UA44193A - DEPOSITION ELECTRODE OF THE ELECTROFILTER - Google Patents

Abstract

The collecting electrode of an electrofilter contains elements in the form of parallel collecting surfaces constructed from plates with curved profile, and suspending and shaking elements. A curved line restricts the collecting surface cross-section and the centerline of this cross-section is coincident with a centerline of a discharge element with a needle-shaped tip. The circle of a minimal radius corresponding to the distance from the needle-shaped tip to the collecting surface is in contact with this surface only at a single point so that only a certain direction of corona discharge is possible. The geometric dimensions of the cross-section are determined depending on the profile height H, convexity length L and depression h at the convexity top, according to the ratio of H:L:h = (3.5... 4.0) : (0.08... 0.12).

Description

Description of the invention

The invention relates to the field of cleaning dusty gases in electrostatic precipitators and can be used in 2 different industries.

Deposition electrodes of various designs are known.

The closest structural solution to the proposed one is the deposition electrode of an electrofilter, which consists of elements in the form of parallel deposition surfaces, which are collected from plates of a curvilinear profile, a suspension beam and a shaking beam, in which the deposition surface in the cross-section 70 is a curved line, the vertices of which are convex are deepened inside it in such a way that the maximum approach to the forming radius of the corona electrode is ensured, and the geometric dimensions of the profile curve are dependent on the height of the profile H and are determined from the ratio NI n as 1:(5...6):(0.1 ...0.2) and the rounding of the indentation of the top of the convexity is made with a radius of 0О.1Н... О0.2Н (see patent of Ukraine Mo 23647, M. cl. В 0ЗС 3/47, 1998). 12 The main disadvantage of the known electrode is that the inaccuracy of manufacturing and installation in the filter leads to the fact that the deposition and corona electrodes are displaced relative to each other, which causes changes in the declared parameters, which in turn changes the electrical parameters of the filter as a whole and, as a result, increases dust removal.

The basis of the proposed invention is the task of improving the deposition electrode and minimizing the consequences caused by inaccuracy in manufacturing and installation by ensuring the optimal direction of the corona discharge while simultaneously increasing the electric field strength.

The proposed problem in the proposed deposition electrode is solved by changing the geometry of the broken surface of the deposition element in such a way that the occurrence of a corona discharge at the beginning of the broken curve is guaranteed. This leads to the charging of dust particles at the beginning of the broken curve, where the gas flow, expanding, presses it against the deposition surface. Deposition of dust particles occurs mainly at the "beginning of the broken surface, which helps to reduce dust removal during shaking.

More specifically, the problem to be solved is illustrated by drawings, where Fig. 1 shows a deposition element, and Fig. 2 shows the relative arrangement of deposition and crowning elements.

The deposition element has a central axis 1, which coincides with the axis of the location of the crowning element o 2, which has a needle Z, while the circle 4 is made with a minimum radius 5 from the tip of the needle Z to the surface b Ge»! deposition and deepening 7, touches it only at one point 8, thereby determining the only direction of the corona discharge 9. The geometric dimensions of the element profile are dependent on the height H, the length - the convexity I. and the size of the recess NP, which serves, mainly, to ensure the attachment of elements to the beams of the suspension and shaking (not marked in the figures). Elements 10 serve to ensure a reliable connection of 32 elements in the deposition electrode with each other along the entire length. in

In addition, the proposed values of the ratio of geometric dimensions of the element (NII) allow to achieve the expected technical result and are summarized in the attached table, in which the ratios of the same parameters of the closest analogue are also given for comparison. "

It can be seen from the table that at the height H of the profile, equal to 4 mm, the parameters I and I are significantly different, which, as a result, provides a solution to the problem. c The principle of operation of the precipitating electrode of the electrostatic precipitator is to capture suspended dust particles

From" the flow subjected to ionization by an electric field. The profile of the deposition electrode element selected in this design with optimal geometric parameters determines the distribution of the electric field strength in the initial part of the broken curved surface in the direction of the gas, which allows dust particles to be charged at the very beginning of the deposition surface and, due to the zero dynamics of the flow, add their direction to the deposition surface. e In addition, with the same electric characteristics of the field, an increased intensity of the electric "travel" field is achieved in a plane perpendicular to the plane of the deposition surface, which significantly increases the guarantee of the charge of the particle passing through this plane. -

Table (Те) 20 Comparative characteristics of precipitating elements of electrofilters to sink with" (5-6)н-200-240) (3.5..4.0)Н - 140...160

Claims (2)

The formula of the invention 1. The deposition electrode of the electrostatic precipitator, consisting of elements in the form of parallel surfaces b5 of deposition, which are collected from plates of a curvilinear profile, a suspension beam and a shaking beam, which is distinguished by the fact that the deposition surface in the cross section is a broken line, the central axis of which coincides with the axis of location of the crowning element having a needle, while the circle, which is made with the minimum radius from the tip of the needle to the deposition surface, touches it only at one point, thus determining the only direction of the corona discharge. 2. The deposition electrode of the electrofilter according to claim 1, which differs in that the geometric dimensions of the broken line are dependent on the height of the profile H, the length of the convexity I! and the values of the deepening of the top of the convexity I and can be determined by the ratio NO: as 1:(3.5... 4.0):(0.08... 0.12) "He) He) "- "I "I - with . a t» t» - (se) Fe bo b5