Numerical simulation of filamentary discharges with parallel adaptive mesh refinement
From MaRDI portal
Publication:933326
DOI10.1016/j.jcp.2008.03.020zbMath1144.76040OpenAlexW2080487263MaRDI QIDQ933326
Publication date: 21 July 2008
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2008.03.020
Lua error in Module:PublicationMSCList at line 37: attempt to index local 'msc_result' (a nil value).
Related Items (12)
Multi-scale two-domain numerical modeling of stationary positive DC corona discharge/drift-region coupling ⋮ A PDE-based partial discharge simulator ⋮ Afivo: a framework for quadtree/octree AMR with shared-memory parallelization and geometric multigrid methods ⋮ Towards adaptive kinetic-fluid simulations of weakly ionized plasmas ⋮ Density models for streamer discharges: beyond cylindrical symmetry and homogeneous media ⋮ A new numerical strategy with space-time adaptivity and error control for multi-scale streamer discharge simulations ⋮ Spatially hybrid computations for streamer discharges. II: Fully 3D simulations ⋮ Jacobian-free Newton-Krylov method for the simulation of non-thermal plasma discharges with high-order time integration and physics-based preconditioning ⋮ Simulation of planar ionization wave front propagation on an unstructured adaptive grid ⋮ An adaptive Cartesian embedded boundary approach for fluid simulations of two- and three-dimensional low temperature plasma filaments in complex geometries ⋮ Numerical Simulations for the Quasi-3D Fluid Streamer Propagation Model: Methods and Applications ⋮ A numerical strategy to discretize and solve the Poisson equation on dynamically adapted multiresolution grids for time-dependent streamer discharge simulations
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- An adaptive grid refinement strategy for the simulation of negative streamers
- A stable and accurate convective modelling procedure based on quadratic upstream interpolation
- The ULTIMATE conservative difference scheme applied to unsteady one- dimensional advection
- PARAMESH: A parallel adaptive mesh refinement community toolkit
- The nirvana scheme applied to one‐dimensional advection
- Flux-corrected transport. I: SHASTA, a fluid transport algorithm that works
This page was built for publication: Numerical simulation of filamentary discharges with parallel adaptive mesh refinement
