Richard Vasques


Assistant Professor of Nuclear Engineering

An improved spectral approach for solving the nonclassical neutron particle transport equation


Journal article


Leonardo R.C. Moraes, Japan K. Patel, Ricardo C. Barros, Richard Vasques
https://arxiv.org/abs/2108.10782, 2021

ABSTRACT: An improvement modification of the Spectral Approach (SA) used for approximating the nonclassical neutral particle transport equation is described in this work. The main focus of the modified SA lies on a slight modification of the nonclassical angular flux representation as a function of truncated Laguerre series. This leads, in some cases, to a considerable decrease of the Laguerre truncation order required to generate accurate solutions. Numerical results are given to illustrate this proposed improvement.
https://arxiv.org/abs/2108.10782

Cite

APA
Moraes, L. R. C., Patel, J. K., Barros, R. C., & Vasques, R. (2021). An improved spectral approach for solving the nonclassical neutron particle transport equation. Https://Arxiv.org/Abs/2108.10782.

Chicago/Turabian
Moraes, Leonardo R.C., Japan K. Patel, Ricardo C. Barros, and Richard Vasques. “An Improved Spectral Approach for Solving the Nonclassical Neutron Particle Transport Equation.” https://arxiv.org/abs/2108.10782 (2021).

MLA
Moraes, Leonardo R. C., et al. “An Improved Spectral Approach for Solving the Nonclassical Neutron Particle Transport Equation.” Https://Arxiv.org/Abs/2108.10782, 2021.