首页|Experimentally validated multiphysics modeling of fracture induced by thermal shocks in sintered UO2 pellets
Experimentally validated multiphysics modeling of fracture induced by thermal shocks in sintered UO2 pellets
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NSTL
Elsevier
Uranium Dioxide (UO2) fuel powers almost all commercial Nuclear Power Plants (NPPs) worldwide, generating carbon-free energy and contributing to the fight against climate change. UO2 fuel incurs damage and fractures due to large thermal gradients that develop across the fuel pellet during normal and transient operating conditions. A comprehensive understanding of the underlying mechanisms by which these processes take place is still lacking. A combined experimental and computational approach is utilized here to quantify the behavior of UO2 fuel fracture induced by thermal shock. This work introduces both (1) an experimental study to understand the fuel fracturing behavior of sintered UO2 pellets when exposed to thermal shock, and (2) a Multiphysics phase-field fracture model capable of simulating this process. Parametric studies were conducted to evaluate the effects of uncertainties in fracture properties on the fracture behavior of UO2 due to thermal shocking. A set of energy release rate (or equivalently fracture toughness) and contract area (the part of the fuel pellet in direct contact with the cold bath) were able to capture the overall fracture trends of the corresponding experimental data. Our combined approach presents a new method for accounting for the effects of microstructure and sample size on the energy release rate/fracture toughness. The experimental data were collected from multiple experiments that exposed UO2 pellets to high-temperature conditions (589-676 degrees C) followed by a quench in sub-zero water. This work demonstrates that joint experimental and computational efforts are able to advance the understanding of thermal fracture in the primary fuel source for existing and future NPPs. (C) 2022 Elsevier B.V. All rights reserved.
Yee, Kay L.、Harikrishnan, R.、Perez-Nunez, Delia、Jiang, W.、Ortega, Luis H.、McDeavitt, Sean M.、Ahmed, Karim、McClenny, Levi D.、Butt, Moiz I.、Abdoelatef, M. Gomaa、Pate, Michal J.
NSTL
Elsevier
