KR102149441B1 - Dust collecting electrode of wet electrostatic precipitator for removal of high viscosity material - Google Patents

Abstract

The present invention relates to a dust collecting electrode of a wet electric precipitator that collects and reduces the viscosity of a material having high water insoluble and high viscosity by increasing the surface temperature of the dust collecting electrode by circulating a high temperature fluid. In a wet electric precipitator for heating the surface of the dust collecting electrode, a plurality of dust collecting electrodes connected back and forth by conveying pipes respectively connected to the pipe are installed at a back and forth gap, a discharge electrode is installed between the dust collecting electrodes, and the fluid, Inside the dust collecting pole, a water supply space part and a water discharge space part are formed separately on the left and right sides of the partition wall partitioning the central part vertically, and the lower side of the partition wall is opened so that the water supply space part and the water discharge space part communicate with each other The transfer pipe has a plurality of transfer holes radially formed therein to supply and discharge fluid by communicating with the water supply space part and the water outlet space part, respectively, and the high temperature fluid is combined with water pressure. Non-aqueous oil mist collected on the surface of the dust collecting electrode and tar with high viscosity as it is sequentially transferred and discharged to the'water supply pipe-transfer pipe-transfer holder-transfer hole-water supply space portion-outlet space portion-transfer holder-transfer pipe-outlet pipe' A dust collecting electrode of a wet electric precipitator is proposed for the removal of high-viscosity substances, characterized in that the viscosity of such substances gradually decreases and falls by their own weight and is collected.
Therefore, in the present invention, the surface of the dust collecting electrode can be heated more easily by heating the surface of the dust collecting electrode by continuous supply of the heated fluid, and contamination of the fluid is prevented by transferring the fluid to the inside of the dust collecting electrode rather than outside. As it is minimized, it is easier to recycle, and it is possible to operate the electric precipitator with a minimum amount of heat by slowing down the cooling rate of the fluid, so it is more economical.

Description

Dust collecting electrode of wet electrostatic precipitator for removal of high viscosity material

The present invention relates to a wet electrostatic precipitator, and more particularly, by increasing the surface temperature of a dust collecting electrode by circulating a high-temperature fluid, a wet electric for removal of high-viscosity substances collected by reducing the viscosity of substances with high water insolubility and high viscosity. It relates to the dust collecting pole of the dust collector

In general, electric dust collectors are installed in incinerators, boiler desulfurization facilities, and other fine dust and harmful gas removal facilities, and are widely used to prevent air pollution. These electrostatic precipitators usually apply a high voltage of direct current to the discharge electrode from the high voltage generator, but the negative electrode is connected to the discharge electrode, and a negative charge is applied to the dust particles contained in the air passing between the discharge electrode and the dust collecting electrode. Dust is removed by inductively attaching to the dust collecting electrode which has the property of the (+) pole, and at this time, it is largely divided into dry type and wet type according to the method of cleaning the dust attached to the dust collecting electrode.

At this time, the dry electric precipitator is a method of dropping and cleaning the attached dust by applying an impact to the dust collecting electrode by rapping (hit the dust collecting electrode with a hammer). However, since dust with strong adhesion or adhesiveness is not easily removed from the dust collecting electrode, it causes a problem of lowering the dust collection efficiency by lowering the electrical conductivity of the dust collecting electrode.

On the other hand, the wet electric precipitator was developed to compensate for the shortcomings of the dry electric precipitator, and adopts a method of supplying water to the surface of the dust collecting electrode in an intermittent or continuous manner to clean the dust collecting electrode continuously. The method of forming a water film to prevent contamination of the dust collecting electrode (dust collecting plate) at the source and cleaning is particularly useful for treating dust with specific resistance or dust with strong adhesion and age hardening.

However, the conventional wet electric precipitator has a problem that the dust collection plate is not cleaned smoothly and the dust collection efficiency gradually decreases as it is used, and there is a problem that the size of the dust collector becomes enlarged due to the installation of a number of spray pipes on the upper part of the dust collection plate. Due to the unnecessary spark or arc discharge caused by the generated water particles, continuous operation is difficult, and the installation cost of installing the dust collection plate is very high due to the restrictions on the material of the dust collection plate.

To overcome this problem, the applicant of the present application prevents water particles from scattering when forming a water film by spraying the cleaning liquid sprayed from the spray nozzle in a direction inclined at a certain angle with respect to the plane of the dust collecting plate in Korean Patent Publication No. 10-2014-0089722. Thus, a water film forming apparatus for a wet electric precipitator has been provided that prevents unnecessary sparks or arc discharges from occurring, and allows the cleaning liquid to reach the entire dust collection plate to form a uniform water film on the surface of the dust collection plate.

