Towards a more accurate flux corrected transport algorithm
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Publication:1820649
DOI10.1016/0021-9991(87)90048-9zbMath0614.76116OpenAlexW2084998371MaRDI QIDQ1820649
Publication date: 1987
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/0021-9991(87)90048-9
diffusionfirst-order hyperbolic equationsneutral gasflux corrected transport techniquesionization growthionized regionpropagation of ionizing potential waves
Ionized gas flow in electromagnetic fields; plasmic flow (76X05) Basic methods in fluid mechanics (76M99)
Related Items (6)
A stabilized finite element method for modeling of gas discharges ⋮ Flow field topology of transient mixing driven by buoyancy ⋮ Particle-in-cell simulation of electrical gas discharges ⋮ Propagator methods for plasma simulations: application to breakdown ⋮ A PIC based procedure for the integration of multiple time scale problems in gas discharge physics ⋮ Solving the Navier-Stokes systems with weak viscosity and strong heat conduction using the flux-corrected transport technique and the alternating-directional explicit method
Cites Work
- Fully multidimensional flux-corrected transport algorithms for fluids
- Direct solution of Poisson's equation in cylindrically symmetric geometry: A fast algorithm
- The piecewise parabolic method (PPM) for gas-dynamical simulations
- A second-order Godunov-type scheme for compressible fluid dynamics
- High-order upwind flux correction methods for hyperbolic conservation laws
- The numerical simulation of two-dimensional fluid flow with strong shocks
- Flux-corrected transport. III: Minimal-error FCT algorithms
- Towards the ultimate conservative difference scheme. IV: A new approach to numerical convection
- Flux-corrected transport. I: SHASTA, a fluid transport algorithm that works
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