English

Dynamic p-enrichment schemes for multicomponent reactive flows

Fluid Dynamics 2015-05-27 v1

Abstract

We present a family of p-enrichment schemes. These schemes may be separated into two basic classes: the first, called \emph{fixed tolerance schemes}, rely on setting global scalar tolerances on the local regularity of the solution, and the second, called \emph{dioristic schemes}, rely on time-evolving bounds on the local variation in the solution. Each class of pp-enrichment scheme is further divided into two basic types. The first type (the Type I schemes) enrich along lines of maximal variation, striving to enhance stable solutions in "areas of highest interest." The second type (the Type II schemes) enrich along lines of maximal regularity in order to maximize the stability of the enrichment process. Each of these schemes are tested over a pair of model problems arising in coastal hydrology. The first is a contaminant transport model, which addresses a declinature problem for a contaminant plume with respect to a bay inlet setting. The second is a multicomponent chemically reactive flow model of estuary eutrophication arising in the Gulf of Mexico.

Cite

@article{arxiv.1104.3834,
  title  = {Dynamic p-enrichment schemes for multicomponent reactive flows},
  author = {C. Michoski and C. Mirabito and C. Dawson and E. J. Kubatko and D. Wirasaet and J. J. Westerink},
  journal= {arXiv preprint arXiv:1104.3834},
  year   = {2015}
}

Comments

29 pages, 7 figures, 3 tables

R2 v1 2026-06-21T17:56:21.430Z