RU91009U1 - GAS DISCHARGE UNIT FOR GAS CLEANING - Google Patents

Abstract

1. The gas-discharge unit of the gas treatment plant, containing gas-discharge pairs of electrodes, characterized in that one of the electrodes of the gas-discharge pair is made bilateral in the form of a plate made of glass or ceramic, inside which a conductor and at least one current lead connecting the conductor are placed with an external current source, while the ratio of the width and length of the plate is in the range from 1: 1 to 1: 5, and the field of the plate free from the conductor along its perimeter has a width from the edge of the plate to the conductor, w from 0.02 to 0.08 the width of the plate. ! 2. A gas-discharge unit of a gas purification installation containing gas-discharge pairs of electrodes, characterized in that one of the electrodes of the gas-discharge pair is made bilateral in the form of a plate made of glass or ceramic, inside which a conductor and at least one current lead connecting the conductor are placed with an external current source, while the ratio of the width and length of the plate is in the range from 1: 1 to 1: 5, the field of the plate free from the conductor and the current guide along its perimeter has a width from the edge of the plate to the conductor, with representing from 0.02 to 0.08 the width of the plate itself, and the width of the field of the plate in which the current lead is placed has an extension with respect to the rest of the plate field, made in the form of a polygonal or curved protrusion.

Description

The claimed technical solution relates to systems for gas-catalytic, gas-discharge, plasma, barrier and other types of electric cleaning of gases and air, and is intended for use in residential and industrial premises, in particular, to remove harmful gaseous substances of organic nature from ventilation and technological emissions, for purification of chemically aggressive and moist gases used in non-ferrous, ferrous metallurgy, oil refining, petrochemical and other industries to remove I residual concentrations and odorous substances in the production of, for example, tobacco products or smoking, is designed to clean and sterilize the supply air from odors and gases, from pathogenic microflora in office premises, in food production, canning, brewing, etc.

A known electrostatic precipitator for cleaning air from dust, comprising a housing, sections with plate electrodes installed in the grooves of the clips, and a high voltage source, while the plate electrodes are made in the form of flat springs installed with a deflection (patent for invention No. 1200986, publication date 30.12.85 , MPK4 V03C 3/40, “An electrostatic precipitator for cleaning dust from air”).

The disadvantage of the analogue is that the surfaces of the metal electrodes are very quickly covered with a layer of dirt released from the cleaned air, dirt particles adhere to the metal surfaces and are difficult to remove from them, thereby drastically reducing the efficiency of air cleaning.

Known gas-discharge unit of the installation for gas purification, comprising a housing, inside of which at least one compartment is installed with electrodes located in each of them, forming discharge pairs, as well as a power source, while one of the electrodes of each of the discharge pairs is placed inside the glass layer, as a power source, a power supply with an output voltage of 5000-20000 Vis was used with a frequency of 50-9000 Hz., and the second electrode of each of the discharge pairs is made in the form of a wire mesh with spikes perpendicular to it (p Awning Utility Model №40013, MPK7 V03S 3/02, publication date 27.08.2004, "Installation for the purification of gases and gas discharge setting unit for scrubbing").

Despite the fact that in this device one of the electrodes of each of the discharge pairs is placed inside the glass layer, increasing their reliability, however, the arbitrarily chosen sizes of the electrodes used led to breakdowns of the electrode insulator and the current lead electrical insulation.

The objective of the proposed technical solution is to increase the efficiency of the gas-discharge unit by improving the quality and increasing the reliability of its gas-discharge pair.

The problem is solved due to the fact that in the gas-discharge unit of the gas treatment plant one of the electrodes of the gas-discharge pair is made in the form of a plate made of glass or ceramic, inside which there is a conductor and at least one current lead connecting the conductor to an external current source, the ratio of the width and length of the plate is in the range from 1: 1 to 1: 5, and the plate-free field of the plate along its perimeter has a width, from the plate edge to the conductor, of 0.02 to 0.08 of the width of the Astina.

