Kenneth Belcourt scite author profile

Kenneth Belcourt

5Publications

11Citation Statements Received

7Citation Statements Given

How they've been cited

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Affiliations

Sandia National Laboratories California, n&k Technology (United States)

Publications

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An approach for coupled-code multiphysics core simulations from a common input

Schmidt

Belcourt²,

Hooper³

et al. 2015

Annals of Nuclear Energy

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This paper describes an approach for coupled-code multiphysics reactor core simulations that is being developed by the Virtual Environment for Reactor Applications (VERA) project in the Consortium for Advanced Simulation of Light-Water Reactors (CASL). In this approach a user creates a single problem description, called the "VERAIn" common input file, to define and setup the desired coupled-code reactor core simulation. A preprocessing step accepts the VERAIn file and generates a set of fully consistent input files for the different physics codes being coupled. The problem is then solved using a single-executable coupled-code simulation tool applicable to the problem, which is built using VERA infrastructure software tools and the set of physics codes required for the problem of interest. The approach is demonstrated by performing an eigenvalue and power distribution calculation of a typical three-dimensional 17x17 assembly with thermal-hydraulic and fuel temperature feedback. All neutronics aspects of the problem (cross-section calculation, neutron transport, power release) are solved using the Insilico code suite and are fully coupled to a thermalhydraulic analysis calculated by the Cobra-TF (CTF) code. The single-executable coupled-code (Insilico-CTF) simulation tool is created using several VERA tools, including LIME (Lightweight Integrating Multiphysics Environment for coupling codes), DTK (Data Transfer Kit), Trilinos, and TriBITS. Parallel calculations are performed on the Titan supercomputer at Oak Ridge National Laboratory using 1156 cores, and a synopsis of the solution results and code performance is presented. Ongoing development of this approach is also briefly described.

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Tabular water properties interface for Hydra-TH :

Carpenter¹,

Belcourt²

2013

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Sierra/SolidMechanics 4.54 User's Guide: Addendum for Shock Capabilities.

Veilleux¹,

Beckwith²,

Belcourt³

et al. 2019

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This is an addendum to the Sierra/SolidMechanics 4.22 User's Guide to document additional capabilities that are available for use in the Presto_ITAR code that are not available for use in the standard version of Sierra/SolidMechanics (Sierra/SM). Presto_ITAR is an enhanced version of Sierra/SM that provides capabilities that make it regulated under the U.S. Department of State's International Traffic in Arms Regulations (ITAR) export-control rules. This code is part of the Vivace product, and is only distributed to entities that comply with ITAR regulations. The enhancements primarily focus on material models that include an energy-dependent pressure response, appropriate for very large deformations and strain rates. Since this is an addendum to the standard Sierra/SolidMechanics User's Guide, please refer to that document first for general descriptions of code capability and use. This addendum documents material models and element features that support energy-dependent material models.

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Sierra/SolidMechanics 4.52 User's Guide

Beckwith

Belcourt

Frias

et al. 2019

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Sierra/SolidMechanics 4.58 Theory Manual

Beckwith

Belcourt

Frias

et al. 2020

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