Entropy Stable No-Slip Wall Boundary Conditions for the Eulerian Model

Mohammed Sayyari, Lisandro Dalcin, Matteo Parsani
Project Video AIAA Paper Watch Recording

Abstract

Nonlinear (entropy) stability analysis is used to derive entropy–stable no–slip wall boundary conditions at the continuous and semi–discrete levels for the Eulerian model. The spatial discretization is based on discontinuous Galerkin summation-by-parts operators of any order for unstructured grids.

Date
Jan 19, 2021 12:00 AM — 1:00 AM
Event
AIAA Scitech 2021 Forum
Location
Virtual Event

Presentation at the AIAA Scitech 2021 Forum on entropy-stable no-slip wall boundary conditions for the Eulerian model for viscous and heat conducting compressible flows.

entropy boundary conditions Eulerian AIAA
Mohammed Sayyari
Mohammed Sayyari
Postdoctoral Research Associate, Adjunct Assistant Professor

Mohammed is a systems thinker. His Mathematical interests are in Numerical Analysis and Modeling of Evolutionary PDEs. His Scientific interests are in the advancement of accurate, efficient, economic and enviromentally friendly technologies.