SU1130372A1 - "solnyshko" device for removing fine-dispersed particles from liquids and gases - Google Patents

Abstract

1. SUNNY DEVICE FOR CLEANING LIQUIDS AND GASES FROM SHORT-PARTICULATE PARTICLES, containing coaxially arranged cylindrical settling and central electrodes, supplying and discharging nozzles, characterized in that, in order to increase the efficiency of traversing the dispersed particles from the structure of the element of the structure, the structure of the element of the structure of the element of the structure of the element of the structure of the element of the structure of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the structure, which is made of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element of the element, which is one of the structure of the element of the structure of the element of the body, the element of the structure of the element of the element, the element of the structure of the element of the element, and the element of which the structure of the element of the body, the element of the structure of the element of the element, and the element of the structure of the element of the element, and the structure of dielectric partitions in contact with the central electrode and made in the form of wedges, the lateral surfaces of which are located in planes passing through the axis of symmetry of the electrodes, and dielectric rings adjacent to the inner surface of the precipitation electrode and forming storage cells with dielectric partitions. 2. The POP.1 device, which differs from the fact that the inlet and the (P With the discharge nozzles are located along the axis of symmetry of the device.

Description

The invention relates to a technique for cleaning dielectric components and gases and can be used in mechanical engineering, machine-tool construction, cement and metallurgical production. An electrostatic filter is known that includes a housing with inlet and outlet nozzles, high-voltage electrodes, the shape of which allows a nonuniform polygonradium to create an electric field. . The cathode is made in the form of a hollow cylinder with sleeves along the generatrix surface, through which cleaned fluid flows, and the particles of soils, along the pad in the zone of the nozzle with high electric field strength, are charged and under the action of Coulomb forces move to the opposite cylindrical electrode where partial deposition of coarse particles occurs, recharging and the reverse movement of the charged non-settled particles to the Cl sleeves begins. However, in the area of the sleeves, the charged particle is quite close to the surface of the electrode and the outlet is drawn together with the fluid flow, which reduces the cleaning efficiency. Also known is an electrostatic precipitator containing a coaxial system of high-voltage electrodes, discharge and supply connections. In the device, due to the symmetry of the electrode system with respect to the central axis, the electric field is axially symmetric and the forces acting on the liquid are also symmetric, therefore there is no electric wind in a liquid dielectric medium. Considering that the intensity of the electric field is greatest on the surface of the central electrode The maximum density of the bulk charge is in the region of the central electrode. Particles charged at the center of the device, under the action of electric

The cusping field moves to the cylindrical electrode, where the bulk density of the charge is much smaller, so the space around the central electrode is gradually cleared 55 from particles, and in the region of the large cylindrical electrode they accumulate 2.

