Simulation-based methodology to assess the lattice defects creation as energy storing process

R Ponciroli and P Shriwise and ZG Mei and N Stauff and A Petersen and P Romano, ANNALS OF NUCLEAR ENERGY, 165, 108691 (2022).

DOI: 10.1016/j.anucene.2021.108691

In nuclear industry, damages caused to in-core structural materials by high-energy neutrons have been studied for years. Recently, the possibility of storing energy through the creation of defects in crystalline materials via heavy particle bombardment was investigated. To evaluate the potential of the Wigner effect as energy-storing process, a graphite-moderated Molten Salt Reactor was adopted as a test case. Neutronics simulations performed with OpenMC Monte Carlo code allowed estimating the amount of energy released during fission events, the fraction that is deposited in graphite, and the fraction that has the potential to cause radiation damages. Molecular dynamics simulations were then performed to study the evolution of cascades triggered by high-energy neutrons. As a major outcome, a more accurate estimate of the radiation damage with respect to the traditional approaches was obtained, and the fraction of the deposited neutron energy that can be stored through long-lived defects was quantified. (c) 2021 Elsevier Ltd. All rights reserved.

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