JPH10244183A - Electrostatic precipitator and method of backwashing and scavenging same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To wash electrodes with water in order to remove dust and then to shorten the time that elapses before the electrode surface is dried. SOLUTION: In order to remove dust stuck on discharge electrodes 6 and dust collecting electrodes 7, water is sprayed to the electrodes 6, 7 from water spray nozzle 8 with an inlet damper 4 and an outlet damper 5 of one dust collecting pass 3 closed. After that, clean air is taken through backwashing and scavenging pipe 20 by a scavenging fan 22 and heated by a heater 23. The heated clean air is blown from air blowing nozzles 21 toward the electrodes 6, 7 which has been washed with water to dry the electrodes. Electrodes in other dust collecting passes 3 are also similarly rid of bust one after another.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrostatic precipitator and a method for backwashing and scavenging the same. It is devised so that operation can be resumed in a short time after removal.

[0002]

2. Description of the Related Art As a device for purifying air containing dust, an electric dust collector is used. This electrostatic precipitator uses corona discharge to generate dust particles in the air.
And collects dust particles at dust collecting poles by applying a Coulomb force to the charged particles. For example, the dust particles are widely used in a ventilation system of a car tunnel.

In such an electric dust collector, dust adheres and accumulates on the discharge electrode and the dust collecting electrode as it is used.
Therefore, in order to maintain high dust collection efficiency,
It is necessary to remove accumulated dust at regular intervals.

Here, the configuration of a conventional electric dust collector and a conventional dust removing method will be described with reference to FIG. 3 and FIG. 4 which is a cross section taken along line IV-IV of FIG. As shown in both figures, the inside of the electrostatic precipitator 1 is partitioned by a plurality (three in this example) of partition plates 2, and a plurality of (four in this example) dust collection passages 3 are formed. . An inlet damper 4 is provided on the inlet side of each dust collection passage 3, and an outlet damper 5 is provided on the outlet side.

Further, in each of the dust collection passages 3, discharge electrodes 6 to which a high DC voltage is applied from a high voltage generator (not shown) are provided.
And a number of dust collecting electrodes 7 maintained at the ground potential are alternately arranged in parallel while facing each other.

In each of the dust collection passages 3, at a position upstream of the electrodes 6 and 7 and downstream of the entrance damper 4,
A water spray nozzle 8 is provided. A water pipe 10 is connected to each water spray nozzle 8 via an automatic valve 9. As will be described later, when performing electrode cleaning, pressurized water is supplied to the water spray nozzle 8 through the water pipe 10 and the automatic valve 9, and the pressurized water is jetted from the water spray nozzle 8 toward the electrodes 6 and 7. .

The blower 1 is located downstream of the outlet damper 5.
1 is installed. During normal operation (when the electrode is not washed with water), the blower 11 is driven and rotated, so that air containing dust 12 is sucked into the electrostatic precipitator 1 and dust 12 in the air is collected. Is collected by the dust collecting electrode 7, and the clean air from which dust has been removed is discharged from the outlet side of the electrostatic precipitator 1.

In the above-mentioned electric precipitator 1, in order to clean and remove dust adhering and accumulating on the discharge electrode 6 and the precipitating electrode 7, first, of the plurality of dust collecting passages 3, the first one to be cleaned is used. The entrance damper 4 and the exit damper 5 provided in the passage 3 (the uppermost dust collection passage 3 in the example of FIG. 3) are closed. In this state, by opening the automatic valve 9 in the dust collection passage 3 to be washed, the water spray nozzle 8 in the dust collection passage 3 to be washed is connected to the discharge electrode 6 and the dust collection electrode 7 in the dust collection passage 3. Pressurized water is sprayed toward the
Is removed.

Thereafter, the inlet damper 3 and the outlet damper 5 provided in the dust collecting passage 3 to be washed (the uppermost dust collecting passage 3 in the example of FIG. 3) are opened, and the ventilation generated by the rotational drive of the blower 11 is collected. By passing through the dust passage 3, the electrode surfaces of the discharge electrode 6 and the dust collection electrode 7 in the dust collection passage 3 washed with water are dried.

