Arbitrary-level coarse mesh finite difference acceleration with hierarchical coarsening in space and energy

•Presented multilevel CMFD acceleration framework.•Nested iterative scheme where power iterations can be accelerated with lower-order CMFD problem.•Hierarchical coarsening in space and energy.•Results demonstrated significant reduction in the CMFD solution times for large 2D and 3D problems on many...

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Veröffentlicht in:	Annals of nuclear energy 2020-11, Vol.147 (C), p.107687, Article 107687
Hauptverfasser:	Hackemack, Michael W., Becker, Troy L., Douglass, Steven J.
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Sprache:	eng
Schlagworte:	Eigenvalue problems Hierarchical CMFD acceleration Nested iterative scheme Neutron transport
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creator	Hackemack, Michael W. Becker, Troy L. Douglass, Steven J.
description	•Presented multilevel CMFD acceleration framework.•Nested iterative scheme where power iterations can be accelerated with lower-order CMFD problem.•Hierarchical coarsening in space and energy.•Results demonstrated significant reduction in the CMFD solution times for large 2D and 3D problems on many parallel processors. In this paper, we present an arbitrary-level coarse mesh finite difference (CMFD) scheme to accelerate discrete ordinates (SN) transport eigenvalue problems. It is a nested iterative scheme where a transport power iteration is accelerated with nested levels of CMFD eigenvalue problems whose space/energy grids can be hierarchically coarsened. The methodology provides a general framework independent of the space/angle discretization used to define the problem of interest. It is also readily extensible to solving diffusion eigenvalue problems. We present 2D and 3D numerical results on a representative quarter-core model from the VERA benchmark suite with different combinations of energy and spatial CMFD grids. We show that the methodology significantly reduces the diffusion and overall computational times required to solve large SN transport eigenvalue problems with CMFD on many parallel processes.
doi_str_mv	10.1016/j.anucene.2020.107687
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In this paper, we present an arbitrary-level coarse mesh finite difference (CMFD) scheme to accelerate discrete ordinates (SN) transport eigenvalue problems. It is a nested iterative scheme where a transport power iteration is accelerated with nested levels of CMFD eigenvalue problems whose space/energy grids can be hierarchically coarsened. The methodology provides a general framework independent of the space/angle discretization used to define the problem of interest. It is also readily extensible to solving diffusion eigenvalue problems. We present 2D and 3D numerical results on a representative quarter-core model from the VERA benchmark suite with different combinations of energy and spatial CMFD grids. 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In this paper, we present an arbitrary-level coarse mesh finite difference (CMFD) scheme to accelerate discrete ordinates (SN) transport eigenvalue problems. It is a nested iterative scheme where a transport power iteration is accelerated with nested levels of CMFD eigenvalue problems whose space/energy grids can be hierarchically coarsened. The methodology provides a general framework independent of the space/angle discretization used to define the problem of interest. It is also readily extensible to solving diffusion eigenvalue problems. We present 2D and 3D numerical results on a representative quarter-core model from the VERA benchmark suite with different combinations of energy and spatial CMFD grids. 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subjects	Eigenvalue problems Hierarchical CMFD acceleration Nested iterative scheme Neutron transport
title	Arbitrary-level coarse mesh finite difference acceleration with hierarchical coarsening in space and energy
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