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Ray Effect Mitigation for the Discrete Ordinates Method Using Artificial Scattering

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arxiv 1911.08801 v2 pith:MQCHDJJW submitted 2019-11-20 math.NA cs.NA

Ray Effect Mitigation for the Discrete Ordinates Method Using Artificial Scattering

classification math.NA cs.NA
keywords methodartificialordinatesscatteringas-sdiscreteeffectsexplicit
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Solving the radiative transfer equation with the discrete ordinates (S$_N$) method leads to a non-physical imprint of the chosen quadrature set on the solution. To mitigate these so-called ray effects, we propose a modification of the S$_N$ method, which we call artificial scattering S$_N$ (as-S$_N$). The method adds an artificial forward-peaked scattering operator which generates angular diffusion to the solution and thereby mitigates ray effects. Similar to artificial viscosity for spatial discretizations, the additional term vanishes as the number of ordinates approaches infinity. Our method allows an efficient implementation of explicit and implicit time integration according to standard S$_N$ solver technology. For two test cases, we demonstrate a significant reduction of the error for the as-S$_N$ method when compared to the standard S$_N$ method, both for explicit and implicit computations. Furthermore, we show that a prescribed numerical precision can be reached with less memory due to the reduction in the number of ordinates.

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