Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench

Robert Alexander Lefebvre; W. David Pointer; Marc-Olivier G. Delchini

doi:10.2172/1615807

Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench

Robert Alexander Lefebvre, W. David Pointer, Marc-Olivier G. Delchini

Research output: Book/Report › Commissioned report

Abstract

The mission of the US Department of Energy’s Nuclear Energy Advanced Modeling and Simulation (NEAMS) Program is to develop, apply, deploy, and support state-of-the-art predictive modeling and simulation tools for the design and analysis of current and future nuclear energy systems using computing architectures ranging from laptops to leadership-class facilities. NEAMS is organized into three product lines: the Fuels Product Line (FPL),the Reactors Product Line (RPL), and the Integration Product Line (IPL). The FPL and RPL focus on the development of high-fidelity tools such as the MOOSE-based applications BISON and MARMOT [3, 9] at Idaho National Laboratory, and the PROTEUS neutronics code and the NEK5000 computational fluid dynamics code from the Simulation-based High-efficiency Advanced Reactor Prototyping (SHARP) framework [10]. The NEAMS IPL will enable users to apply high-fidelity simulations to inform lower order models for the design, analysis, and licensing of advanced nuclear systems.

Original language	English
Place of Publication	United States
DOIs	https://doi.org/10.2172/1615807
State	Published - 2019

Keywords

97 MATHEMATICS AND COMPUTING
22 GENERAL STUDIES OF NUCLEAR REACTORS

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10.2172/1615807

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title = "Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench",

abstract = "The mission of the US Department of Energy{\textquoteright}s Nuclear Energy Advanced Modeling and Simulation (NEAMS) Program is to develop, apply, deploy, and support state-of-the-art predictive modeling and simulation tools for the design and analysis of current and future nuclear energy systems using computing architectures ranging from laptops to leadership-class facilities. NEAMS is organized into three product lines: the Fuels Product Line (FPL),the Reactors Product Line (RPL), and the Integration Product Line (IPL). The FPL and RPL focus on the development of high-fidelity tools such as the MOOSE-based applications BISON and MARMOT [3, 9] at Idaho National Laboratory, and the PROTEUS neutronics code and the NEK5000 computational fluid dynamics code from the Simulation-based High-efficiency Advanced Reactor Prototyping (SHARP) framework [10]. The NEAMS IPL will enable users to apply high-fidelity simulations to inform lower order models for the design, analysis, and licensing of advanced nuclear systems.",

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author = "Lefebvre, {Robert Alexander} and Pointer, {W. David} and Delchini, {Marc-Olivier G.}",

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doi = "10.2172/1615807",

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T1 - Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench

AU - Lefebvre, Robert Alexander

AU - Pointer, W. David

AU - Delchini, Marc-Olivier G.

PY - 2019

Y1 - 2019

N2 - The mission of the US Department of Energy’s Nuclear Energy Advanced Modeling and Simulation (NEAMS) Program is to develop, apply, deploy, and support state-of-the-art predictive modeling and simulation tools for the design and analysis of current and future nuclear energy systems using computing architectures ranging from laptops to leadership-class facilities. NEAMS is organized into three product lines: the Fuels Product Line (FPL),the Reactors Product Line (RPL), and the Integration Product Line (IPL). The FPL and RPL focus on the development of high-fidelity tools such as the MOOSE-based applications BISON and MARMOT [3, 9] at Idaho National Laboratory, and the PROTEUS neutronics code and the NEK5000 computational fluid dynamics code from the Simulation-based High-efficiency Advanced Reactor Prototyping (SHARP) framework [10]. The NEAMS IPL will enable users to apply high-fidelity simulations to inform lower order models for the design, analysis, and licensing of advanced nuclear systems.

AB - The mission of the US Department of Energy’s Nuclear Energy Advanced Modeling and Simulation (NEAMS) Program is to develop, apply, deploy, and support state-of-the-art predictive modeling and simulation tools for the design and analysis of current and future nuclear energy systems using computing architectures ranging from laptops to leadership-class facilities. NEAMS is organized into three product lines: the Fuels Product Line (FPL),the Reactors Product Line (RPL), and the Integration Product Line (IPL). The FPL and RPL focus on the development of high-fidelity tools such as the MOOSE-based applications BISON and MARMOT [3, 9] at Idaho National Laboratory, and the PROTEUS neutronics code and the NEK5000 computational fluid dynamics code from the Simulation-based High-efficiency Advanced Reactor Prototyping (SHARP) framework [10]. The NEAMS IPL will enable users to apply high-fidelity simulations to inform lower order models for the design, analysis, and licensing of advanced nuclear systems.

KW - 97 MATHEMATICS AND COMPUTING

KW - 22 GENERAL STUDIES OF NUCLEAR REACTORS

U2 - 10.2172/1615807

DO - 10.2172/1615807

M3 - Commissioned report

BT - Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench

CY - United States

ER -

Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench

Abstract

Keywords

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