SU1088086A1 - Device for producing glow discharge under atmospheric pressure - Google Patents

Abstract

A device for producing glowing discharges at atmospheric pressure, containing an anode and an electrolytic cell with a flat current lead, characterized in that, in order to increase the stability of the glowing dis- charge at long interelectrode distances, a dielectric circuit between the anode and the electrical element and the circuit, a dielectric circuit between the anode and the one, and a dielectric circuit with a die-wedge element, a dielectric circuit between the anode and the electrolyte discharger is installed and the dielectric circuitry is set up; the surrounding anode is cylindrical, with the inner diameter of the screen D and the diameter of ano g and yes dg chosen from the inequality of 0.2 djj / D 06. (L

Description

The invention relates to applied gas electronics and plasma technology and can be used to obtain a volume glow discharge at atmospheric pressure over a wide range of interelectrode distances.

Known devices for producing an electric discharge with a liquid cathode at atmospheric pressure, which contain an anode in the form of a solid and an electrolytic cell [Ί].

A drawback of these devices is a narrow range of values of uncontrolled currents and interelectrode distances. A device is also known that contains an anode and an electrolytic cell with a flat current lead. At the bottom of the electrolytic cell, filled with a 13% NaCl solution, there is a metal plate. The voltage from the power supply 2 is applied to the electrodes.

The disadvantages of this device is that the electric discharge burns at small interelectrode distances of the order of 10 ' ^e m, in this connection the practical use of the device is limited; the anode and current spots and the volume occupied by the intermediate column of the discharge are small, natural convection leads to contraction of the discharge and its transition to the arc at large interelectrode distances, as well as the fact that only the electrolyte (saturated and of a certain concentration) serves as the liquid cathode )

The aim of the invention is to increase the stability of a glow discharge at large interelectrode distances at atmospheric pressure.

This goal is achieved by the fact that in the device for producing a glow discharge at atmospheric pressure, containing an anode and an electrolytic cell with a flat current lead, a dielectric cylindrical screen is installed between the anode and the cell and one of its ends enters the electrolytic cell, and the other the surrounding anode made cylindrical, and the inner diameter of the screen D ₉ and the diameter of the anode dq selected from the ratio of 0.2 <th _a / OeAO, 6.

The drawing shows a device for producing a glow discharge at 55 atmospheric pressure.

iCyIPI Order 2683/50

Branch 'ppP' ^and Patevt ^and , Uzhgorod, Project street, 4 capo30

The device comprises an anode 1 and an electrolytic cell 2 (cathode). The electrolytic cell 2 (cathode) ^{g is} filled with distilled or industrial water 3 (electrolyte). At the bottom of the cell is a metal plate 4. A high-voltage power supply is connected directly to the electrodes. A dielectric screen 5 is installed between the anode 1 and the cell 2, restricting free convection and entering the electrolytic cell 2 at the other end.

The device operates as follows.

I

An electric discharge is ignited between the anode and the liquid cathode. By regulating the voltage, sets the current value? 40 mA, which corresponds to a stable mode of operation. The exhaust gases are removed to the atmosphere. The device also works when changing the polarity of the electrodes to the reverse and powered by an AC source.

The installation between the anode and the electric cell of the dielectric screen restricting free convection and the other end entering the electrolytic cell, allows to obtain a volumetric stable glow discharge at large interelectrode distances and atmospheric pressure. ..

Experimental studies in the range of changing the diameter of the screen 0 $ 5-50 mm, interelectrode distance 10-100 mm, depth 1c of immersion of the anode in a dielectric screen 0-70 mm, depth of immersion of the dielectric screen in an electrolytic cell 0-30 mm, distance 1c between the anode and the upper boundary of the screen is 0-30 mm and the diameter d _{a of the} anode is 5-20 mm, it was shown that the glow discharge stably burns at 3> 40 mA in the entire range of parameters. In the community, this value is 7 mm. The values of the diameter of the discharge and the interelectrode gap reached by the device are not limiting. During testing, they were limited by the capabilities of the experimental setup.

Circulation 683 Subscription of the known device composes everything in the proposed

Claims (1)

DEVICE FOR PRODUCING A Glow DISCHARGE AT ATMOSPHERIC PRESSURE, containing an anode and an electrolytic cell with a flat current supply, characterized in that, in order to increase the stability of the glow discharge at large interelectrode distances, a cylindrical dielectric screen is installed between the anode and the electrolytic cell at one end cell, and another surrounding the anode, made cylindrical, and the inner diameter of the screen D _? and ano diameter ”yes d _a selected from the inequality 0.2 <djj / D