RU2448779C1 - Corona-forming electrode - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to electric cleaning of gases of suspended solid and fluid particles in heat power engineering, chemical industry, production of construction materials, metallurgy, etc. Corona-forming electrode comprises tape with needles but along tape edges. Distance between adjacent needles cut start varies from 0.1 to 150 mm while needle end curvature radius varies from 0.01 to 0.5 mm.

EFFECT: higher efficiency of gas treatment.

2 cl, 3 dwg

Description

The invention relates to the electrical cleaning of gases from suspended solid and liquid particles in various industries, in particular in the power industry, chemical industry, building materials industry, metallurgy, etc.

Known corona electrode (A.S. 204322 from 10.20.1967 - analogue), containing elements with points formed by triangular bends and edges made in the form of pipes. The disadvantages of this electrode include a high ignition voltage of the crown, due to the large radius of curvature (more than 0.5 mm) of the ends of the needles. This leads to a reduced degree of gas purification.

Closest to the proposed invention in terms of the technical nature of the technical problem being solved and the totality of common essential features is the corona electrode according to patent 2229939 of 12.23.2002 (prototype) made of a tape body. The essence of this element is that the notch of the tape is made from one point along two inclined lines directed from this point in different directions at an acute angle to the end line of the edge section, and the tip formed by the inclined lines remains in the plane of the element body and has an angle between the inclined lines is larger than the angle of the bent tips formed by the inclined line and the end line of the edge section.

The disadvantages of this electrode include the fact that making an incision from one point along two inclined lines does not provide a small radius of curvature for all needles. In this regard, the corona current is underestimated, which leads to a decrease in the degree of gas purification by an electrostatic precipitator.

The technical task of the invention and the technical result achieved by solving it are to increase the degree of gas purification by an electrostatic precipitator.

The specified technical result is achieved in that the electrostatic precipitator is equipped with corona electrodes with elements having a profiled strip on which the needles are cut and bent. The difference of the electrode lies in the fact that cuts are made along the edge of the strip, while the distance between the beginning of the cut of adjacent needles lies in the range from 0.1 to 150 mm, and the radius of curvature of the ends of the needles is in the range from 0.01 to 0.5 mm. The distance between the beginning of the cut of adjacent elements from 0.1 to 150 mm provides the adjustment of the corona current due to a change in the distance between the ends of the needles. When the distance decreases to less than 0.1 mm, the corona current decreases sharply due to the mutual screening of the needles. The degree of gas purification falls. Thus, reducing the distance between cuts less than 0.1 mm is impractical.

With an increase in the distance between the needles of more than 150 mm, the degree of gas purification also decreases, since the average current density decreases due to a decrease in the number of needles. The required distance between cuts is selected depending on the electrical resistivity (resistivity) of the dust. With a high value of resistivity, the magnitude of the corona current should be reduced, and with a low value, increase.

Changing the radius of curvature of the needles also allows for regulation of the corona current. A decrease in the radius of curvature of the ends of the needles of less than 0.01 mm is impractical due to their possible mechanical damage.

An increase in the radius of curvature of the ends of the needles of more than 0.5 mm leads to a significant increase in the ignition voltage and a corresponding decrease in the corona current.

In addition, the height of the needles of the corona element can vary in the range of 3-30 mm. A further decrease in the height of the needles is impractical due to an excessive decrease in the corona current. The height of the needles 30 mm is due to the existing interelectrode distance in electrostatic precipitators, because a further increase in the height of the needle leads to an unacceptable decrease in breakdown voltage in the electrostatic precipitator.

Thus, in the proposed corona electrode, the corona current can be regulated in the following ways: by using corona elements with different distances between the needles, with different radii of curvature of the ends of the needles, with different distances between the needles and with different heights of the needles.

This allows a fairly wide regulation of the corona current in the electrostatic precipitator. In addition, the corona elements have a profile, the rounded part of which fits into a circle with a diameter of 2-30 mm. The choice of such a range of circumference is determined on the lesser side by providing the required stiffness of the elements, and on the other hand, by the allowable value of the interelectrode gap. The height of the profile element "a" is 10 ... 100 mm and depends on the magnitude of the interelectrode gap of the electrostatic precipitator. For large values of the interelectrode gap, a larger value of the “a” value of the element profile is adopted, and for smaller values, its smaller value is taken.

The indicated ranges of features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The essence of the invention is illustrated by graphic materials.

Figure 1 shows the element of the corona electrode;

Figure A shows a side view of the corona element;

Figure 2 shows the profile of the corona element;

Figure 3 shows the needle of the corona element on an enlarged scale.

The positions in FIGS. 1-3 are as follows:

1 - element of the corona electrode (fragment);

2 - metal strip;

3 - needles of the corona element;

4 - slots in a metal tape;

5 - element profile;

R ₁ is the profile radius of the corona element;

R ₂ is the radius of the end of the needle;

a is the height of the element profile.

The present invention is industrially applicable, since its manufacture does not require special equipment and new technologies.

The design of the corona electrode described in this example is not the only one possible to achieve the above technical result and does not exclude other variants of its manufacture containing a combination of features included in an independent claim.

Claims (3)

1. The element of the corona electrode with fixed corona points, including a tape with needles cut along the edges of the tape, characterized in that the distance between the start of cutting of adjacent needles lies in the range from 0.1 to 150 mm, and the radius of curvature of the ends of the needles is in the range from 0 , 01 to 0.5 mm. 2. The element of the corona electrode according to claim 1, characterized in that the profile of the Central part fits into a circle with a diameter of 2-30 mm 3. The element of the corona electrode according to claim 1, characterized in that the height of the needles lies in the range of 3 ... 30 mm

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