SU780892A1 - Electric filter - Google Patents

Description

The invention relates to a dust collection technique and can be used for the purification of air and gases.

Known electrostatic precipitator. consisting of plate wave-shaped ionizers with corona electrodes located between them and precipitation electrodes with nozzles [1].

The disadvantage of the electrostatic precipitator is the low quality of gas purification from fine dust particles.

The purpose of the invention is to improve the quality of gas purification.

The goal is achieved by; ^ 5 that the filter is made in the form of coaxially arranged tubular corona, additional mesh and precipitation electrodes. The outer surface of the corona electrode 20 is helical and is formed by moving the parabola apex in a spiral. A tooth plate of a conductive material of ~ 25 tfrial is fixed in the cavity of the helical surface of the corona electrode, the tooth protrusions of which end in the focus of the parabola. A dielectric plate is fixed along the ridge of the helical surface of the corona electrode, which forms helical channels between the corona and precipitation electrodes.

Along the surface of the precipitation electrode parallel to the axis of symmetry 5, pockets are made consisting of two connected plates, one of which is parallel to the precipitation electrode, and the second is directed along the side of a regular triangle inscribed in the inner circumference of the precipitation electrode.

Figure 1 shows the electrostatic precipitator, section ·, figure 2 - section aa in figure 1.

The electrostatic precipitator consists of a coaxially arranged tubular corona 1, additional grid 2 and precipitation 3 electrodes. The outer surface of the corona electrode 1 is made helical, formed by moving the vertices of the parabola 4 in a spiral. A tooth plate 5 made of a conductive material is fixed to the cavity of the screw surface, the teeth of which end in the focus of the parabola 4. A plate b of dielectric material is fixed along the ridges of the screw surface of the corona electrode 1, forming a helical channel between the corona 1 and

X 'precipitation 3 electrodes, which is equipped with input 7 and output 8 nozzles. On the inner surface of the precipitation electrode, pockets 9 are formed by plates 10 and 11, and the plate 10 is directed along the side of a regular triangle inscribed in the inner circumference of the precipitation electrode 3, and the plate 11 is parallel to its surface, both of which are parallel to the axis of symmetry of the precipitation electrode. An additional electrode-grid 2 is installed from the precipitation at a distance of 1/3 of the total distance between the precipitation and corona electrodes. The potential of the grid electrode 2 is less than the potential of the precipitation electrode 3 .'- Dyasbor 'wasp] ‘’ ’h) 5'’ dust in the electrostatic precipitator has a hopper 12.

'The device operates as follows.

Through the inlet pipe 7, the contaminated gas enters the helical region formed by the parabolic helical surface 4 of the corona electrode 1, the dielectric plate 6 and the precipitation electrode 3, where it enters the electrostatic field, and under the influence of which negatively charged particles move towards the grid 2 and the precipitation electrode 3, A small negative potential (of the order of 100 V) is applied to grid 2 with respect to precipitation electrode 3. This is necessary to prevent dust particles the latter, as well as to equalize the strength of the electrostatic field. Besides the forces of the electrostatic field, the dust particles are affected by the centrifugal force that arises when accelerated circular motion of the gas around the corona electrode 1. It is directed to the precipitation electrode 3 and improves the quality of gas purification. The effect of this force is especially effective at a high gas velocity, when it continuously increases in the direction of the outlet pipe 8. Since the velocity of dust particles, due to the velocity of gas molecules, is directed along the tangent to the circular paths of gas motion, then under the action of gas molecules dust particles also move towards the precipitation electrode 3 and fall ⁴ into the pockets-9, which are open in the direction tangent to the circular paths of gas movement. Then, parts of the dust dust enter the hopper 12 for deposited particles.

The implementation of a corona electrode with parabolic reflective surfaces and plates with teeth located in the focus of the parabolas can increase the efficiency of the process of ionization and intensification of dust deposition by increasing the intensity of the corona discharge; Intensive and high-quality gas purification is carried out by the proposed electrostatic precipitator, not only due to a more intense corona discharge, but also due to the action of centrifugal forces on dust particles and gas molecules acting on dust particles.

