On the accuracy and reliability of different fluid models of the direct current glow discharge

Rafatov, İsmail; Bogdanov, E. A.; Kudryavtsev, A. A.

doi:10.1063/1.3688875

Cited by 74 publications

(63 citation statements)

References 25 publications

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“…In the present work, the commercial finite element partial differential equation solver COMSOL Multi-physics a) Electronic mail: kellys77@mail.dcu.ie (version 4.3a) 20 is used to find a mutually consistent solution for the reacting gas flow (which is assumed to be laminar) and the plasma discharge 6,20 . Initially, mass and momentum continuity equations (compressible Navier-Stokes) are coupled to a mass transport equation and solved in a steady state manner for a profile of the helium-air mixture.…”

Section: Model Descriptionmentioning

confidence: 99%

Atomic oxygen patterning from a biomedical needle-plasma source

Kelly

Turner

2013

Journal of Applied Physics

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A "plasma needle" is a cold plasma source operating at atmospheric pressure. Such sources interact strongly with living cells, but experimental studies on bacterial samples show that this interaction has a surprising pattern resulting in circular or annular killing structures. This paper presents numerical simulations showing that this pattern occurs because biologically active reactive oxygen and nitrogen species are produced dominantly where effluent from the plasma needle interacts with ambient air. A novel solution strategy is utilised coupling plasma produced neutral(uncharged) reactive species to the gas dynamics solving for steady state profiles at the treated biological surface. Numerical results are compared with experimental reports corroborating evidence for atomic oxygen as a key bactericidal species. Surface losses are considered for interaction of plasma produced reactants with reactive solid and liquid interfaces. Atomic oxygen surface reactions on a reactive solid surface with adsorption probabilities above 0.1 are shown to be limited by the flux of atomic oxygen from the plasma. Interaction of the source with an aqueous surface showed hydrogen peroxide as the dominant species at this interface.

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Section: Model Descriptionmentioning

confidence: 99%

Atomic oxygen patterning from a biomedical needle-plasma source

Kelly

Turner

2013

Journal of Applied Physics

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“…Chemical kinetics models for low-temperature plasma generation span a very wide range of complexity, from the detailed description by Elisson et al [23], Bogdanov et al [30] to simplified approximations by Solov'ev et al [31], Singh et al [32], Pancheshnyi et al [33], and Rafatov et al [34]. All these approaches are rational and the fidelity to physics in computational simulation for non-equilibrium chemical reactions is solely dependent on the empirical rate constants.…”

Section: Plasma Modeling By Chemical Kineticsmentioning

confidence: 99%

Modeling Plasma via Electron Impact Ionization

Shang

2018

Aerospace

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Variable and potential plasma applications in aerospace engineering are exemplified by ion thrusters, flow control by plasma actuator, enhanced ignition and combustion stability. The operational environments span a range from the rarefied to continuum gasdynamic regimes; however, the ionization process in practical applications is mostly by electron impact. The fundamental ionization mechanisms by electron impact consist of electron secondary mission and the cascading process. In an alternating electric field, unsteady and random micro discharges or streamers are always presented; therefore the discharge physics imposes a formidable challenge for incisive understanding. Meanwhile, the ionized species constitute hundreds of metastable chemical species; under this circumstance the physics-based modeling for analyzing the inhomogeneous medium becomes necessary. A summary of the physics-based modeling for electron impact ionization from the Boltzmann distribution equation to the inelastic particle kinetics formulation is delineated.

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“…Within the fluid method, the particle species (electrons, ions, and neutrals) are considered as fluids described by the continuity equations with drift-diffusion approximation for particle fluxes. Fluid models usually employ a local field approximation (LFA), according to which transport coefficients as well as the ionization rate are determined as functions of the reduced electric field [3,4,5]. Fluid methods in general are capable to describe basic qualitative properties of plasma.…”

Section: Introductionmentioning

confidence: 99%

Two-dimensional hybrid model for a glow discharge: comparison with fluid and kinetic (particle) models, reliability and accuracy

Eylenceoǧlu¹,

Rafatov²

2014

J. Phys.: Conf. Ser.

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View the article online for updates and enhancements. Two-dimensional hybrid model for a glow discharge: comparison with fluid and kinetic (particle) models, reliability and accuracy E Eylenceoglu and I RafatovMiddle East Technical University, Ankara, Turkey E-mail: eender@metu.edu.trAbstract. We developed and tested a two-dimensional Monte Carlo -fluid hybrid numerical code for the DC glow discharge simulations. The model is based on the separation of electrons into two parts, namely, the low energetic (slow) and high energetic (fast) groups. Ions and slow electrons are described within the fluid model using the drift-diffusion approximation for particle fluxes. Electrostatic field is obtained from the solution of Poisson equation. Fast electrons, represented by the appropriate number of super particles emitted from the cathode, are responsible for ionization processes in the discharge volume. Test calculations were carried out for the argon plasma. The vortex current formation in a DC discharge is observed in the case of rectangular geometry.

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On the accuracy and reliability of different fluid models of the direct current glow discharge

Cited by 74 publications

References 25 publications

Atomic oxygen patterning from a biomedical needle-plasma source

Atomic oxygen patterning from a biomedical needle-plasma source

Modeling Plasma via Electron Impact Ionization

Two-dimensional hybrid model for a glow discharge: comparison with fluid and kinetic (particle) models, reliability and accuracy

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