Spectral (finite) volume method for conservation laws on unstructured grids. II: Extension to two-dimensional scalar equation

Improvement of the computational performance of a parallel unstructured WENO finite volume CFD code for implicit large eddy simulation, Arbitrary high-order non-oscillatory scheme on hybrid unstructured grids based on multi-moment finite volume method, Improved detection criteria for the multi-dimensional optimal order detection (MOOD) on unstructured meshes with very high-order polynomials, A conservative high-order method utilizing dynamic transfinite mortar elements for flow simulations on curved nonconforming sliding meshes, Hierarchical reconstruction for spectral volume method on unstructured grids, An implicit high-order \(k\)-exact finite-volume approach on vertex-centered unstructured grids for incompressible flows, A high-order compact limiter based on spatially weighted projections for the spectral volume and the spectral differences method, NUMERICAL EXPERIMENTS OF THE SPECTRAL VOLUME METHOD FOR VISCOUS FLOWS, HIGH ORDER LOCALIZED ENO SCHEMES ON UNSTRUCTURED MESHES FOR CONSERVATION LAWS, Multi-dimensional Optimal Order Detection (MOOD) — a Very High-Order Finite Volume Scheme for Conservation Laws on Unstructured Meshes, Compact high order finite volume method on unstructured grids I: Basic formulations and one-dimensional schemes, Compact high order finite volume method on unstructured grids II: extension to two-dimensional Euler equations, Extended bounds limiter for high-order finite-volume schemes on unstructured meshes, A class of DG/FV hybrid schemes for conservation law IV: 2D viscous flows and implicit algorithm for steady cases, A high-order vertex-based central ENO finite-volume scheme for three-dimensional compressible flows, A study on the numerical dissipation of the spectral difference method for freely decaying and wall-bounded turbulence, An analysis of and a comparison between the discontinuous Galerkin and the spectral finite volume methods, Spectral difference method for unstructured grids. II. Extension to the Euler equations, A class of high-order weighted compact central schemes for solving hyperbolic conservation laws, A multi-moment finite volume method for incompressible Navier-Stokes equations on unstructured grids: volume-average/point-value formulation, Adjoint-based error estimation and mesh adaptation for the correction procedure via reconstruction method, Partitions for spectral (finite) volume reconstruction in the tetrahedron, Implicit LU-SGS algorithm for high-order methods on unstructured grid with \(p\)-multigrid strategy for solving the steady Navier-Stokes equations, Curvature and entropy based wall boundary condition for the high-order spectral volume Euler solver, A high order spectral volume method for elastohydrodynamic lubrication problems: formulation and application of an implicit p-multigrid algorithm for line contact problems, Robust and accurate viscous discretization via upwind scheme. I: Basic principle, Discontinuous control-volume/finite-element method for advection-diffusion problems, CIP/multi-moment finite volume method for Euler equations: A semi-Lagrangian characteristic formulation, A multi-moment constrained finite volume method on arbitrary unstructured grids for incompressible flows, Dispersion and dissipation properties of the 1D spectral volume method and application to a \(p\)-multigrid algorithm, CFD contributions to high-speed shock-related problems: examples today and new features tomorrow, Any order spectral volume methods for diffusion equations using the local discontinuous Galerkin formulation, A new high-order finite volume method for 3D elastic wave simulation on unstructured meshes, On the stability and accuracy of the spectral difference method, A study of viscous flux formulations for a \(p\)-multigrid spectral volume Navier Stokes solver, Unstructured, curved elements for the two-dimensional high order discontinuous control-volume/finite-element method, A multi-moment finite volume formulation for the interaction between free surface flow and moving bodies with THINC method, A high-order entropically-damped artificial compressibility approach on moving and deforming domains, An operator-based local discontinuous Galerkin method compatible with the BSSN formulation of the Einstein equations, The compact and accuracy preserving limiter for high-order finite volume schemes solving compressible flows, Machine learning optimization of compact finite volume methods on unstructured grids, Compact high order finite volume method on unstructured grids. III: Variational reconstruction, Revisiting the spectral analysis for high-order spectral discontinuous methods, High order sub-cell finite volume schemes for solving hyperbolic conservation laws. II: Extension to two-dimensional systems on unstructured grids, Unified analysis of any order spectral volume methods for diffusion equations, The Multi-Moment Finite Volume Solver for Incompressible Navier-Stokes Equations on Unstructured Grids, A class of hybrid DG/FV methods for conservation laws. I: Basic formulation and one-dimensional systems, A class of hybrid DG/FV methods for conservation laws. II: Two-dimensional