However, the above-described electrostatic precipitator has a limitation in removing materials having high viscosity and high adhesion such as non-aqueous oil mist and tar.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a dust collecting electrode of a wet electric precipitator for removing highly viscous substances for collecting by reducing the viscosity of substances having high viscosity and water insoluble properties.

In addition, another object of the present invention is to provide a dust collecting electrode of a wet electric precipitator for removing high-viscosity substances with improved recycling and economical efficiency by circulating a high-temperature fluid inside the dust collecting electrode.

The dust collecting electrode of the wet electric precipitator for removing high-viscosity substances according to the present invention includes a plurality of dust collecting electrodes connected back and forth by a transfer pipe connected to a water supply pipe and a water outlet pipe, respectively, to which a high-temperature fluid is supplied. A discharge electrode is installed between the dust collecting electrodes, and the fluid is a wet electric precipitator that heats the surface of the dust collecting electrode.In the inside of the dust collecting electrode, a water supply space part and a water supply space part and a water supply space part at left and right sides respectively The water outlet space part is formed separately, the water supply space part and the water outlet space part have a structure in which the lower side of the partition wall is open to communicate with each other, and the inside of the transfer pipe is in communication with the water supply space part and the water outlet space part to supply fluid. And a plurality of conveying holes radially formed to discharge it are combined, and the high temperature fluid is'water supply pipe-transfer pipe-transfer holder-transfer hole-water supply space-outlet space-transfer holder-transfer by water pressure The technical feature is that substances such as non-aqueous oil mist and high-viscosity tar collected on the surface of the dust collecting electrode as they are sequentially transported and discharged to the pipe-outlet pipe' are gradually reduced in viscosity and are dropped by their own weight and collected.

According to the dust collecting electrode of the wet electric precipitator for removing high viscosity substances according to the present invention, the surface of the dust collecting electrode is heated by continuous supply of heated fluid to more easily remove non-aqueous or high viscosity substances. By transporting the particles to the inside rather than outside of the dust collecting electrode, contamination of the fluid is minimized, making it easier to recycle, slowing down the cooling rate of the fluid, and operating the electric dust collector with a minimum amount of heat, resulting in more economical effects.

1 is a front view of an electric precipitator equipped with a dust collecting electrode of the present invention,
2 is a side view of the electric folding machine with the dust collecting electrode of the present invention,
3 is a perspective view of a dust collecting electrode according to the present invention,
4 is a perspective view showing the inside of the dust collecting electrode according to the present invention,
5 is a perspective view showing the flow of fluid in the collecting electrode of the present invention.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The dust collecting electrode of the wet electric precipitator for the removal of high-viscosity substances according to the present invention is a plurality of dust collecting electrodes 100 forming a square shape as shown in Figs. 1 and 2 are installed at intervals in front and rear, left and right, and installed in front and rear. The discharge electrode 10 supported by the upper support 11 and the lower support 12 is coupled between the dust collecting electrodes 100.

As shown in FIG. 3, the dust collecting electrode 100 is formed of a metal plate to achieve a predetermined thickness, and a space is formed inside the dust collecting electrode 100 so that fluid can be transferred.

The dust collecting electrode 100 connected back and forth is connected by a pair of transfer pipes 20 coupled to the upper side so that the insides communicate with each other, and the lower side of the dust collecting electrode 100 corresponds to the length of the transfer pipe 20. Since the spacing retainer 30 is coupled, a constant spacing for installing the discharge electrode 10 is maintained.

A water supply pipe 40 is connected to the front end of the transfer pipe 20 on one side to supply the fluid to the inside of the dust collecting electrode 100, and a water outlet to recover the supplied fluid at the tip of the transfer pipe 20 on the other side. Pipe 50 is connected.

And each dust collecting electrode 100 is coupled to a pair of transfer holders 60, the transfer holder 60 is installed inside the transfer pipe 20 to communicate with the inside of the dust collecting electrode 100. .

Meanwhile, as shown in FIG. 4, a partition wall 70 that divides the central portion is vertically formed inside the dust collecting electrode 100, and a water supply space 71 is formed on the left side of the partition wall 70, , A water outlet space part 72 is formed on the right side, and the water supply space part 71 and the water outlet space part 72 are configured to communicate with each other by opening the lower side of the partition wall 70.

The transfer holder 60 is installed inside or in communication with the transfer pipe 20, and the rear ends are respectively inserted and installed in the water supply space part 71 and the water outlet space part 72, and the transfer holder ( A plurality of conveying holes 61 are radially formed on the outer peripheral surface of 60).