the side surfaces of which are located in the planes of the electrodes passing through the axis of symmetry and dielectric. tricant rings adjacent to the inner surface of the precipitator-. electrode and forming with dielectric partitions accumulators dp of contamination. 72 2 Since it is almost impossible to manufacture a strictly symmetric system of electrodes, and also taking into account the asymmetry of the properties of the medium being cleaned relative to the central electrode, there is an electric wind phenomenon in such a system of electrodes. In addition, the presence of inlet and outlet nozzles for the flow to be cleaned, each of which is asymmetric with respect to the central axis, causes flow to move both through the area at the central electrode and through the area at the cylindrical electrode with accumulated particles, therefore the thickness of the layer that is cleaned around the center the electrode, due to the movement of particles, does not exceed 1 mm at a voltage of 10 kV, which is determined by the distance between the surfaces of the electrodes, and disappears altogether at high voltages. In addition, the disadvantages of the known devices are the possibility of reloading particles on a cylindrical electrode and free movement under the action of Coulomb forces to the central electrode in the fluid being cleaned, the presence of electrohydrodynamic fluid flows contributing to the process of mixing the liquid with particles, and mixing the new incoming liquid for cleaning with particles already accumulated in the device. The purpose of the invention is to increase the efficiency of trapping fine particles from dielectric liquids and gases. This goal is achieved by the fact that a device for cleaning liquids and gases from fine particles, containing coaxially arranged cylindrical settling and central electrodes, supplying and discharging nozzles, is provided with radial dielectric partitions in contact with the central electrode and made in the form of wedges. The inlet and outlet connections are located along the axis of symmetry of the device. The number of dielectric wedges is no less than four, since this quantity is sufficient to eliminate the main electrohydrodynamic flow, which arises due to the misalignment of the axes of the central and cylindrical electrodes. In the system of coaxial electrodes, the maximum density of volume charges is located in the region of the central electrode, which ensures the maximum charge of particles. Figure 1 shows the direction of the electric field in the system of electrodes; in FIG. 2, a Solgapso device, cross section; on fig.Z section aa in figure 2. . Since the electric field in the electrode system is axisymmetric, both the volume density of space in the space and the forces acting on the charged medium must be axisymmetric and cannot cause an intense electrodynamic flow between the electrodes, which leads to mixing of the medium being cleaned with particles . The particles of contaminants adsorbing the electric charge with a density higher than the density of the charges in the medium being cleaned are affected by forces that cause the particles to move relative to the medium. For any polarity of the electrodes in an ideal symmetric system of electrodes and the medium being cleaned relative to the main axis of symmetry, electrophoretic forces cause the movement of particles having a specific conductivity higher than the medium from the central electrode to the cylindrical device contains a cylindrical collecting electrode 1, inside which is coaxially located the central electrode 2, and between the electrodes, in close contact with the surface of the central electrode, the same dielectric is radially located wedge partitions 3, thin dielectric rings 4 located perpendicular to the surface of the precipitation electrode and forming together with dielectric partitions 3 in the form of wedges 5 pollution accumulators, supplying 6 and discharging 7 nozzles located along the axis of symmetry, supporting the dielectric the ring 8 for fastening the electrode 2. The lateral surfaces of the kilograms lie in the planes passing through the symmetry axis of the electrodes, since at a different arrangement the electric field is asymmetrical and appears normal putting the electric field to the side of the wedge, the charged particles are deposited on the surface of the wedges, and not in the accumulators of 5 soils. The flow to be cleaned through pipe 6 is fed into the device and is pumped along the surface of the central electrode 2 between the dielectric partitions 3. The soil particles are charged in the central area of the device and are deposited in the soil accumulators 5 under the action of an electric field. Thin dielectric rings 4 are designed to prevent particles from being carried away by the flow of the medium being cleaned through the nozzle 7. Visual observation of the purification process of contaminated kerosene or oil through the nozzle 7 when the liquid is illuminated through the nozzle 6 allows us to compare the process with the appearance of the sun. The proposed device, in comparison with the known, allows increasing the productivity by 30 times, increasing the dropout rate for particles of the fraction 5-2 μm from 0.2 to 0.93. The main characteristics of the proposed device when cleaning the working fluid AMG-10 are given in table 1. Compared with the basic device (aircraft filter 8D2966036), the invention allows, with almost equal cleaning fineness and productivity, to reduce the pressure drop by 1000 times and increase the heating capacity by 20 rdz, in addition, it does not have almost hydraulic reduction, does not require the cost of filter elements and allows you to reduce energy costs for pumping the liquid almost 1000 times with a large soil capacity, which reduces the number of necessary regenerations of the device.

Specifications

Capacity, l / min

Differential pressure, n / m, at rated flow

Overall dimensions, mm diameter

height Gr capacity, kg / m

Indicator

ten

2. 10

130 170 400

FIG. 2

Claims (2)

1. THE DEVICE THE SUN FOR CLEANING LIQUIDS AND GASES FROM FINE PARTICLES, containing coaxially arranged cylindrical sedimentation and central electrodes, inlet and outlet pipes, characterized in that, in order to increase the efficiency of collecting fine particles from dielectric fluids and gases, in contact with the central electrode and made in the form of wedge-side surfaces which are located in planes passing through the s axis metry electrodes and dielectric rings abutting against the inner surface of precipitation electrode, and forming a dielectric partitions drives contaminants. 2. The device according to claim 1, characterized in that the inlet and outlet pipes are located along the axis of symmetry of the device. SU, „, 1130372 1 I I 30372