Claims (2)

This invention relates to a dust collection technique and can be applied to purify air and gases. An electrostatic precipitator is known, consisting of plate-like wave ionizers with discharge electrodes located between them and collecting electrodes with nozzles 1. The disadvantage of the electrostatic precipitator was the poor quality of gas cleaning from small dust particles. The purpose of the invention is to improve the quality of gas cleaning. The goal is achieved due to that; that the filter is made in the form of coaxially arranged tubular corona-forming, additional mesh, and precipitating electrodes. The outer surface of the corona electrode is screwed and formed by moving the top of the parabola along the spirits. The tooth plate of the conductive material is fixed in the depression of the screw surface of the corona electrode, the toothed projections of which end at the focus of the parabola. On the crest of the screw surface of the corona electrode is fixed dielek. A three-sided plate forming screw channels between the corona and core positive electrodes. Along the surface of the precipitation electrode, pockets consisting of two connected plates, one of which is parallel to the precipitation electrode, are made parallel to the axis of symmetry, and the second is directed along the side of a regular triangle inscribed in the inner circumference of the precipitation electrode on the electrode. Figure 1 shows the electrostatic precipitator, a section j in figure 2 - the cut AA-A in figure 1. The electrostatic precipitator consists of coaxially arranged tubular corona-1, an additional grid 2, and a precipitating 3 electrodes. The outer surface of the corona electrode 1 is made of a screw, formed by moving the top of the parabola 4 in a spiral. A notched plate 5 of conductive material is fixed at the root of the screw surface. The teeth of the tooth end at the focus of the parabola 4. The ridge of the dielectric material 6 is fixed to the screw surface of the screw surface of the corona electrode 1 that has a screw channel 7 between the corona 1 and the core 3 of the dielectric material 7. outlet 8 nozzles. Pockets 9 formed by plates 10 and 11 are made on the inner surface of the precipitation electrode, the plate 10 being directed along the side of a regular triangle inscribed into the inner circumference of the precipitation electrode 3, and the plate 11 parallel to its surface, both parallel to the axis of symmetry of the precipitation electrode. An additional grid electrode 2 is installed from the precipitation electrode at a distance of 1/3 of the entire distance between the precipitated and the corona electrodes. The potential of the electrode grid 2 is less than the potential of the precipitating electrode 3. A hopper 12 is provided for collecting the precipitated hours of dust in an electrostatic precipitator. The device operates as follows. Through the inlet 7, the contaminated gas enters the screw region formed by the parabolic screw surface 4 of the corona electrode 1, the dielectric plate 6 and the collecting electrode 3, where the pop gives an electrostatic field, and under the action of which the negatively charged particles move towards the grid 2 and a precipitation electrode 3. A small negative potential (on the order of 100 volts) relative to the precipitation electrode 3 is applied to the grid 2. This is necessary to prevent some of the dust from returning. the latter, as well as to align the field strength of the electrostatic field .In electrostatic field forces, acting on the dust particles is centrifugal force which arose during accelerated motion of the gas around the circular discharge electrode 1. It is directed toward the collecting electrode 3 and contributes to improve the quality of gas purification. The effect of this force is especially effective when the gas moves at a high speed when it continuously increases in the direction of the outlet nozzle 8. Since the velocity of the dust particles, caused by the velocity of the gas molecules, is directed tangentially to the circular trajectories of the movement of the particles, The dust also moves in the direction of the cooling electrode 3 and falls into the pockets 9, which are open in the direction of the tangents to the circular trajectories of the gas movement. Then the dust particles enter the hopper 12 for the precipitated particles. The implementation of the corona electrode with parabolic reflecting surfaces and plates with teeth located at the focus of the parabolas, allows to increase the efficiency of the ionization process and the intensification of dust precipitation by increasing the intensity of the corona discharge; Intensive gas cleaning is carried out by the proposed electrostatic precipitator not only 3, but due to a more intensive corona discharge, but also due to the effect of centrifugal forces on dust particles and gas molecules acting on dust particles. Claim 1. Electrofilter containing tubular corona, collecting electrodes with pockets and a grid, characterized in that, in order to improve the quality of gas cleaning, the corona electrode is equipped with a toothed plate of conductive material and a dielectric plate, and the outer surface of the corona electrode 11 is screwed the trough of which is a notched plate, and a dielectric plate on the ridge. 2. The electrostatic precipitator according to claim 1, in accordance with the fact that, in order to prevent the return of dust particles, each pocket is made of two plates parallel to the axis of symmetry of the cylinder, one plate is directed along the side of a right triangle inscribed in the inner circumference of the precipitation electrode, and the other plate is parallel to a portion of the circumference of the cylinder. Sources of information taken into account in the examination 1. USSR author's certificate f 402389, class, 03 C 3/02, 10/19/73. YU ff