Archivio Istituzionale della RicercaA computational model based on fractional step methods for solving DBD discharge plasma kinetics is presented. Governing equations consist of continuity equations of charged particles in drift diffusion approximation, as well as Poisson equation for self-consistent electric field. We used a Strang splitting procedure for temporal discretization, in order to decouple drift and diffusion effects from chemical production ones. Fluxes of charged particles are discretized in space by Scharfetter Gummel scheme. We verify consistency of our numerical approach by discussing its convergence in time. Obtained solutions are benchmarked with results present in literature. Samples of numerical experiments of DBD discharge in pure nitrogen at atmospherical pressure, under different power supply types (DC and Gaussian pulse voltages) are shown.
High-order accurate implicit scheme for drift-diffusion equations and application to dielectric barrier discharges / Arpa, Rocco; D'Ambrosio, Domenic. - STAMPA. - (2009). (Intervento presentato al convegno 40TH AIAA PLASMADYNAMICS AND LASERS CONFERENCE tenutosi a SAN ANTONIO, TX (USA) nel 22-25 GIUGNO 2009).
High-order accurate implicit scheme for drift-diffusion equations and application to dielectric barrier discharges
ARPA, ROCCO;D'AMBROSIO, Domenic
2009
Abstract
A computational model based on fractional step methods for solving DBD discharge plasma kinetics is presented. Governing equations consist of continuity equations of charged particles in drift diffusion approximation, as well as Poisson equation for self-consistent electric field. We used a Strang splitting procedure for temporal discretization, in order to decouple drift and diffusion effects from chemical production ones. Fluxes of charged particles are discretized in space by Scharfetter Gummel scheme. We verify consistency of our numerical approach by discussing its convergence in time. Obtained solutions are benchmarked with results present in literature. Samples of numerical experiments of DBD discharge in pure nitrogen at atmospherical pressure, under different power supply types (DC and Gaussian pulse voltages) are shown.
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https://hdl.handle.net/11583/2290512
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