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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
 
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Abstract

Nonlinear acceleration of a continuous finite element (CFE) discretization of the transport equation requires a modification of the transport solution in order to achieve local conservation, a condition used in nonlinear acceleration to define the stopping criterion. In this work we implement a coarse-mesh finite difference acceleration for a CFE discretization of the second-order self-adjoint angular flux (SAAF) form of the transport equation and use a postprocessing to enforce local conservation. Numerical results are given for one-group source calculations of one-dimensional slabs. We also give a novel formal derivation of the boundary conditions for the SAAF.

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