We present highly accurate solutions to the neutral particle transport equation in a halfspace. While our initial motivation was in response to a recently published solution based on Chandrasekhar’s H-function, the presentation to follow has taken on a more comprehensive tone. The solution by H-functions certainly did achieved high accuracy but was limited to isotropic scattering and emission from spatially uniform and linear sources. Moreover, the overly complicated nature of the H-function approach strongly suggests that its extension to anisotropic scattering and general sources is not at all practical. For this reason, an all encompassing theory for the determination of highly precise benchmarks, including anisotropic scattering for a variety of spatial source distributions, is presented for particle transport in a half-space. We illustrate the approach via a collection of cases including tables of 7-place flux benchmarks to guide transport methods developers. The solution presented can be applied to a considerable number of one and two half-space transport problems with variable sources and represents a state-of-the-art benchmark solution
A solution of the monoenergetic neutral particle transport equation for adjacent half-spaces with anisotropic scattering / Ganapol, B.D.; Mostacci, D.; Previti, A.. - In: JOURNAL OF COMPUTATIONAL PHYSICS. - ISSN 0021-9991. - STAMPA. - 316:(2016), pp. 814-845. [10.1016/j.jcp.2016.02.049]
A solution of the monoenergetic neutral particle transport equation for adjacent half-spaces with anisotropic scattering
MOSTACCI, DOMIZIANO;PREVITI, ALBERTO
2016
Abstract
We present highly accurate solutions to the neutral particle transport equation in a halfspace. While our initial motivation was in response to a recently published solution based on Chandrasekhar’s H-function, the presentation to follow has taken on a more comprehensive tone. The solution by H-functions certainly did achieved high accuracy but was limited to isotropic scattering and emission from spatially uniform and linear sources. Moreover, the overly complicated nature of the H-function approach strongly suggests that its extension to anisotropic scattering and general sources is not at all practical. For this reason, an all encompassing theory for the determination of highly precise benchmarks, including anisotropic scattering for a variety of spatial source distributions, is presented for particle transport in a half-space. We illustrate the approach via a collection of cases including tables of 7-place flux benchmarks to guide transport methods developers. The solution presented can be applied to a considerable number of one and two half-space transport problems with variable sources and represents a state-of-the-art benchmark solutionI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.