Zs. Elter scite author profile

Zs. Elter

5Publications

15Citation Statements Received

16Citation Statements Given

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Affiliations

Uppsala University, Konkoly Observatory, Centre for Energy Research

Publications

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Development of a Modeling Approach to Estimate Radiation From a Spent Fuel Rod Quiver

et al. 2021

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Before encapsulation of spent nuclear fuel in a geological repository, the fuels need to be verified for safeguards purposes. This requirement applies to all spent fuel assemblies, including those with properties or designs that are especially challenging to verify. One such example are quivers, a new type of containers used to hold damaged spent fuel rods. After placing damaged rods inside the quivers, they are sealed with a thick lid and the water is removed. The lid is thick enough to significantly reduce the amount of the gamma radiation penetrating through it, which can make safeguards verification from the top using gamma techniques difficult. Considering that the number of quivers at storage facilities is foreseen to increase in near future, studying the feasibility of verification is timely. In this paper we make a feasibility study related to safeguards verification of quivers, aimed at investigating the gamma and neutron radiation field around a quiver designed by Westinghouse AB and filled with PWR fuel rods irradiated at the Swedish Ringhals site. A simplified geometry of the quiver and the detailed operational history of each rod are provided by Westinghouse and the reactor operator, respectively. The nuclide inventory of the rods placed in the quiver and the emission source terms are calculated with ORIGEN-ARP. The radiation transport is modeled with the Serpent2 Monte Carlo code. The first objective is to assess the capability of the spent fuel attribute tester (SFAT) to verify the content for nuclear safeguards purposes. The results show that the thick quiver lid attenuates the gamma radiation, thereby making gamma radiation based verification from above the quiver difficult.

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Progress in the development of the neutron flux monitoring system of the French GEN-IV SFR: Simulations and experimental validations

Jammes

Filliatre

Elter

et al. 2015

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The neutron flux monitoring system of the French GEN-IV sodium-cooled fast reactor will rely on hightemperature fission chambers installed in the reactor vessel and capable of operating over a wide-range neutron flux. The definition of such a system is presented and the technological solutions are justified with the use of simulation and experimental results. I. INTRODUCTION RANCE has a long experience of about 50 years in designing, building and operating sodium-cooled fast reactors (SFR) such as RAPSODIE, PHENIX and SUPER PHENIX. Fast reactors feature the double capability of both reducing nuclear waste and saving nuclear energy resources by burning actinides. Since this reactor type is one of those selected by the Generation IV International Forum, the French government asked, in the year 2006, CEA, namely the French Alternative Energies and Atomic Energy Commission, to lead the development of an innovative GEN-IV nuclear-fission power demonstrator. The major objective is to improve the safety and availability of an SFR. In this paper, we show that the architecture of the neutron flux monitoring (NFM) system will rely on in-vessel hightemperature fission chambers (HTFC) featuring wide-range

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Determination of spent nuclear fuel parameters using modelled signatures from non-destructive assay and Random Forest regression

Grape

Branger

Elter

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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Identification and categorisation of safety issues for ESNII reactor concepts. Part I: Common phenomena related to materials

Kamil

Hermsmeyer

Luca

et al. 2016

Annals of Nuclear Energy

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Statistical analysis of fuel cycle data from Swedish Pressurized Water Reactors and the impact of simplifying assumptions on simulated nuclide inventories

Mishra

Elter

Branger

et al. 2023

Progress in Nuclear Energy

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Zs. Elter

Development of a Modeling Approach to Estimate Radiation From a Spent Fuel Rod Quiver

Progress in the development of the neutron flux monitoring system of the French GEN-IV SFR: Simulations and experimental validations

Determination of spent nuclear fuel parameters using modelled signatures from non-destructive assay and Random Forest regression

Identification and categorisation of safety issues for ESNII reactor concepts. Part I: Common phenomena related to materials

Statistical analysis of fuel cycle data from Swedish Pressurized Water Reactors and the impact of simplifying assumptions on simulated nuclide inventories

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