And the transfer pipe 20 and the transfer holder 60, and the connection pins 21 and 31 are respectively coupled to each other by penetrating through the spacing holder 30, and the ends of the connection pins 21 and 31 At the rear end, a nut is coupled and fixed, and the connection pins 21 and 31 fixed to the dust collecting electrode 100 by the nut include a plurality of dust collecting electrodes 100 and a transfer pipe 20, and a gap holding device 30. It is supported by being joined.

The dust collecting electrode 100 of the wet electrostatic precipitator for removing high-viscosity substances according to the present invention configured as described above removes non-aqueous or highly viscous substances collected on the surface, and for this purpose, a high-temperature fluid is used.

That is, heated water or oil is mainly used, and depending on the situation, it is possible to use high-temperature steam, and it is preferable to recover and use waste heat or to supply a fluid by heating a hot water tank using an electric heater.

When such a high-temperature fluid is supplied to each of the transfer pipes 20 through the water supply pipe 40 as shown in FIG. 5, the transfer hole 61 of the transfer holder 60 installed inside the transfer pipe 20 is Through the fluid is transferred to the water supply space (71).

And the fluid in the water supply space part 71 is transferred to the water outlet space part 72 by water pressure, and the high-temperature fluid filled in the water supply space part 71 and the water discharge space part 72 causes the dust collecting electrode 100 to Substances such as non-aqueous oil mist and high viscosity tar collected on the surface gradually decrease in viscosity and fall by their own weight and are collected.

The fluid is transferred to and discharged to the transfer pipe 20 and the water outlet pipe 50 through the transfer holder 60 of the water outlet space 72 by the water pressure caused by the continuous supply of the water supply pipe 40, and the discharged fluid is reheated. It is supplied to the water supply pipe 40, or is recycled by spraying through a nozzle installed on the upper side of the electric dust collector to clean the surface of the dust collecting electrode 100.

Therefore, in the present invention, the surface of the dust collecting electrode 100 can be heated more easily by heating the surface of the dust collecting electrode 100 by continuous supply of the heated fluid, and the fluid is moved to the inside of the dust collecting electrode 100 rather than outside. Contamination of the fluid is minimized by transferring, making it easier to recycle, slowing the cooling rate of the fluid, and operating the electric precipitator with a minimum amount of heat, resulting in more economical effects.

10: discharge electrode 11: upper support
12: lower support 20: transfer pipe
21, 31: connection pin 30: gap maintenance
40: water supply pipe 50: water outlet pipe
60: transfer holder 61: transfer hole
70: bulkhead 71: water supply space
72: water outlet space 100: dust collection pole

Claims (5)

A plurality of dust collecting electrodes connected back and forth by a transfer pipe connected to the water supply pipe and the outlet pipe to which the high-temperature fluid is supplied are installed at a back and forth interval, and a discharge electrode is installed between the dust collecting electrodes, and the fluid is the surface of the dust collecting electrode In the wet electric precipitator for heating,
In the inside of the dust collecting electrode 100, a water supply space 71 and a water outlet space 72 are separately formed on the left and right sides, respectively, with a partition wall 70 that divides the central part vertically, and the water supply space part ( 71) and the water outlet space part 72 form a structure in which the lower side of the partition wall 70 is open so that they can communicate with each other,
Inside the transfer pipe 20 there is a transfer holder 60 in which a plurality of transfer holes 61 are radially formed so as to respectively communicate with the water supply space 71 and the water outlet space 72 to supply and discharge fluid. Combined,
The high-temperature fluid is generated by the water pressure'water supply pipe (40)-transfer pipe (20)-transfer holder (60)-transfer hole (61)-water supply space (71)-outlet space (72)-transfer holder (60) -The non-water-soluble oil mist and high-viscosity tar collected on the surface of the dust collecting electrode 100 as they are sequentially transferred and discharged to the transfer pipe 20 -the outlet pipe 50' are collected by dropping by their own weight due to their viscosity gradually decreasing. A dust collecting electrode of a wet electric precipitator for removing highly viscous substances.
The method of claim 1,
Dust collection of a wet electric precipitator for removing highly viscous substances, characterized in that a connection pin 21 for supporting a plurality of dust collecting electrodes 100 is coupled to the inside of the transfer pipe 20 through the transfer holder 60 drama.
The method of claim 1,
A spacing retainer 30 corresponding to the length of the transfer pipe 20 is coupled to the lower side of the dust collecting electrode 100, and a connection pin supporting the dust collecting electrode 100 inside the spacing retainer 30 ( 31) is a dust collecting electrode of a wet electric precipitator for the removal of high-viscosity substances. delete delete

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