RU182472U1 - GAS CLEANING DEVICE - Google Patents

Abstract

The utility model relates to devices for the electrophysical purification of polluted atmospheric air from nitrogen, sulfur and carbon dioxide in enclosed spaces, industrial facilities and in places where there is a need to purify and disinfect the air with ozonation and creating a healthy microclimate. The technical result is to reduce energy costs for the cleaning process gas environments due to the uniform distribution of streamer channels over the volume of the ionized region when used as od one of the electrodes of the nickel single crystal, as well as changes in the design of the electrode system while maintaining the efficiency of the device. The technical result is achieved by the fact that in the device for cleaning gas media containing a pulsed high voltage source, to the positive and negative poles of which are connected respectively the positive and negative electrodes located from each other at a distance of 10 ÷ 50 microns, placed in a dielectric reaction chamber having an input channel for supplying a gaseous medium, contamination harmful impurities placed on the side of the negative electrode and the outlet channel of the cleaned gas medium, while a choke is located between the positive and negative electrodes, according to this utility model, the positive electrode is made in the form of a nickel single crystal plate surrounded by a metal grid, and the negative electrode is made in in the form of a metal mesh with perpendicularly installed electrically conductive needles with the possibility of regulation along the length (telescopic needles).

Description

The utility model relates to devices for the electrophysical purification of polluted atmospheric air from nitrogen, sulfur and carbon dioxide in enclosed spaces, industrial facilities and in places where there is a need to clean and disinfect air with ozonation and the creation of a healthy microclimate.

The prototype is a device for cleaning gas environments (patent RU 170188 from 04/18/2017). The device for cleaning gas media contains a high voltage source (5 ÷ 15 kV), to the positive and negative poles of which are connected the positive and negative electrodes, respectively, placed in a dielectric reaction chamber having an input channel for supplying a gas medium contaminated with harmful impurities and an output channel for a purified gas medium . The negative electrode is made in the form of a needle with the possibility of regulation along the length, and a choke is located between the positive and negative electrodes.

The main disadvantage of the prototype is the uneven distribution of streamer channels over the volume of the ionized region.

The objective of the utility model is to develop a device for cleaning gas environments, which eliminated the disadvantages of the prototype.

The technical result is the reduction of energy costs for the process of cleaning gas media due to the uniform distribution of streamer channels over the volume of the ionized region when using nickel single crystal as one of the electrodes.

The technical result is achieved by the fact that the device for cleaning gas media containing a pulsed high voltage source, to the positive and negative poles of which are connected respectively the positive and negative electrodes located from each other at a distance of 10 ÷ 50 μm, placed in a dielectric reaction chamber having an input channel the supply of a gaseous medium contaminated with harmful impurities, placed on the side of the negative electrode, and the outlet channel of the cleaned gaseous medium, while between The throttle is located with the solid and negative electrodes, according to the present utility model, the positive electrode is made in the form of a nickel single crystal plate surrounded by a metal grid, and the negative electrode is made in the form of a metal grid with perpendicularly mounted electrically conductive needles with adjustable length (telescopic needles).

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a structural diagram of the proposed device for cleaning gas environments. In FIG. 2 shows graphs of the concentration of SO ₂ from the energy input for the prototype and the proposed device. In FIG. 3 and FIG. 4 shows photographs of the ionized interelectrode space for the prototype and the proposed device, respectively.

In FIG. 1 numbers indicate:

1. high voltage source;

2. positive electrode;

3. negative electrode;

4. dielectric reaction chamber;

5. input channel;

6. output channel;

7. throttle;

8. telescopic needles;

9. Nickel single crystal plate.

In FIG. 2 numbers indicate:

12. the dependence of the concentration of SO ₂ from the energy input for the prototype;

13. the dependence of the concentration of SO ₂ from the energy input for the proposed device.

The device for cleaning gaseous media contains a high voltage source 1 (5 ÷ 15 kV), to the positive and negative poles of which are connected the positive 2 and negative 3 electrodes, respectively, placed in the dielectric reaction chamber 4, which has an input channel 5 for supplying a gaseous medium contaminated with harmful impurities, the outlet channel 6 of the cleaned gas medium, between the electrodes 2 and 3 there is a choke 7.

The difference of the proposed device is that the negative electrode 3 is made in the form of a metal grid with perpendicularly mounted electrically conductive needles with the possibility of regulation along the length (telescopic needles 8), and the positive electrode 2 is made in the form of a nickel single crystal plate 9 surrounded by a metal grid.

A device for cleaning gas environments works as follows.

The device allows for a high degree of purification of gaseous media from nitrogen, sulfur and hydrocarbon dioxides with ozonation of atmospheric air in an inhomogeneous electric field of a streamer discharge with a high voltage source of 1 (5 ÷ 15 kV).

The gas flow from the room is sucked in by a compressor (not shown conventionally in the drawing), then it enters the dielectric reaction chamber 4 from the side of the negative electrode 3 through the inlet channel 5 and exits through the outlet channel 6.

The operation of the inductor 7 leads to a natural decrease in temperature in the dielectric reaction chamber 4.

Due to the electrode system, the metal grid of the positive electrode 2 with the nickel single crystal plate 9 and the metal grid with perpendicularly mounted electrically conductive needles 8 of the negative electrode 3 provides an inhomogeneous electric field with an average voltage of 12 kV / cm with a uniform distribution of streamer channels over the volume of the ionized region, which allows to reduce energy costs for the process of cleaning gas environments.

As a result of experimental tests, it was found that the concentration of SO ₂ is reduced when using the proposed device in comparison with the prototype while maintaining the energy input (Fig. 2).

Using the above-described device, the optimal modes of purification of gaseous media from nitrogen, sulfur, and carbon dioxide in the field of the streamer discharge without transition to the spark stage were determined, and a uniform distribution of streamer channels over the volume of the ionized region was recorded in comparison with the prototype (Fig. 3, 4) .

Thus, the advantage of the proposed device is the reduction of energy costs for the process of purification of gaseous media due to the uniform distribution of streamer channels over the volume of the ionized region when nickel is used as one of the electrodes.

Claims (1)

A device for cleaning gaseous media containing a high-voltage pulse source, to the positive and negative poles of which are connected positive and negative electrodes located at a distance of 10 ÷ 50 μm, placed in a dielectric reaction chamber having an input channel for supplying a gaseous medium contaminated with harmful impurities placed on the side of the negative electrode, and the output channel of the cleaned gas medium, while between the positive and negative electrodes are located a choke is used, characterized in that the positive electrode is made in the form of a nickel single crystal plate surrounded by a metal grid, and the negative electrode is made in the form of a metal grid with perpendicularly mounted electrically conductive needles with the possibility of adjustment along the length (telescopic needles).

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