MOOSE: Enabling massively parallel multiphysics simulation
Cody J. Permann,Derek Gaston,David Andrs,Robert W. Carlsen,Fande Kong,Alexander Lindsay,Jason M. Miller,John W. Peterson,Andrew E. Slaughter,Roy H. Stogner,Richard C. Martineau +10 more
TL;DR: The Multiphysics Object Oriented Simulation Environment (MOOSE) as mentioned in this paper provides simplified interfaces for specification of partial differential equations, boundary conditions, material properties, and all aspects of a simulation without the need to consider the parallel, adaptive, nonlinear, finite element solve.
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About: This article is published in SoftwareX. The article was published on 01 Jan 2020. and is currently open access. The article focuses on the topics: Multiphysics & Massively parallel.
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Citations
BISON: A Flexible Code for Advanced Simulation of the Performance of Multiple Nuclear Fuel Forms
Richard L. Williamson,Jason Hales,Stephen Novascone,Giovanni Pastore,Kyle A. Gamble,Benjamin Spencer,Wen Jiang,Stephanie Pitts,Albert Casagranda,Daniel Schwen,Adam X. Zabriskie,Aysenur Toptan,R. J. Gardner,Christoper Matthews,W. Liu,Hailong Chen +15 more
TL;DR: BISON is a platform for research in nuclear fuel performance modeling while simultaneously serving as a tool for the analysis of nuclear fuel designs, and has a growing set of rigorous verification and validation tests.
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Control of polarization in bulk ferroelectrics by mechanical dislocation imprint
Marion Höfling,Xiandong Zhou,Lukas M. Riemer,Enrico Bruder,Binzhi Liu,Lin Zhou,Lin Zhou,Pedro B. Groszewicz,Fangping Zhuo,Bai-Xiang Xu,Karsten Durst,Xiaoli Tan,Dragan Damjanovic,Jurij Koruza,Jürgen Rödel +14 more
TL;DR: In this article, point defects are exploited to engineering the properties of functional materials ranging from semiconductors and superconductors to ferroics, and point defects have been widely exploited, dislocatio...
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A phase-field model of fracture with frictionless contact and random fracture properties: Application to thin-film fracture and soil desiccation
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TRISO particle fuel performance and failure analysis with BISON
Wen Jiang,Jason Hales,Benjamin Spencer,Blaise P. Collin,Andrew E. Slaughter,Stephen Novascone,Aysenur Toptan,Kyle A. Gamble,R. J. Gardner +8 more
TL;DR: The BISON fuel performance code has undergone significant recent development to expand its TRISO particle fuel performance modeling capabilities, such as elastic, creep, swelling, thermal expansion, thermal conductivity, and fission gas release models.
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Coupled Multiphysics Simulations of Heat Pipe Microreactors Using DireWolf
Christopher Matthews,Vincent Laboure,Mark DeHart,Joshua Hansel,David Andrs,Yaqi Wang,Javier Ortensi,Richard C. Martineau +7 more
TL;DR: DireWolf as mentioned in this paper is a multiphysics software driver application designed to simulate heat pipe-cooled nuclear microreactors, which can be used to simulate nuclear power plants.
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