Testing and qualification of advanced nuclear fuels involve an iterative process of prototyping, in-pile irradiation testing, and in/ex situ examination. Fuel restructuring and fission product migration during burnup are among the most important aspects of fuel evolution and affect several important performance characteristics (e.g., heat removal, accident tolerance, and fission product retention). Poolside nondestructive characterization techniques provide fuel developers with tools to understand fuel evolution at different time points of burnup. A design for a compact, submersible, and multi-modal (transmission and emission) gamma-ray tomography system for imaging irradiated nuclear fuel is presented herein. Detector selection, collimator...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...
Irradiation testing of nuclear fuel is routinely performed in nuclear test reactors. For qualificati...
AbstractA fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depe...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
New accident-tolerant nuclear fuel designs that incorporate advanced safety features and economy are...
Gamma spectroscopy and gamma emission tomography are two non-destructive measurement techniques for ...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
Postirradiation examination of nuclear fuel is routinely performed to characterize the important pro...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
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...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
This paper describes tomographic imaging capabilities for fissile object identification. The tomogra...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...
Irradiation testing of nuclear fuel is routinely performed in nuclear test reactors. For qualificati...
AbstractA fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depe...
Gamma emission tomography is a method based on gamma-ray spectroscopy and tomographic reconstruction...
New accident-tolerant nuclear fuel designs that incorporate advanced safety features and economy are...
Gamma spectroscopy and gamma emission tomography are two non-destructive measurement techniques for ...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
Postirradiation examination of nuclear fuel is routinely performed to characterize the important pro...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
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...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
This paper describes tomographic imaging capabilities for fissile object identification. The tomogra...
Nuclear power is currently experiencing increased interest over the world. New nuclear reactors are ...
Irradiation testing of nuclear fuel is routinely performed in nuclear test reactors. For qualificati...
AbstractA fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depe...