RU1810110C - Process of use of electric filter - Google Patents

Abstract

Usage: the operation of gas purification and dust collecting devices designed for gas purification. SUMMARY OF THE INVENTION: a method of operating an electrostatic precipitator comprises the steps of stopping the apparatus and carrying out repairs as a certain accumulated fraction of inter-electrode gaps fails. The apparatus for repair is stopped with an increase in the growth of dust emissions over the increment of failed interelectrode gaps, the stopping time being determined by the ratio of the number of failed throughout the apparatus to the number of interelectrode gaps in the field not exceeding 0.8. 1 ill.

Description

The invention relates to methods for operating gas cleaning and dust collecting apparatuses for the protection of an air basin and the purification of process gases.

The purpose of the invention is to increase the functional reliability of an electrostatic precipitator.

 In the method, the electrostatic precipitator for repair is stopped with an increase in dust emissions over the increase in failed interelectrode gaps, the stopping time being determined by the ratio of the number of failed interelectrode gaps in the whole apparatus to the number of interelectrode gaps in one field not exceeding 0.8.

The relationship between the number of failures and emissions was obtained on the basis of the following considerations,.

An electrostatic precipitator is a chamber in which settling and corona electrodes are located in parallel. The plates of the precipitation electrodes form interelectrode gaps (hereinafter referred to as gaps) grouped by the floor. The dusty gas, the passage through the consecutively located floor, is cleaned to a very low dust concentration.

During operation, due to destruction and damage to parts of electrodes and their tapping hammers, failures of individual gaps occur. As a result, the degree of gas purification by the apparatus decreases (emissions increase).

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A feature of the design of the electrostatic precipitator from the point of view of reliability is that for the same number of gap failures, the reduction in the degree of purification will be different. Depending on the relative position of the failed spaces, the reduction will be minimal with parallel and maximum with the sequential arrangement of failed spaces. Between the extremes, many intermediate situations may arise, each with its own likelihood of occurrence and degree of purification.

The degree of gas purification by an electrostatic precipitator for the 1st situation was estimated by the formula.

P 5 "I / 1 J 1

m

where rj is the degree of gas purification in the jth gap along the entire length of the apparatus and taking into account the failed intervals;

m is the number of gaps in the field. Therefore, for any given number of failed spaces, a purification distribution function can be constructed.

Naturally, with an increase in the number of failed gaps, the lower boundary of the distribution function (the accepted 99% boundary) shifts towards a decrease in cleaning efficiency (increase in dust emissions). However, with a certain number of failures, there is a sharp increase in emissions, which makes the operation of the device for its intended purpose unrealistic and requires it to be stopped for repair.

Calculations showed that an increase in emissions in the electrostatic precipitator over the growth of the failed gaps occurs when the ratio of the number of failed gaps in the entire apparatus to the number of gaps in one field is more than 0.8. Moreover, as the calculations showed, the number of gaps in the field does not have a noticeable effect, but with

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By varying the number of fields up to 4 and higher, the established ratio has a more pronounced character.

The method of operating electrostatic precipitators is implemented by constantly monitoring the state of the internal mechanical equipment of the apparatus, as stipulated by the operating rules.

Consider the use of the operating method on the example of an electrostatic precipitator with the number of fields - 4, with the number of gaps in the field - 32. If the number of failed gaps is 32 x 0.8 26, the device must be stopped for repair.

The figure shows the results of calculations of the limiting state of an electrostatic precipitator consisting of 4 fields and 32 spaces in each field. One can see a sharp increase in emissions (100- centigrade,%) with an increase in the number of intervals t0t failing in the entire apparatus at t0t 26 (initial emissions $ 1), i.e. purity rj 99%).

Using the operation method will improve the reliability of the electrostatic precipitator performing its cleaning function and significantly reduce the cost of repairs and maintenance by conducting quality repairs in a reasonable amount of time.

FORMULA AND SECTION

A method of operating an electrostatic precipitator with precipitation and corona electrodes grouped by fields, including stopping the apparatus to carry out repairs as certain interelectrode gaps fail as a result of the accumulated fraction of dust emissions, such as and that In order to increase functional reliability, a stop for repair is carried out with an increase in the growth of dust emissions over the increase in failed interelectrode gaps, and the stopping time is determined by the ratio of the number of azavshih interelectrode gaps around the unit to the number of electrode gaps aqueous field not exceeding 0.8.