The alternative Navier--Stokes equations

Last updated on Feb 28, 2023

A comprehensive numerical study with comparison to established numerical and experimental results of compressible fluid flow.

Eulerian

Mohammed Sayyari

Research Assistant

Mohammed is a systems thinker. His Mathematical interests are in Numerical Analysis and Modeling of Evolutionary PDEs. He is deeply committed to spearheading the development of technologies that are not only accurate and efficient but also economically viable and environmentally sustainable.

The capabilities of summation-by-parts and structure-preserving operators for compressible computational fluid dynamics and reaction-diffusion models
Entropy Stability of Finite Difference Schemes for the Compressible Navier-Stokes Equations
Development and analysis of entropy stable no-slip wall boundary conditions for the Eulerian model for viscous and heat conducting compressible flows
Entropy Stable No-Slip Wall Boundary Conditions for the Eulerian Model for Viscous and Heat Conducting Compressible Flows