COMPUTATIONAL EFFICIENCY OF NUMERICAL-METHODS FOR THE MULTIGROUP, DISCRETE-ORDINATES NEUTRON-TRANSPORT EQUATIONS - SLAB GEOMETRY CASE

被引：112

作者：

ALCOUFFE, RE

LARSEN, EW

MILLER, WF

WIENKE, BR

机构：

来源：

NUCLEAR SCIENCE AND ENGINEERING | 1979年 / 71卷 / 02期

关键词：

D O I：

10.13182/NSE71-111

中图分类号：

TL [原子能技术]; O571 [原子核物理学];

学科分类号：

0827 ; 082701 ;

摘要：

A study of spatial discretization schemes for the multigroup discrete-ordinates transport equations in slab geometry is described. The purpose of the study is to determine the most computationally efficient method, defined as the one that produces the minimum error for a given cost. The authors define cost as the total amount of computer time required to complete one inner iteration, given a limit on storage, and use three error norms to measure the accuracies of edge fluxes, cell average fluxes, and integral parameters. They study three test problems; the first is a model one-group problem, while the second and third are more realistic multigroup problems.

引用

页码：111 / 127

页数：17

共 29 条

[21] Analytical methods for computational modeling of fixed-source slab-geometry discrete ordinates transport problems: Response matrix and hybrid SN
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[24] PHOTON TRANSPORT IN VEGETATION CANOPIES WITH ANISOTROPIC SCATTERING .2. DISCRETE-ORDINATES EXACT-KERNEL TECHNIQUE FOR ONE-ANGLE PHOTON TRANSPORT IN SLAB GEOMETRY
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[26] Multilevel Quasidiffusion Methods for Solving Multigroup Neutron Transport k-Eigenvalue Problems in One-Dimensional Slab Geometry
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[27] On a Response Matrix Solver for Slab-Geometry Neutral Particle Transport Problems in the Discrete Ordinates and Energy Multigroup Formulations Considering Non-Uniform Interior Sources
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[28] SOLUTION OF STANDARD DIAMOND DIFFERENCE EQUATIONS FOR DISCRETE-ORDINATE NEUTRON-TRANSPORT EQUATIONS EQUIVALENT TO PL APPROXIMATION IN X-Y GEOMETRY
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[29] A numerical method for monoenergetic slab-geometry fixed-source adjoint transport problems in the discrete ordinates formulation with no spatial truncation error
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