Add to ORKGIn this paper, we report on a 2D axissymmetric numerical model of the streamer-type discharge process in atmospheric air, as it can be implemented into COMSOL Multiphysics. Thecharge conserving Boltzmann drift-diffusion equations are solved in a logarithmic representation for improved numerical stability, whilst reducing the need for artificial diffusion terms. A charge density adaptive mesh is utilized and the calculation domain is reduced to therelevant dimensions for improved numerical performance. The calculation domain for the Poisson-equation is spatially extended as appropriate to the physical boundary conditions.Results of the so obtained numerical simulations of a nanosecond discharge are analyzed and compared with previously publi...
International audienceTo find a viable alternative to SF6 with growing climate change regulations, p...
The implementation of a drift-diffusion model of discharges in air utilizing stabilized logarithmic ...
Fundamental processes in low-temperature non-equilibrium gas discharges are briefly reviewed. Basic ...
We discuss spatially and temporally adaptive implicit-explicit (IMEX) methods for parallel simulatio...
Streamer front propagation involves steep gradients in charge density and electric field. Since the ...
Streamer electrical discharges are often investigated with computer simulations of density models (a...
Implementation of a drift-diffusion model of an electrical streamer discharge in air is presented. N...
Support of Ecole Centrale Paris is gratefully acknowledged for several month stay of Z. Bonaventura ...
We present an open-source plasma fluid code for 2D, cylindrical and 3D simulations of streamer disch...
Streamer discharges are fast-moving plasma fronts which can be formed in gases stressed with a suffi...
Development of non-axial streamer discharges in air between disc-electrodes is studied. Discharge in...
Abstract. The improved finite-element flux-corrected transport method (FE-FCT), developed by the aut...
We present the results of two-dimensional computer simulations of streamer initiation and propagatio...
International audienceTo find a viable alternative to SF6 with growing climate change regulations, p...
The implementation of a drift-diffusion model of discharges in air utilizing stabilized logarithmic ...
Fundamental processes in low-temperature non-equilibrium gas discharges are briefly reviewed. Basic ...
We discuss spatially and temporally adaptive implicit-explicit (IMEX) methods for parallel simulatio...
Streamer front propagation involves steep gradients in charge density and electric field. Since the ...
Streamer electrical discharges are often investigated with computer simulations of density models (a...
Implementation of a drift-diffusion model of an electrical streamer discharge in air is presented. N...
Support of Ecole Centrale Paris is gratefully acknowledged for several month stay of Z. Bonaventura ...
We present an open-source plasma fluid code for 2D, cylindrical and 3D simulations of streamer disch...
Streamer discharges are fast-moving plasma fronts which can be formed in gases stressed with a suffi...
Development of non-axial streamer discharges in air between disc-electrodes is studied. Discharge in...
Abstract. The improved finite-element flux-corrected transport method (FE-FCT), developed by the aut...
We present the results of two-dimensional computer simulations of streamer initiation and propagatio...
International audienceTo find a viable alternative to SF6 with growing climate change regulations, p...
The implementation of a drift-diffusion model of discharges in air utilizing stabilized logarithmic ...
Fundamental processes in low-temperature non-equilibrium gas discharges are briefly reviewed. Basic ...