...
Many DOE applications would significantly benefit from the availability of robust and convenient ins...
International audienceNuclear measurements are used at AREVA NC/La Hague for the monitoring of spent...
The minor actinide elements, particularly neptunium and americium, are produced as a normal byproduc...
Because of their impacts on long-term storage of high-level radioactive waste and their value as nuc...