An idea is presented in which passive gamma emission tomography of irradiated nuclear fuel is developed to enable quantitative information of the spatial activity distribution of selected isotopes within the fuel rods of the assembly. The idea is based on using well-known calibration sources mounted in the measurement device during measurement. The image reconstruction would include the sources, thereby enable quantification of the activity distribution. Should the idea be proven viable, the outcome would be valuable to the global community dealing with characterisation of nuclear fuel in terms of safety, security, safeguards and fuel development
Postirradiation examination of nuclear fuel is routinely performed to characterize the important pro...
Abstract: Tomographic reconstructions of the activity distribution within nuclear fuel assemblies ha...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...
An idea is presented in which passive gamma emission tomography of irradiated nuclear fuel is develo...
The fuel assemblies used at the Swedish nuclear power plants contain typically between 100 and 300 f...
Gamma spectroscopy and gamma emission tomography are two non-destructive measurement techniques for ...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
Abstract Reliable non-destructive methods for verifying spent nuclear fuel are essential to draw cre...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
Combined efforts of multiple stakeholders of the IAEA Support Programme task JNT 1510: “Prototype of...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
AbstractA fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depe...
Postirradiation examination of nuclear fuel is routinely performed to characterize the important pro...
Abstract: Tomographic reconstructions of the activity distribution within nuclear fuel assemblies ha...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...
An idea is presented in which passive gamma emission tomography of irradiated nuclear fuel is develo...
The fuel assemblies used at the Swedish nuclear power plants contain typically between 100 and 300 f...
Gamma spectroscopy and gamma emission tomography are two non-destructive measurement techniques for ...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
Abstract Reliable non-destructive methods for verifying spent nuclear fuel are essential to draw cre...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
Combined efforts of multiple stakeholders of the IAEA Support Programme task JNT 1510: “Prototype of...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
AbstractA fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depe...
Postirradiation examination of nuclear fuel is routinely performed to characterize the important pro...
Abstract: Tomographic reconstructions of the activity distribution within nuclear fuel assemblies ha...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...