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Article Dans Une Revue Journal of Physics D: Applied Physics Année : 2010

Simulation of the discharge propagation in a capillary tube in air at atmospheric pressure

Résumé

This paper presents simulations of an air plasma discharge at atmospheric pressure initiated by a needle anode set inside a dielectric capillary tube. We have studied the influence of the tube inner radius and its relative permittivity ε r on the discharge structure and dynamics. As a reference, we have used a relative permittivity ε r = 1 to study only the influence of the cylindrical constraint of the tube on the discharge. For a tube radius of 100 µm and ε r = 1, we have shown that the discharge fills the tube during its propagation and is rather homogeneous behind the discharge front. When the radius of the tube is in the range 300 to 600 µm, the discharge structure is tubular with peak values of electric field and electron density close to the dielectric surface. When the radius of the tube is larger than 700 µm, the tube has no influence on the discharge which propagates axially. For a tube radius of 100 µm, when ε r increases from 1 to 10, the discharge structure becomes tubular. We have noted that the velocity of propagation of the discharge in the tube increases when the front is more homogeneous and then, the discharge velocity increases with the decrease of the tube radius and ε r. Then, we have compared the relative influence of the value of tube radius and ε r on the discharge characteristics. Our simulations indicate that the geometrical constraint of the cylindrical tube has more influence than the value of ε r on the discharge structure and dynamics. Finally, we have studied the influence of photoemission processes on the discharge structure by varying the photoemission coefficient. As expected, we have shown that photoemission, as it increases the number of secondary electrons close to the dielectric surface, promotes the tubular structure of the discharge.
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Dates et versions

hal-00569716 , version 1 (25-02-2011)

Identifiants

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Jaroslav Jánsky, Fabien Tholin, Zdeněk Bonaventura, Anne Bourdon. Simulation of the discharge propagation in a capillary tube in air at atmospheric pressure. Journal of Physics D: Applied Physics, 2010, 43 (39), pp.395201. ⟨10.1088/0022-3727/43/39/395201⟩. ⟨hal-00569716⟩
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