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Fluid dynamics / High Flux Isotope Reactor / Oak Ridge / Tennessee / Numerical analysis / Fluid-structure interaction / COMSOL Multiphysics / Nuclear fuel / Multiphysics / Navier–Stokes equations / Physics / Nuclear physics / Oak Ridge National Laboratory


Franklin G. Curtis1 · Kivanc Ekici1 · James D. Freels2 Fluid-Structure Interaction Modeling of High-Aspect Ratio Nuclear Fuel Plates Using COMSOL Abstract The High Flux Isotope Reactor at the Oak
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Document Date: 2013-11-14 11:31:23

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File Size: 2,35 MB

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Boston / P.O. Box / /

Company

General Electric Company / DCW Industries / Oak Ridge National Laboratory / /

Country

United States / /

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Facility

University of Missouri / Oregon State University / FSI facility / Bethel Valley Road P.O. Box / Reactor Parallel Plate Fuel Assemblies / Introduction The High Flux Isotope Reactor / The University of Tennessee Knoxville / Reactor Science / Reactor Fuel Plates / Aspect Ratio Nuclear Fuel Plates Using COMSOL Abstract The High Flux Isotope Reactor / Advanced Neutron Source Reactor / /

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Steady-state solutions / undeformed flow solution / implicit solution algorithm / structural solution / stable solution / incorrect solution / numerical algorithms / http /

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Perspex channel / Narrow Channel / /

Organization

Generic Test Plate Assembly / Plate-Type Fuel Assembly / office of Science and the Global Threat Reduction Initiative / US Federal Reserve / Oregon State University / National Nuclear Security Administration / Department of Energy / Oak Ridge National Lab / University of Missouri / University of Tennessee Knoxville / MTR-type Nuclear Fuel Assembly / Knolls Atomic Power Lab / /

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Missouri / Tennessee / Oregon / /

Technology

laser / RAM / fluid dynamics / implicit solution algorithm / simulation / shared memory / improved numerical algorithms / /

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http /

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