The problem is also solved due to the fact that in the gas-discharge unit of the gas treatment plant one of the electrodes of the gas-discharge pair is made in the form of a plate made of glass or ceramic, inside which there is a conductor and at least one current lead connecting the conductor to an external current source while the ratio of the dimensions of the width and length of the plate is in the range from 1: 1 to 1: 5; the field of the plate free from the conductor and the current guide along its perimeter has a width, from the edge of the plate to the conductor, comprising from 0.02 to 0.08 the width of the plate itself, and the width of the field of the plate in which the current lead is placed has an extension with respect to the rest of the plate field made in the form of a polygonal or curved protrusion.

The plate made of glass or ceramic, inside which a conductor and current lead is placed, is a two-sided flat electrode, which allows simultaneous interaction with two response electrodes of gas-discharge pairs, made in the form of a metal grid with spikes perpendicular to it, which ensures work efficiency and increases layout density of the gas discharge unit.

The implementation of the plate of a double-sided electrode made of glass or ceramic increases the durability of the product, since the conductor placed between the layers of such an insulator is protected from contact with an external contaminated gaseous medium, without being subjected to electroerosion and electrocorrosion.

The implementation of one of the electrodes of a gas-discharge pair in the form of a plate made of glass or ceramic, inside which a conductor and a current lead are placed, provides an increase in the volume of generated electric discharges, thereby increasing the amount of created ozone required for air purification.

The implementation of the electrode in the form of a glass or ceramic plate, the ratio of the width and length of which is from 1: 1 to 1: 5, provides a uniform distribution of discharges over the entire area of the conductor and a uniform distribution of the velocity field of the cleaned air, which improves the efficiency of the gas discharge unit.

The width of the field around the perimeter of the electrode plate, which is free from the conductor and the current lead, in the device in question is from 0.02 to 0.08 with respect to the width of the electrode plate, forming insulating fields around the conductor and providing the necessary insulation protection for the electrode surfaces.

The expansion of the insulating field of the plate in the area of the current lead, made in the form of a polygonal or curved protrusion, reduces the likelihood of electrical breakdown of the plate insulator and electrical insulation of the current lead.

Placing the electrode conductor in a glass or ceramic plate increases the inter-regeneration period and the service life of the gas discharge unit.

In addition, the implementation of the plates of the electrodes made of glass or ceramic facilitates their maintenance, which consists in disassembling the electrodes, rinsing them and defect.

The presence of distinctive features in the claimed technical solution allows us to conclude that it meets the condition of patentability “novelty”.

The patentability condition "industrial applicability" is confirmed by the example of a specific implementation.

The essence of the claimed device is illustrated by technical drawings, where: in figures 1 and 2 are photographs of a gas discharge unit;

figure 3, 4, 5, 6, 7, 8, 9 - shows embodiments of the electrode of a gas-discharge pair.

The gas discharge unit consists of gas discharge pairs of electrodes 1 and 2.

The electrode 1 is a metal mesh 3 of a wire with spikes 4 perpendicular to it.

The electrode 2 is made in the form of a plate 5 made of glass or ceramic, inside which a conductor 6 is sealed, which can be made in the form of a metal mesh or in the form of a metal plate.

To ensure the transmission of voltage to the inner conductor, one or more ends of the electrode leads to a current lead 7, which is also placed inside the electrode plate 2 and can be made of single-core or multi-core wire, while the contact of the current lead 7 with the conductor 6 can be ensured as their mechanical connection, and soldering, welding.

The plate 5 of the electrode 2 can be made of two insulating layers of glass or ceramic, which are hermetically connected to each other, glued or welded, including the general heating of the plate blank to the melting temperature of the material, which provides the necessary insulating protection of the surfaces of the electrode 2.

The ratio of the dimensions of the width A and length B of the plate 5 of the electrode 2 is in the range from 1: 1 to 1: 5 and is optimal for the effective operation of the device, since a larger increase in length to the width of the plate leads to uneven distribution of performance over the entire area of the conductor, reducing efficiency its use.

