Publication: Dielectric barrier discharge in radially converging gas flow generating two coaxial and opposite directed nonthermal plasma jets
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2020
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© 2020 Institute of Physics Publishing. All rights reserved.An original source of non-equilibrium low-temperature plasma jets based on a barrier discharge in a radially converging flow of atomic and molecular gases at atmospheric pressure was developed and created. The discharge electrode system consists of two parallel and coaxial quartz disks, in the geometric center of those two coaxial identical holes were made. On the outer side of each disk a metal foil in the form of a wide ring is glued coaxially to the holes. The gas flow is directed from the periphery of the disks to their center and exits normally to the disks surfaces through narrow holes. As a result, two coaxial and opposite directed plasma jets are formed, which are perpendicular to the disks. There are no analogs of the developed source in literature. The source has been tested for plasma treatment of dielectric yarns that are transported through holes in dielectric barriers and are constantly enveloped in plasma jets. The results show practical possibility of using the developed gas-discharge source for continuous "roll-to-roll" plasma treatment of polymer filaments with the aim to improve their hydrophilicity.
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Petryakov, A. V. Dielectric barrier discharge in radially converging gas flow generating two coaxial and opposite directed nonthermal plasma jets / Petryakov, A.V., Trushkin, N.I., Akishev, Y.S. // Journal of Physics: Conference Series. - 2020. - 1698. - № 1. - 10.1088/1742-6596/1698/1/012019