A domain decomposition method for three species modeling of multielectrode negative corona discharge with applications to electrostatic precipitators
Artikel i vetenskaplig tidskrift, 2015

The negative corona discharge problem for multi-electrode geometries is modeled by a three species model. The equations are solved using domain decomposition, by recognizing that multiple species are only present in a small part of the domain, and hence only need to be incorporated locally in the model. The method is applied to an industrially relevant three wire electrostatic precipitator geometry. The calculated current density is in good agreement with experimental data. To further illustrate applications of the three species solution, it is used for coupled particle, fluid, and electrostatic simulations to analyze particle collection properties.

Three species model

Domain decomposition

Finite volume discretization

Electrostatic precipitator

Negative corona discharge

Secondary emission


Benjamin Svedung Wettervik

Chalmers, Fundamental fysik

Tomas Johnson

Stefan Jakobsson

Fredrik Edelvik

Chalmers, Produkt- och produktionsutveckling

Journal of Electrostatics

0304-3886 (ISSN)

Vol. 77 139-146





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