Partner: I. Harsányi |
Ostatnie publikacje
1. | Harsányi I.♦, Horváth A.♦, Kis Z.♦, Gméling K.♦, Jóźwiak-Niedźwiedzka D., Glinicki M.A., Szentmiklósi L.♦, Assessment of neutron-induced activation of irradiated samples in a research reactor, Nuclear Engineering and Technology, ISSN: 1738-5733, DOI: 10.1016/j.net.2022.11.004, Vol.55, pp.1036-1044, 2023 Streszczenie: The combination of MCNP6 and the FISPACT codes was used to predict inventories of radioisotopes produced by neutron exposure of a sample in a research reactor. The detailed MCNP6 model of the Budapest Research Reactor and the specific irradiation geometry of the NAA channel was established, while realistic material cards were specified based on concentrations measured by PGAA and NAA, considering the precursor elements of all significant radioisotopes. The energy- and spatial distributions of the neutron field calculated by MCNP6 were transferred to FISPACT, and the resulting activities were validated against those measured using neutron-irradiated small and bulky targets. This approach is general enough to handle different target materials, shapes, and irradiation conditions. A general agreement within 10% has been achieved. Moreover, the method can also be made applicable to predict the activation properties of the near-vessel concrete of existing nuclear installations or assist in the optimal construction of new nuclear power plant units. Słowa kluczowe: MCNP6,Monte Carlo simulations,FISPACT,Isotope inventory,Radioisotope production,Neutron activation analysis,Mineral aggregate,Radiation shielding concrete Afiliacje autorów:
| 100p. |
Prace konferencyjne
1. | Jóźwiak-Niedźwiedzka D., Gméling K.♦, Harsányi I.♦, Dziedzic K., Glinicki M.A., Assessment of long-lived residual radioisotopes in cement induced by neutron radiation, MATBUD'2020, MATBUD'2020 Scientific-Technical Conference: E-mobility, Sustainable Materials and Technologies, 2020-10-19/10-21, Kraków (PL), DOI: 10.1051/matecconf/202032201019, Vol.322, pp.01019-1-7, 2020 Streszczenie: During the decommissioning of nuclear power plants, a significant amount of cement based composites should be disposed as radioactive waste. The use of material with low-activation constituents could effectively reduce radioactivity of concrete. The subject of the paper is the content of trace elements with large activation cross section in concrete constituents due to their ability to be activated in radiation shielding structures. Various Portland cement specimens were subjected to elemental analysis by neutron activation analysis and prompt gamma activation analysis to assess the dominant long-lived residual radioisotopes. Concentrations of the radionuclides, such as Europium-152, Cobalt-60 and Caesium-134 were assessed. Their half-life time is 13.5, 5.27, and 2.07 years, respectively. On the basis of the obtained results, recommendations for cement selection for low-activation concrete are proposed in order to economize decommissioning cost by reducing a radioactive concrete waste. Afiliacje autorów:
| 20p. |