Large time step roe scheme for a common 1D two-fluid model
From MaRDI portal
Publication:2284656
DOI10.1016/j.apm.2016.12.010zbMath1443.76064OpenAlexW2563825920MaRDI QIDQ2284656
Tore Flåtten, Marin Prebeg, Bernhard Müller
Publication date: 15 January 2020
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/11250/2463112
Related Items (5)
High-resolution large time-step schemes for inviscid fluid flow ⋮ Second-order large time step wave adding scheme for hyperbolic conservation laws ⋮ Large time step HLL and HLLC schemes ⋮ A large time step explicit scheme (\(\mathrm{CFL}>1\)) on unstructured grids for 2D conservation laws: application to the homogeneous shallow water equations ⋮ Large time step wave adding scheme for systems of hyperbolic conservation laws
Cites Work
- A 2D extension of a large time step explicit scheme \((\mathrm{CFL}>1)\) for unsteady problems with wet/dry boundaries
- A class of large time step Godunov schemes for hyperbolic conservation laws and applications
- Weak solutions for partial differential equations with source terms: application to the shallow water equations
- Comparison of Roe-type methods for solving the two-fluid model with and without pressure relaxation
- Approximate Riemann solvers, parameter vectors, and difference schemes
- Balancing source terms and flux gradients in high-resolution Godunov methods: The quasi-steady wave-propagation algorithm
- A density perturbation method to study the eigenstructure of two-phase flow equation systems
- Upwind methods for hyperbolic conservation laws with source terms
- Hybrid flux-splitting schemes for a common two-fluid model
- Stable and accurate hybrid finite volume methods based on pure convexity arguments for hyperbolic systems of conservation law.
- High-resolution hybrid primitive-conservative upwind schemes for the drift flux model.
- Combining discrete equations method and upwind downwind-controlled splitting for non-reacting and reacting two-fluid computations: one dimensional case
- Rankine-Hugoniot-Riemann solver for steady multidimensional conservation laws with source terms
- An approximate linearized Riemann solver for a two-fluid model
- A large time step 1D upwind explicit scheme (CFL\(>1\)): application to shallow water equations
- Large Time Step TVD Schemes for Hyperbolic Conservation Laws
- Partially-reflecting boundary conditions for transient two-phase flow
- Analysis of a 1D incompressible two-fluid model including artificial diffusion
- A large Time Step Generalization of Godunov’s Method for Systems of Conservation Laws
- Convergence of a large time step generalization of Godunov's method for conservation laws
- Large Time Step Shock-Capturing Techniques for Scalar Conservation Laws
- On finite-difference approximations and entropy conditions for shocks
- Finite Volume Methods for Hyperbolic Problems
- Extension of an explicit finite volume method to large time steps (CFL>1): application to shallow water flows
- On the construction of upwind schemes for non-equilibrium transient two-phase flows
This page was built for publication: Large time step roe scheme for a common 1D two-fluid model