cases, Discontinuous Galerkin Methods for Time-Dependent Convection Dominated Problems: Basics, Recent Developments and Comparison with Other Methods, High-order adaptive quadrature-free spectral volume method on unstructured grids, LDG2: A variant of the LDG flux formulation for the spectral volume method, A New High-Order Compact Scheme of Unstructured Finite Volume Method, A unified framework for non-linear reconstruction schemes in a compact stencil. I: Beyond second order, \texttt{UCNS3D}: an open-source high-order finite-volume unstructured CFD solver, The direct discontinuous Galerkin (DDG) viscous flux scheme for the high order spectral volume method, High-resolution finite volume methods on unstructured grids for turbulence and aeroacoustics, A simple diffuse interface approach on adaptive Cartesian grids for the linear elastic wave equations with complex topography, Spectral (finite) volume method for conservation laws on unstructured grids. IV: Extension to two-dimensional systems., High-order multi-moment finite volume method with smoothness adaptive fitting reconstruction for compressible viscous flow, Compact high order finite volume method on unstructured grids. IV: Explicit multi-step reconstruction schemes on compact stencil, A new WENO based Chebyshev spectral volume method for solving one- and two-dimensional conservation laws, A \(P_N P_M-CPR \) framework for hyperbolic conservation laws, An accuracy and stability study of the 2D spectral volume method, A high order spectral volume solution to the Burgers' equation using the Hopf–Cole transformation, Demonstration of ultra hi-fi (UHF) methods, High-order finite volume methods and multiresolution reproducing kernels, On the connection between the spectral volume and the spectral difference method, A fifth-order nonlinear spectral difference scheme for hyperbolic conservation laws, High-order implicit large-eddy simulation of flow over a marine propeller, A Direct ALE Multi-Moment Finite Volume Scheme for the Compressible Euler Equations, An implicit LU-SGS spectral volume method for moment models in device simulations II: Accuracy studies and performance enhancements using the penalty and BR2 formulations, Efficient quadrature-free high-order spectral volume method on unstructured grids: theory and 2D implementation, Superconvergence of the local discontinuous Galerkin method for the linearized Korteweg-de Vries equation, Triangulation of \(p\)-order parametric surfaces, Fourier analysis for discontinuous Galerkin and related methods, Spectral (finite) volume method for conservation laws on unstructured grids. VI: Extension to viscous flow, A 4th-order and single-cell-based advection scheme on unstructured grids using multi-moments, An implicit high-order spectral difference approach for large eddy simulation, Spectral difference method for unstructured grids. I. Basic formulation, A spectral finite volume transport scheme on the cubed sphere, A new spectral difference method using hierarchical polynomial bases for hyperbolic conservation laws, Toward accurate simulation and analysis of strong acoustic wave phenomena-A review from the experience of our study on rocket problems, A simple weighted essentially non-oscillatory limiter for the correction procedure via reconstruction (CPR) framework on unstructured meshes, A unifying lifting collocation penalty formulation including the discontinuous Galerkin, spectral volume/difference methods for conservation laws on mixed grids, Hierarchical reconstruction for discontinuous Galerkin methods on unstructured grids with a WENO-type linear reconstruction and partial neighboring cells, A stability analysis for the spectral volume method on tetrahedral grids, Maximum principle and positivity-preserving high order spectral volume schemes with parametrized flux limiters for solving hyperbolic conservation laws, WENO schemes on unstructured meshes using a relaxed \textit{a posteriori} MOOD limiting approach, High order multi-moment constrained finite volume method. I: Basic formulation, Analysis of spectral volume methods for 1D linear scalar hyperbolic equations, An implicit LU-SGS spectral volume method for the moment models in device simulations: Formulation in 1D and application to a p-multigrid algorithm, VALIDATION AND APPLICATION OF AN HIGH-ORDER SPECTRAL DIFFERENCE METHOD FOR FLOW INDUCED NOISE SIMULATION, Compact multi-stage reconstruction method on polyhedral unstructured grids: extension to higher-order finite volume scheme, Low-Mach number treatment for finite-volume schemes on unstructured meshes, Extension of the spectral volume method to high-order boundary representation, Spectral (finite) volume method for conservation laws on unstructured grids V: Extension to three-dimensional systems, A novel high-order solver for simulation of incompressible flows using the flux reconstruction method and lattice Boltzmann flux solver, The spectral difference Raviart-Thomas method for two and three-dimensional elements and its connection with the flux reconstruction formulation, A simple weighted essentially non-oscillatory limiter for the correction procedure via reconstruction (CPR) framework

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