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Paper detail

A Conservative Finite Element Method for the Incompressible Euler Equations with Variable Density

We construct a finite element discretization and time-stepping scheme for the incompressible Euler equations with variable density that exactly preserves total mass, total squared density, total energy, and pointwise incompressibility. The method uses Raviart-Thomas or Brezzi-Douglas-Marini finite elements to approximate the velocity and discontinuous polynomials to approximate the density and pressure. To achieve exact preservation of the aforementioned conserved quantities, we exploit a seldom-used weak formulation of the momentum equation and a second-order time-stepping scheme that is similar, but not identical, to the midpoint rule. We also describe and prove stability of an upwinded version of the method. We present numerical examples that demonstrate the order of convergence of the method.

preprint2019arXivOpen access
Evan S. GawlikFrançois Gay-Balmaz
physics.comp-phmath.NANumerical Analysis
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Evan S. GawlikFrançois Gay-Balmaz

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