Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory $k$-exact reconstruction

DOI10.1016/j.compfluid.2016.06.012zbMath1390.76444OpenAlexW2470761499MaRDI QIDQ1647112

Nian-Yu Yi, Xucheng Meng, Guanghui Hu

Publication date: 26 June 2018

Published in: Computers and Fluids (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.compfluid.2016.06.012

zbMATH Keywords

steady Euler equations adjoint-based error estimation $h$-adaptive method non-oscillatory $k$-exact reconstruction high-order finite volume methods

Mathematics Subject Classification ID

Finite volume methods applied to problems in fluid mechanics (76M12) Euler equations (35Q31) Finite volume methods for boundary value problems involving PDEs (65N08)

Related Items (14)

Analysis of a goal-oriented adaptive two-grid finite-element algorithm for semilinear elliptic problems ⋮ An upwind local radial basis functions-differential quadrature (RBF-DQ) method with proper orthogonal decomposition (POD) approach for solving compressible Euler equation ⋮ An Adaptive Moving Mesh Method for the Five-Equation Model ⋮ A hybrid WENO scheme for steady-state simulations of Euler equations ⋮ An MP-DWR method for $h$-adaptive finite element methods ⋮ A NURBS-Enhanced Finite Volume Method for Steady Euler Equations with Goal-Oriented $h$-Adaptivity ⋮ A Hybrid WENO Scheme for Steady Euler Equations in Curved Geometries on Cartesian Grids ⋮ A Numerical Study of Integrated Linear Reconstruction for Steady Euler Equations Based on Finite Volume Scheme ⋮ A fourth-order unstructured NURBS-enhanced finite volume WENO scheme for steady Euler equations in curved geometries ⋮ A NURBS-enhanced finite volume solver for steady Euler equations ⋮ Adjoint-Based Adaptive Isogeometric Discontinuous Galerkin Method for Euler Equations ⋮ A numerical study of 2D detonation waves with adaptive finite volume methods on unstructured grids ⋮ An Adjoint-Based h-Adaptive Reconstructed Discontinuous Galerkin Method for the Steady-State Compressible Euler Equations ⋮ On Accurately Resolving Detonation Dynamics by Adaptive Finite Volume Method on Unstructured Grids

Cites Work

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Adjoint-based an adaptive finite volume method for steady Euler equations with non-oscillatory \(k\)-exact reconstruction