An efficient finite difference IFWENO-THINC hybrid scheme for capturing discontinuities
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Publication:2698191
DOI10.1016/j.amc.2023.127889OpenAlexW4320474928MaRDI QIDQ2698191
Chao Yan, Xin Zhang, Feng Qu, Xueyu Qin, Lintao Huang
Publication date: 21 April 2023
Published in: Applied Mathematics and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.amc.2023.127889
Basic methods in fluid mechanics (76Mxx) Numerical methods for partial differential equations, initial value and time-dependent initial-boundary value problems (65Mxx) Hyperbolic equations and hyperbolic systems (35Lxx)
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Cites Work
- Unnamed Item
- Accuracy of the weighted essentially non-oscillatory conservative finite difference schemes
- A new smoothness indicator for improving the weighted essentially non-oscillatory scheme
- Positivity-preserving method for high-order conservative schemes solving compressible Euler equations
- Positivity-preserving high order finite difference WENO schemes for compressible Euler equations
- A class of finite difference schemes with low dispersion and controllable dissipation for DNS of compressible turbulence
- On positivity-preserving high order discontinuous Galerkin schemes for compressible Euler equations on rectangular meshes
- On high order strong stability preserving Runge-Kutta and multi step time discretizations
- Revisit to the THINC scheme: a simple algebraic VOF algorithm
- Very-high-order WENO schemes
- A characteristic-wise hybrid compact-WENO scheme for solving hyperbolic conservation laws.
- Monotonicity preserving weighted essentially non-oscillatory schemes with increasingly high order of accuracy
- An improved mapped weighted essentially non-oscillatory scheme
- Targeted ENO schemes with tailored resolution property for hyperbolic conservation laws
- Mapped weighted essentially non-oscillatory schemes: Achieving optimal order near critical points
- Efficient implementation of weighted ENO schemes
- An efficient smoothness indicator mapped WENO scheme for hyperbolic conservation laws
- A new 3D OpenFoam solver with improved resolution for hyperbolic systems on hybrid unstructured grids
- A smoothness indicator constant for sine functions
- Very high order WENO schemes using efficient smoothness indicators
- An improved WENO-Z+ scheme for solving hyperbolic conservation laws
- An efficient algorithm for computing smoothness indicators for WENO schemes
- A novel high-order low-dissipation TENO-THINC scheme for hyperbolic conservation laws
- A class of high-order finite difference schemes with minimized dispersion and adaptive dissipation for solving compressible flows
- An improved simple WENO limiter for discontinuous Galerkin methods solving hyperbolic systems on unstructured meshes
- A fifth-order low-dissipation discontinuity-resolving TENO scheme for compressible flow simulation
- Third-order WENO schemes with kinetic flux vector splitting
- Simple smoothness indicator WENO-Z scheme for hyperbolic conservation laws
- Adaptive mapping for high order WENO methods
- A fifth-order shock capturing scheme with two-stage boundary variation diminishing algorithm
- A new fifth-order alternative finite difference multi-resolution WENO scheme for solving compressible flow
- Hybrid finite volume weighted essentially non-oscillatory schemes with linear central reconstructions
- On the efficient computation of smoothness indicators for a class of WENO reconstructions
- A family of high-order targeted ENO schemes for compressible-fluid simulations
- An improved WENO-Z scheme
- An improved weighted essentially non-oscillatory scheme for hyperbolic conservation laws
- Parametrized positivity preserving flux limiters for the high order finite difference WENO scheme solving compressible Euler equations
- A very-high-order TENO scheme for all-speed gas dynamics and turbulence
- Analysis of WENO Schemes for Full and Global Accuracy
- Maximum-principle-satisfying and positivity-preserving high-order schemes for conservation laws: survey and new developments
- The Artificial Compression Method for Computation of Shocks and Contact Discontinuities: III. Self-Adjusting Hybrid Schemes
- Resolution-optimised nonlinear scheme for secondary derivatives
- A simple algebraic interface capturing scheme using hyperbolic tangent function
