Localization of nuclear materials in large concrete radioactive waste packages using photofission delayed gamma rays

Abstract: The characterization of radioactive waste packages is mandatory for their transport, interim storage and final disposal. In this framework, the Nuclear Measurement Laboratory of CEA DES IRESNE Institute, at Cadarache, France, uses a high-energy electron linear accelerator (LINAC) to produce an interrogating bremsstrahlung beam with endpoint energies ranging from 9 to 21 MeV to perform X-ray imaging and high-energy photon interrogation on large concrete packages. In particular, highenergy photon beam induces ph… Show more

“…Further work will be dedicated to the selection of the most efficient photofission product couples in presence of a waste matrix, causing gamma attenuation effects that depend on actinide localization. To this aim, a new experimental campaign will be carried out to test the differentiation of actinide isotopes inside a concrete matrix, as reported in [18] for actinide localization. One of the main objectives of this long-term R&D program is to assess nuclear materials in heterogeneous technological waste blocked in 870 L cemented drums.…”

“…Besides, the uranium isotopes differentiation in an 870 L waste drum by using delayed gamma-ray ratios has already been investigated experimentally with a mockup package [1] and by using Monte-Carlo simulations in the work of Simon et al [5]. Furthermore, photofission products emitting several gamma rays can be used as attenuation indicators to estimate the depth at which nuclear materials are localized inside the package [18].…”

“…It is important to mention that we are not limited to ratios of close-in-energy gamma rays. This implies that detection efficiency at both energies has to be estimated and requires a prior localization of actinides, for example with the method described in [18];…”

New measurements of cumulative photofission yields of 239Pu, 235U and 238U with a 17.5 MeV Bremsstrahlung photon beam and progress toward actinide differentiation

“…Further work will be dedicated to the selection of the most efficient photofission product couples in presence of a waste matrix, causing gamma attenuation effects that depend on actinide localization. To this aim, a new experimental campaign will be carried out to test the differentiation of actinide isotopes inside a concrete matrix, as reported in [18] for actinide localization. One of the main objectives of this long-term R&D program is to assess nuclear materials in heterogeneous technological waste blocked in 870 L cemented drums.…”

“…Besides, the uranium isotopes differentiation in an 870 L waste drum by using delayed gamma-ray ratios has already been investigated experimentally with a mockup package [1] and by using Monte-Carlo simulations in the work of Simon et al [5]. Furthermore, photofission products emitting several gamma rays can be used as attenuation indicators to estimate the depth at which nuclear materials are localized inside the package [18].…”

“…It is important to mention that we are not limited to ratios of close-in-energy gamma rays. This implies that detection efficiency at both energies has to be estimated and requires a prior localization of actinides, for example with the method described in [18];…”

New measurements of cumulative photofission yields of 239Pu, 235U and 238U with a 17.5 MeV Bremsstrahlung photon beam and progress toward actinide differentiation

Study on the Plasma Parameters of RF Negative Ion Source for Associated Particle Neutron Generator

A Bayesian approach for measuring nuclear material in radioactive waste using photofission