Adaptive Numerical Simulation of Streamer Propagation in Atmospheric Air
Paper in proceeding, 2013
In 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. The
charge 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 the
relevant 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 published experimental data.
adaptive meshing
streamer propagation
logarithmic formulation
numerical simulation
Author
Shailendra Singh
Chalmers, Materials and Manufacturing Technology, High Voltage Engineering
Yuriy Serdyuk
Chalmers, Materials and Manufacturing Technology, High Voltage Engineering
Raimund Summer
Proc. Comsol Conference, Oct. 23-25, 2013, Rotterdam, The Netherlands
978-0-9910001-5-9 (ISBN)
Areas of Advance
Energy
Subject Categories
Other Electrical Engineering, Electronic Engineering, Information Engineering
ISBN
978-0-9910001-5-9