A Bernstein-B?zier Lagrange-Galerkin method for three-dimensional advection-dominated problems

We present a high-order Bernstein-Bezier finite element discretization to accurately solve three-dimensional advection -dominated problems on unstructured tetrahedral meshes. The key idea consists of implementing a modified method of characteristics to discretize the advection terms in a Bernstein-Besier finite element framework. The proposed Bernstein- Bezier Lagrange-Galerkin method has been designed so that the Courant-Friedrichs-Lewy condition is strongly relaxed using semi-Lagrangian time discretization. A low complexity procedures in building finite element matrices and load vectors is also achieved in the present work by both the analytical rule and the sum factorization method using the tensorial feature of Bernstein polynomials. Several numerical examples including advection-diffusion equations with known analytical solutions and the viscous Burgers problem are considered to illustrate the accuracy, robustness and performance of the proposed approach. The computed results support our expectations for a stable and highly accurate Bernstein-Bezier Lagrange-Galerkin finite element method for three-dimensional advection-dominated problems.(c) 2022 Elsevier B.V. All rights reserved.