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A high-order artificial compressibility method based on Taylor series time-stepping for variable density flow

Lukas Lundgren, Murtazo Nazarov

2022Journal of Computational and Applied Mathematics14 citationsDOIOpen Access PDF

Abstract

In this paper, we introduce a fourth-order accurate finite element method for incompressible variable density flow. The method is implicit in time and constructed with the Taylor series technique, and uses standard high-order Lagrange basis functions in space. Taylor series time-stepping relies on time derivative correction terms to achieve high-order accuracy. We provide detailed algorithms to approximate the time derivatives of the variable density Navier–Stokes equations. Numerical validations confirm a fourth-order accuracy for smooth problems. We also numerically illustrate that the Taylor series method is unsuitable for problems where regularity is lost by solving the 2D Rayleigh–Taylor instability problem.

Topics & Concepts

Taylor seriesMathematicsSeries (stratigraphy)Applied mathematicsVariable (mathematics)Flow (mathematics)Incompressible flowCompressibilityMathematical analysisGeometryAerospace engineeringPaleontologyBiologyEngineeringAdvanced Numerical Methods in Computational MathematicsComputational Fluid Dynamics and AerodynamicsNumerical methods for differential equations