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Nuclear Science and Engineering Volume 175, 2013 - Issue 3
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Technical Paper

Nonlinear Acceleration of a Continuous Finite Element Discretization of the Self-Adjoint Angular Flux Form of the Transport Equation

Richard SanchezCommissariat à l’Energie Atomique et aux Energies Alternatives Service des Etudes des Réacteurs et de Mathématiques Appliquées Centre de Saclay, DEN0DM2S0SERMA, Gif-sur-Yvettes cédex, France
,
Cristian RabitiIdaho National Laboratory 2525 Fremont Avenue, Idaho Falls, Idaho 83415
&
Yaqi WangIdaho National Laboratory 2525 Fremont Avenue, Idaho Falls, Idaho 83415
Pages 213-226 | Published online: 22 Mar 2017

REFERENCES

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  • A. YAMAMOTO, “Convergence Property of Response Matrix Method for Various Finite-Difference Formulations Used in the Nonlinear Acceleration Method,” Nucl. Sci. Eng., 149, 259 (2005).
  • M. G. LARSON and A. J. NIKLASSON, “Conservation Properties for the Continuous and Discontinuous Galerkin Method,” Preprint 2000-08, Chalmers Finite Element Center, Goteborg, Sweden (2001).
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  • E. MASIELLO, B. MARTIN, and J.-M. DO, “Domain Decomposition and CMFD Acceleration Applied to Discrete-Ordinate Methods for the Solution of the Neutron Transport Equation in xyz Geometries,” Proc. Int. Conf. Mathematics and Computational Methods Applied to Nuclear Science and Engineering (M&C 2011), Rio de Janeiro, Brazil, May 8–12, 2011.
  • S. SUN and J. LIU, “A Locally Conservative Finite Element Method Based on Piecewise Constant Enrichment of the Continuous Galerkin Method,” SIAM J. Sci. Comput., 31, 4, 2528 (2009).
  • B. COCKBURN, J. GOPALAKRISHNAN, and H. WANG, “Locally Conservative Fluxes for the Continuous Galerkin Method,” SIAM J. Numer. Anal., 45, 1742 (2007); http://static.msi.umn.edu/rreports/2007/236.pdf (current as of June 13, 2012).
  • W. H. REED, “New Difference Schemes for the Neutron Transport Equation,” Nucl. Sci. Eng., 46, 309 (1971).

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