Nicholas Wozniak scite author profile

Nicholas Wozniak

2Publications

8Citation Statements Received

17Citation Statements Given

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Affiliations

Argonne National Laboratory

Publications

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Continued Verification of MOOSE Structural Mechanics Tools for Modeling Core Bowing Phenomena in Fast Reactors

Wozniak

Shemon

2022

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Under the U.S. Department of Energy Office of Nuclear Energy's Advanced Modeling and Simulation (NEAMS) Program, an integrated multiphysics approach is being developed to model the core bowing phenomena important to liquid metal-cooled fast reactors. Core bowing is an important passive safety mechanism whereby increased power (which leads to temperature and flux gradients) influences the core to bow into less reactive configurations when the restraint system is properly designed. The phenomenon includes a complex interplay of radiation transport, duct temperature calculations involving fluid flow and heat transfer, and thermo-mechanical responses to the induced temperature and flux gradients. Structural material properties are also important to determining inelastic response to longer term flux gradients which cause irradiation creep and swelling. While core bowing provides a strong negative reactivity feedback when the restraint system is designed properly, it also results in additional forces between assemblies which increase the loads required to extricate them during refueling or control rod movement. Therefore, the restraint system must be designed with these tradeoffs in mind.The first stage of the work, which commenced in FY21 and continues through FY22, assesses thermo-mechanical modeling tools for producing core bowing predictions consistent with conventional tools. The Multiphysics Object Oriented Simulation Environment (MOOSE) Tensor Mechanics and Contact Modules are employed. This status report describes work on additional thermo-mechanical benchmark verification problems with increased complexity from the examples demonstrated in FY21.Several benchmark verification examples were selected from the IAEA verification and validation report. These examples involve clusters of ducts representative of a sector of a hexagonal reactor core which bow into each other and cause contact and load pad elevations, as well as single ducts subjected to irradiation fields undergoing swelling and subsequent bowing. The MOOSE-based results were compared to both IAEA benchmark participants' results, analytic equations as available, and NUBOW-3D, a beam model code developed by Argonne National Laboratory. In every case, the MOOSE results agreed with other simulations results, providing additional verification basis of the tools for this particular physics application.

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Summary Report for U.S. and Japan Bilateral Collaborations (FY2019)

Grudziński

Wozniak

Lee

et al. 2019

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Within the frame work of the Civil Nuclear Energy R&D Working Group (CNWG), researchers from Argonne National Laboratory (ANL), Japan Atomic Energy Agency (JAEA) and Central Research Institute of Electric Power Industry (CRIEPI) have been participating in the R&D collaborations in three tasks that are related to the fast reactor technologies, which include metal fuel sodium-cooled fast reactor (SFR) core bowing analysis, modeling and simulation of Monju Turbine Trip Benchmark, and collaborative improvement of the SAS4A code. The core bowing analysis continued for two benchmark problems: IAEA bowing benchmark problem and ABR-1000 bowing problem. A correction was made to the IAEA VP4 bowing benchmark problem by adding in the clearance at the restraint rings, and the results were updated. The ABR-1000 bowing problem parameters were updated in this work to include analysis of the full core. Two accident cases, were introduced to investigate the response due to a single control-rod removal accident scenario. The input files were created and provided to Japanese collaborators. A NUBOW3D model was created for the ABR-1000 and preliminary results were obtained for all load cases for the ABR-1000 bowing benchmark problem. Finally, a new irradiation benchmark problem was introduced that included a single duct (CNWG-1A) to investigate irradiation swelling effects, and a two-duct contact problem (CNWG-1B) to investigate creep effects.

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