MOOSE Publications


Journal Articles
A perspective on coupled multiscale simulation and validation in nuclear materials. MRS Bulletin 39 (1) (2014), pp. 71-77.
M.P. Short, D. Gaston, C. Stanek, and S. Yip
A quantitative comparison between c0 and c1 elements for solving the Cahn-Hilliard Equation. Journal of Computational Physics, 236 (March 2013), pp. 74-80.
L. Zhang, M.R. Tonks, D. Gaston, J.W. Peterson, D. Andrs, P.C. Millett, and B.S. Biner
Multiscale development of a fission gas thermal conductivity model: Coupling atomic, meso and continuum level simulations. Journal of Nuclear Materials, 440 (1-3) (September 2013), pp.193–200.
M.R. Tonks, P.C. Millett, P. Nerikar, S. Du, D. Andersson, C.R. Stanek, D. Gaston, D. Andrs, and R. Williamson
A parallel, fully coupled, fully implicit solution to reactive transport in porous media using preconditioned Jacobian-free Newton-Krylov. Advances in Water Resources, 53 (March 2013), pp. 101-108
L. Guo, H. Huang, D. Gaston, C. Permann, D. Andrs, G. Redden, C. Lu, D. Fox, and Y. Fujita
Crystal Plasticity with Jacobian-free Newton-Krylov. Computational Mechanics, 51 (5) (May 2013), pp. 617-627
K. Chockalingam, M.R. Tonks, J.D. Hales, D.R. Gaston, P.C. Millett, and L. Zhang
Multidimensional multiphysics simulation of nuclear fuel behavior. Journal of Nuclear Materials, 423 (1-3) (April 2012), pp. 149-163.
R. L. Williamson, J. D. Hales, S. R. Novascone, M. R. Tonks, D. R. Gaston, C. J. Permann, D. Andrs, and R. C. Martineau
Solving nonlinear solid mechanics problems with the Jacobian-free Newton Krylov method. CMES: Computer Modeling in Engineering & Sciences, 84 (2)(2012), pp. 123-154.
J.D. Hales, S.R. Novascone, R.L. Williamson, D.R. Gaston, and M.R. Tonks
An object-oriented finite element framework for multiphysics phase field simulations. Computational Materials Science, 51(1) (January 2012), pp. 20-29
M. Tonks, D. Gaston, P. Millett, D. Andrs, and P. Talbot
Parallel algorithms and software for nuclear, energy, and environmental applications. Part I: Multiphysics algorithms. Communications in Computational Physics, 12(2012), pp. 807-833.
D. Gaston, L. Guo, G. Hansen, H Huang, R. Johnson, D. Knoll, C. Newman, H. Park, R. Podgorney, M. Tonks, and R. Williamson
Article copies can be purchased by emailing info@global-sci.org
Parallel algorithms and software for nuclear, energy, and environmental applications. Part II: Multiphysics software. Communications in Computational Physics, 12(2012), pp. 834-865.
D. Gaston, L. Guo, G. Hansen, H Huang, R. Johnson, D. Knoll, C. Newman, H. Park, R. Podgorney, M. Tonks, and R. Williamson
Article copies can be purchased by emailing info@global-sci.org
A coupling methodology for mesoscale-informed nuclear fuel performance codes. Nuclear Engineering and Design, 240 (10) (October 2010), pp. 2877-2883.
M. Tonks, D. Gaston, C. Permann, P. Millett, G. Hansen, and D. Wolf
Tightly coupled multiphysics algorithms for pebble bed reactors. Nuclear Science and Engineering, 166(2) (October 2010), pp. 118-133.
H. Park, D.A. Knoll, D.R. Gaston, and R.C. Martineau
Parallel multiphysics algorithms and software for computational nuclear engineering. Journal of Physics: Conference Series, 180(1)(2009), 012012.
D. Gaston, G. Hansen, S. Kadioglu, D. Knoll, C. Newman, H. Park, C. Permann, and W. Taitano
Fully-coupled engineering and mesoscale simulations of thermal conductivity in UO2 fuel using an implicit multiscale approach. Journal of Physics: Conferences Series, 180(1)(2009), 012078.
M.R. Tonks, G. Hansen, D. Gaston, C. Permann, P. Millett, and D. Wolf
MOOSE: A parallel computational framework for coupled systems of nonlinear equations. Nuclear Engineering and Design, 239 (10)(October 2009), pp. 1768-1778.
D. Gaston, C. Newman, G. Hansen, and D. Lebrun-Grandie
Three dimensional coupled simulation of thermomechanics, heat, and oxygen diffusion in UO2 nuclear fuel rods. Journal of Nuclear Materials, 392 (1) (July 2009), pp. 6–15.
C. Newman, G. Hansen, and D. Gaston

Technical Reports
RELAP-7 level 2 milestone report: Demonstration of a steady state single phase PWR simulation with RELAP-7. Idaho National Laboratory, Idaho Falls, ID. INL/EXT-12-25924, (May 2012).
D. Andrs, R. Berry, D. Gaston, R. Martineau, J. Peterson, H. Zhang, H. Zhao, and L. Zou
Meet the MOOSE Team

Meet the developers of MOOSE applications

BISON Nuclear Fuel Simulations

BISON is a thermo-mechanical code that models nuclear fuel performance

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