The field of the plate, free from the conductor and the current guide, has a width C along its perimeter, from the edge of the plate to the conductor 6, comprising from 0.02 to 0.08 of the width A of the plate itself; changing this range in the direction of reduction does not provide the necessary level of protection, and changing it in the direction of increase leads to an irrational increase in the dimensions and material consumption of the device.

In order to increase the reliability of the electrode, to reduce the likelihood of breakdown of the insulator, the width D of the field of the plate in which the current lead 7 is placed has an expansion with respect to the rest of the field of the plate, made in the form of a polygonal or curved protrusion.

The gas discharge pair electrode 2 shown in FIG. 3 is made in the form of a rectangular plate 5 made of glass or ceramic, inside which a conductor 6 made of a metal grid is placed, with one current lead 7, which is mechanically connected to the grid of the conductor 6, while the insulating field along the perimeter of the plate has the same width C.

Figure 4 shows the electrode in the form of a rectangular plate 5, the conductor 6 inside of which is a metal plate to which one current lead is soldered 7. The electrode 2 shown in Fig. 5 has an extension D in the form of a rectangular insulating field of the plate in which current lead 7.

At the electrode shown in Fig.6, the expansion of the field with the current lead located in it is a triangle, at the top of which the output of the current lead 7 is made; at the same time figure 6 shows a top view and a side view of the electrode.

Similarly made electrode 2, shown in Fig.7, but in which the conductor is made in the form of a metal plate.

The electrode 2 of the gas-discharge pair can have 2 current leads (see Fig. 8), while the plate fields at the place of their placement can have an extension D, made in this embodiment in the form of triangles, at the tops of which the current leads are output.

Figure 9 presents an embodiment of the electrode, in which the current lead 7 is connected to the metal plate of the conductor 6 by welding.

The operation of the device lies in the fact that a high voltage is supplied to the electrodes 1 and 2 of the gas-discharge pair in the gas-discharge unit, and a high-frequency barrier discharge arises between them. In the gap between the spikes 4 of the electrode 1 and the surface of the plate of the electrode 2, a dynamically pulsating volume with discharges forms, which reacts with the cleaned gases passing between the electrodes 1 and 2. As a result of chemical reactions, the molecules of the cleaned gases are divided into active ions, free radicals, ozone, which enters into oxidative reactions with active ions and radicals, purifying polluted gases to a harmless state.

Thus, the new design of the gas-discharge pair electrode makes it possible to increase the efficiency of the gas-discharge unit, increase the reliability and quality of gas purification, optimize the ratio of electrode sizes, dramatically reducing the possibility of insulation breakdowns.

Claims (2)

1. The gas-discharge unit of the gas treatment plant, containing gas-discharge pairs of electrodes, characterized in that one of the electrodes of the gas-discharge pair is made bilateral in the form of a plate made of glass or ceramic, inside which a conductor and at least one current lead connecting the conductor are placed with an external current source, while the ratio of the width and length of the plate is in the range from 1: 1 to 1: 5, and the field of the plate free from the conductor along its perimeter has a width from the edge of the plate to the conductor, w from 0.02 to 0.08 the width of the plate. 2. A gas-discharge unit of a gas purification installation containing gas-discharge pairs of electrodes, characterized in that one of the electrodes of the gas-discharge pair is made bilateral in the form of a plate made of glass or ceramic, inside which a conductor and at least one current lead connecting the conductor are placed with an external current source, while the ratio of the width and length of the plate is in the range from 1: 1 to 1: 5, the field of the plate free from the conductor and the current guide along its perimeter has a width from the edge of the plate to the conductor, with representing from 0.02 to 0.08 the width of the plate itself, and the width of the field of the plate in which the current lead is placed has an extension with respect to the rest of the plate field, made in the form of a polygonal or curved protrusion.