SU1761288A1 - Electrical treatment machine for liquid and gaseous agents - Google Patents

Abstract

The invention relates to a technique for cleaning dielectric and semiconductor liquids and gases and can be used for cleaning the working fluids of hydraulic systems in the aviation, mechanical engineering, machine-tool industries, as well as for cleaning gases in the cement and metallurgical industries. The purpose of the invention is to increase the cleaning efficiency. The device includes a cleaning section with moving high-voltage electrodes mounted on the shaft and a regeneration section equipped with a shaft and an AC source connected to a sink, made in the form of two metal plates connected to an alternating voltage. High voltage electrodes are made in the form of coaxially arranged cylinders from a single turn helix with a gap, having sequentially connected alternating conductive and nonconducting portions, which form multilayer partitions between the conductive portions of high voltage electrodes, and the whole ribbon is enclosed in a cassette containing covers with holes the cover is made of conductive material, and the top is made of dielectric material and is provided with a conductive plate on the tape side, isolated from the cassette shaft and an electrically connected, like the bottom cover, with a high voltage power source. The surface of the non-conducting sections of the tape is covered with spikes. The non-conductive tape is made of a material having a specific volume electrical resistance of 1.3 to 6 times the electrical resistivity of the medium being cleaned. The fluid to be cleaned is pumped through the gaps between the non-conducting parts of the tape. 2 hp f-ly. 4 il. next C 00 00

Description

The invention relates to a technique for cleaning dielectric and semiconductor liquids and gases and can be used for cleaning the working fluids of hydraulic systems in the aviation, mechanical engineering, machine-tool industries, and also for cleaning gases in the cement and metallurgical industries.

The purpose of the invention is to increase the cleaning efficiency.

FIG. 1 shows an electric cleaner; FIG. 2 is a section A-A in FIG. 1: in FIG. 3 - electric purifier lenta: in FIG. 4 - plane-parallel cell with partitions.

The device comprises a housing 1 with a lid 2, an inlet 3 and an outlet 4 of the nozzles of the medium being cleaned, a cassette formed by the upper 5 and lower 6 lids fixed in the cleaning section 7. On the shaft 8 of the cassette the tape 9 coiled up is made up of alternating wires 10 sections forming coaxial cylindrical high-voltage electrodes 10 and non-conducting sections 11 forming multilayer partitions 11 between high-voltage electrodes 11. The upper dielectric cover 5 of the cartridge is covered on the side of the tape 9 with thin wire It is equipped with a plate 12. The voltage of a high-voltage power source is connected with a positive potential to the lower conductive cover 6 and the housing 1, and negative to the thin plate 12.

In the regeneration section 13, the device contains two parallel electrodes 14 connected to an alternating voltage source, between which a tape 9 is located on the rollers 15, fixed at one end on the shaft 8, and the other on the shaft 16.

The device works as follows.

The cleaned medium is fed into the device through the nozzle 3 and is pumped through the holes in the bottom cover of the cartridge and then through the annular slots 17 between the tape sections, the holes in the top cover 5 of the cartridge and the outlet 4. The deposition and accumulation of soil particles occurs on the surface of non-conducting sections of the tape and spikes 18. The tape is regenerated during the rewinding of the tape from the shaft 8 to the shaft 16 in the alternating electric field of the electrodes 14.

Example. The device was tested when cleaning the working fluid AMG-10.

The electrical resistivity of the fluid being cleaned before cleaning is 4 109 Ohm m, and after cleaning it is 9 109 Ohm m.

The purified medium (liquid) was exposed to a constant electric field with a strength of 4 to 5 kV / mm, formed by the action of conductive high-voltage electrodes made in the form of coaxially arranged cylinders. Duralumin – ieva tape was used as a material of conducting sections. The electrode width is 2 cm. In the process of pumping a liquid, the electric field is converted into an uneven electric field through the use of a non-conductive medium, which in this example is a tape made of paper with a specific volume electrical resistance in AMG-10 at the beginning of cleaning 24- 10 ohm m and at the end of cleaning

12 1090m.

On non-conducting parts of the tape, spikes are made of K-150 epoxy compound with carbon addition. The specific volume electrical resistance of the material of the spike is 3 10U Ω m.

Claims (3)

The liquid to be purified was pumped through the inlet pipe between the nonconducting parts of the tape into the outlet pipe. Invention Formula 1, Electro-cleaner of liquid and gaseous media, comprising a cleaning section with moving high-voltage electrodes mounted on a shaft and a regeneration section equipped with a shaft and a high voltage power supply coupled to a dirt separator made in the form of two metal plates, characterized in that, in order to increase the cleaning efficiency, high voltage The electrodes are made in the form of a cassette with coaxially arranged cylinders from a single-turn ribbon helix with a cut, which have successively connected alternating conductive and non-conductive portions that form multilayered partitions between the conductive portions, and the cassette is provided with lids with holes, and the bottom cover is made from the tape side with a conductive plate insulated from the shaft and both covers are connected to a high voltage source power nickname. 2. Electric cleaner according to claim. Characterized in that the surface of the non-conductive belt sections is provided with spikes with a specific volume electrical resistance of the material rs one -yol rsh 0,5 roll, where pn is the specific volume electrical resistance of the material of the non-conductive belt section. 3. The electric cleaner of claim 1, wherein the width of the conductive portions of the tape is less than non-conductive ng the distance between the electrodes-v, the conductive portions are shifted alternately and the upper or lower edge of the nonconductive the site is now. ten 7 1761288 15 13/4 .-, / 4 BUT eight 15 Fig z four t / / / FIG 4