Nuclear Engineering and Technology (Feb 2023)

An hp-angular adaptivity with the discrete ordinates method for Boltzmann transport equation

  • Ni Dai,
  • Bin Zhang,
  • Xinyu Wang,
  • Daogang Lu,
  • Yixue Chen

Journal volume & issue
Vol. 55, no. 2
pp. 769 – 779

Abstract

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This paper describes an hp-angular adaptivity algorithm in the discrete ordinates method for Boltzmann transport applications with strong angular effects. This adaptivity uses discontinuous finite element quadrature sets with different degrees, which updates both angular mesh and the degree of the underlying discontinuous finite element basis functions, allowing different angular local refinement to be applied in space. The regular and goal-based error metrics are considered in this algorithm to locate some regions to be refined. A mapping algorithm derived by moment conservation is developed to pass the angular solution between spatial regions with different quadrature sets. The proposed method is applied to some test problems that demonstrate the ability of this hp-angular adaptivity to resolve complex fluxes with relatively few angular unknowns. Results illustrate that a reduction to approximately 1/50 in quadrature ordinates for a given accuracy compared with uniform angular discretization. This method therefore offers a highly efficient angular adaptivity for investigating difficult particle transport problems.

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