A higher-order discontinuous enrichment method for the solution of high Peclet advection-diffusion problems on unstructured meshes

A higher-order discontinuous enrichment method (DEM) with Lagrange Multipliers is proposed for the efficient finite element solution on unstructured meshes of the advection-diffusion equation in the high Peclet number regime. Following the basic DEM methodology, the usual Galerkin polynomial approximation is enriched with free-space Solutions of the governing homogeneous partial differential equation (PDE). In this case, these are exponential functions that exhibit a steep gradient in a specific flow direction. Exponential Lagrange multipliers are introduced at the element interfaces to weakly enforce the continuity of the solution. The construction of several higher-order DEM elements fitting this paradigm is discussed in detail. Numerical tests performed for several two-dimensional benchmark problems demonstrate their computational superiority over stabilized Galerkin counterparts, especially for high Peclet numbers. Copyright (C) 2009 John Wiley & Sons. Ltd.