RU72421U1 - ELECTRIC FILTER - Google Patents

Abstract

An electrostatic precipitator belongs to the field of electric cleaning of gases and dust (dispersed suspensions) and can be used mainly in the power industry, in the chemical, metallurgical and building materials industries. The task solved by the utility model is to increase the degree of gas purification from dust, mechanical strength, reliability and durability of the electrostatic precipitator. The problem is solved due to the fact that the electrostatic precipitator contains a housing with a diffuser and a confuser respectively at the inlet and outlet, precipitation and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and bunkers, characterized in that each corona element of the electrode is made in the form of a flat electrode with needle tips protruding on it from both sides, the latter being installed on one side of the flat element offset of half a step with respect to needle tip on the other hand, the spacing between them is equal to 42 ± 2 mm, the width of the element between the opposing sides of needle tips is at least 40 mm, with the needle tip radius not greater than 0.25 mm.

Description

The proposed electrostatic precipitator belongs to the field of electric dust cleaning of gases (dispersed suspensions) and can be used mainly in the power industry, in the chemical, metallurgical and building materials industries.

An electrostatic precipitator is known, which contains a housing with a diffuser and a confuser, respectively, at the inlet and outlet, precipitation and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and bunkers (see the Dust Collector Ed. A. A. Rusanova, Moscow, "Energy", 1975, from 188-190).

The disadvantages of the known electric filter is that it uses a corona electrode element with insufficient mechanical strength due to the occurrence of stress concentrators in the element, and does not have sufficient efficiency, since during operation the corona electrode element with an increased ignition voltage of the corona and a lower corona current, does not provide optimal particle charging in the electrostatic precipitator. The above disadvantages do not allow to ensure the optimal degree of gas cleaning from dust, increase the power of power units, reduce the mechanical strength and reliability of the electrostatic precipitator.

The objective of the utility model is to increase the degree of gas purification from dust and increase the mechanical reliability of the electrostatic precipitator.

The problem is solved due to the fact that in the electrostatic precipitator containing a housing with a diffuser and a confuser, respectively, inlet and outlet, precipitation and corona electrodes with a suspension system located in the housing, gas distribution elements installed in

a diffuser, a shaking mechanism, power supply and hoppers, each corona element of the electrode is made in the form of a flat electrode with needle tips protruding on it from two sides, the latter on one side of the flat element being installed with a half-step offset relative to the needle tips on the other side, with the step between them is 42 ± 2 mm, the width of the element between the needle tips of the opposite sides is at least 40 mm, with a needle tip radius of not more than 0.25 mm.

The installation of flat corona elements of the electrodes in the electrostatic precipitator provides an increase in the efficiency of the electrostatic precipitator due to the fact that the corona electrodes made with needle tips provide a lower ignition voltage of the corona and a higher corona current, which ensures an optimal degree of dust removal from gases and reduces the power of the power units, and also reduce stress concentrators on the electrode element, which leads to an increase in mechanical strength, durability and reliability, with increasing the life of the corona electrode, and thus increasing the degree of purification of gases from dust with an increase in mechanical strength and reliability of the electrostatic precipitator.

In Fig.1 shows the described electrostatic precipitator, in Fig.2 node A of Fig.1.

The electrostatic precipitator comprises a housing 1 with a diffuser 2 and a confuser 3 and hoppers 4. In the housing there are precipitation electrodes 5, corona electrodes 6 with insulator boxes 7. Corona electrodes 6 are mounted on the frame and consist of several flat elements 8. Each corona electrode 6 is made in the form several flat elements 8, bonded to each other, with needle tips 9 protruding from both sides, the latter being offset from one side of the flat element

half a step relative to the needle tips on the other hand, while the pitch between them is 42 ± 2 mm, the width of the element between the needle tips of the opposite sides is at least 40 mm, with a needle tip radius of not more than 0.25 mm. The electrostatic precipitator includes a shaking mechanism 10 connected to a power source 11. In the diffuser 2 of the housing 1, gas distribution elements 12 are installed, and at the outlet of the electrostatic precipitator, a gas distribution grill 13 is installed in front of the confuser.

The electrostatic precipitator works as follows. Dusty gas stream enters the electrostatic precipitator, passing a diffuser 2 with gas distribution elements 12 designed to ensure uniform distribution of dust and gas flow over the cross section of the electrostatic precipitator. In the active zone of the electrostatic precipitator, the dust and gas flow passes through the high voltage fields created by the high-voltage power sources between the precipitation 5 and the corona electrodes 6. Dust under the influence of an electric field moves to the precipitation electrodes 5 and settles on them, and the cleaned gas stream leaves the electrostatic precipitator. After the dust layer builds up on the electrodes, they are shaken. The trapped dust is removed from the electrodes by means of a regeneration system using a mass of hammers of a mechanism for shaking impacts periodically striking the electrodes. The regeneration device consists of a drive located outside the housing of the electrostatic precipitator connected to the shaft, on which shock elements of different weights for the corona 5 and precipitation electrodes 6, which are located on the shaft respectively of the shaken electrodes, are located. After shaking, the dust enters the hopper 4 of the electrostatic precipitator, from which it is removed.

Installation of flat corona elements of the electrode, with the above parameters, made with needle tips, with a low voltage of ignition of the crown, which

corresponds to higher corona currents, resulting in an increase in the efficiency of the electrostatic precipitator and a decrease in energy consumption, as well as a decrease in voltage concentrators on the electrode element, which leads to an increase in mechanical strength, durability and reliability, with an increase in the life of the corona electrode, and thus the degree of purification of gases from dust with increasing mechanical strength and reliability of the electrostatic precipitator.

Claims (1)

An electrostatic precipitator comprising a housing with a diffuser and a confuser respectively at the inlet and outlet, precipitation and corona electrodes with a suspension system located in the housing, gas distribution elements installed in the diffuser, a shaking mechanism, power supply and hoppers, characterized in that each corona electrode element is made in the form a flat electrode with needle tips protruding on it from two sides, the latter being mounted on one side of the flat element offset by a half step relative there are only needle tips on the other hand, while the pitch between them is 40-44 mm, the width of the element between the needle tips of the opposite sides is at least 40 mm, with a needle tip radius of not more than 0.25 mm.