Gamma spectroscopy and gamma emission tomography are two non-destructive measurement techniques for assessing the performance of nuclear fuel which have been investigated in this thesis for existing and novel applications through theoretical studies and experimental demonstrations. For assessment of individual fuel rods using gamma spectroscopy, fuel assemblies are dismantled so that the fuel rods may be measured separately, which is time-consuming and may cause damage to the fuel. Gamma tomography is more seldom used, but its application on complete fuel assemblies would enable the assessment of individual fuel rods without the need to disassemble the fuel. Both techniques are based on recording gamma rays, emitted at characteristic energi...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
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...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
The fuel assemblies used at the Swedish nuclear power plants contain typically between 100 and 300 f...
The increasing demand for characterization of nuclear fuel, both from an operator and authority poin...
Nuclear energy is currently one of the world’s main sources of electricity. Closely connected to the...
Presently there is a clear trend of increasing demands on in-pile performance of nuclear fuel. Highe...
In the future, the demand for energy is predicted to grow and more countries plan to utilize nuclear...
The Halden reactor project (HRP) has recently developed a gamma emission tomography instrument dedic...
The international Phébus FP programme, initiated in 1988 by the French "Institut de Radioprotection ...
A tomographic method for experimental investigation of the integrity of usedLWR fuel has been develo...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...
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...
Gamma emission tomography measurements have been performed at the Halden Reactor Project using a ded...
In cases of fuel failure in irradiated nuclear fuel assemblies, causing leakage of fission gasses fr...
The fuel assemblies used at the Swedish nuclear power plants contain typically between 100 and 300 f...
The increasing demand for characterization of nuclear fuel, both from an operator and authority poin...
Nuclear energy is currently one of the world’s main sources of electricity. Closely connected to the...
Presently there is a clear trend of increasing demands on in-pile performance of nuclear fuel. Highe...
In the future, the demand for energy is predicted to grow and more countries plan to utilize nuclear...
The Halden reactor project (HRP) has recently developed a gamma emission tomography instrument dedic...
The international Phébus FP programme, initiated in 1988 by the French "Institut de Radioprotection ...
A tomographic method for experimental investigation of the integrity of usedLWR fuel has been develo...
Abstract: Nuclear fuel assemblies that have been irradiated in nuclear power plants are highly radio...
The potential for gamma emission tomography (GET) to detect partial defects within a spent nuclear f...
A fuel assembly operated in a nuclear power plant typically contains 100–300 fuel rods, depending on...