When one of the plurality of dust collection passages 3 is cleaned by the above-described method, the electrodes 6 and 7 of the other dust collection passages 3 are similarly sequentially placed one by one (each dust collection passage 3).
Wash each time).

When drying the surfaces of the electrodes 6 and 7, compressed water may be blown from the water spray nozzle 8 in some cases.

[0012]

In the above-described conventional method of cleaning an electric dust collector, water washing and drying are sequentially performed for each unit (each dust collecting passage). Since a long time is required for the drying process of the electrode 6 and the dust collecting electrode 7, there is a disadvantage that it takes a long time from washing the electrode of the electrostatic precipitator with water to restarting the operation.

Conventionally, when the electrode surfaces of the electrodes 6 and 7 are dried, air containing dust 12 is brought into contact with the electrodes 6 and 7, so that dust and the like adhere to the electrodes 6 and 7 in the electrode drying process. There is also a disadvantage that the electrodes 6 and 7 become dirty.

In view of the above prior art, the present invention provides an electric power supply that can reduce the time from water washing to remove dust adhering and accumulating on the discharge electrode and the dust collecting electrode and restarting operation. An object of the present invention is to provide a dust collector and a method for backwashing and scavenging the same.

[0015]

In order to solve the above-mentioned problems, according to the structure of the present invention, a discharge electrode and a dust collecting electrode are arranged in a dust collecting passage, and an inlet damper is installed at an entrance side of the dust collecting passage. At the same time, an outlet damper is provided on the outlet side of the dust collection passage, and further, when removing dust attached to the discharge electrode and the dust collection electrode, water is directed toward the discharge electrode and the dust collection electrode. In an electric precipitator provided with a water jetting means for jetting and having a blower for blowing air into the dust collection passage, water is removed to remove dust attached to the discharge electrode and the dust collection electrode. Backwash scavenging means is provided for ejecting clean air from which dust has been removed by passing through the electrode and the dust collection electrode toward the ejected discharge electrode and the dust collection electrode.

According to another aspect of the present invention, a discharge electrode and a dust collection electrode are disposed in the dust collection passage, and an entrance damper is provided at an entrance side of the dust collection passage, and an exit side of the dust collection passage is provided. An outlet damper is installed on the discharge electrode, and further, a water injection unit for jetting water toward the discharge electrode and the dust collection electrode when removing dust attached to the discharge electrode and the collection electrode is arranged. An electric precipitator provided with a blower for ventilating air in the dust collection passage, wherein the air heating means for heating clean air from which dust has been removed after passing through the electrode and the dust collection electrode; Backwash scavenging means for jetting clean air heated by the heating means toward the discharge electrode and the dust collection electrode from which water was jetted to remove dust attached to the electrode and the dust collection electrode was provided. It is characterized by the following.

Further, according to the structure of the present invention, the discharge electrode and the dust collecting electrode are arranged in the dust collecting passage, and an inlet damper is provided at the inlet side of the dust collecting passage, and the outlet side of the dust collecting passage is provided. An outlet damper is installed on the discharge electrode, and further, a water injection unit for jetting water toward the discharge electrode and the dust collection electrode when removing dust attached to the discharge electrode and the collection electrode is arranged. An electrostatic precipitator provided with a blower for ventilating air in the dust collection passage, wherein the discharge electrode and the collector to which water is jetted to remove dust attached to the discharge electrode and the dust collection electrode; Backwash scavenging means for jetting, via the water jetting means, clean air from which dust has been removed after passing through the discharge electrode and the dust collecting electrode toward the dust electrode is provided.

Further, in the configuration of the present invention, the discharge electrode and the dust collecting electrode are arranged in the dust collecting passage, and an inlet damper is provided at an inlet side of the dust collecting passage, and an outlet side of the dust collecting passage is provided. An outlet damper is installed, and further, in an electric dust collector provided with a blower for blowing air into the dust collecting passage, when removing dust attached to the discharge electrode and the dust collecting electrode, In a state in which the inlet damper and the outlet damper are closed, water is jetted toward the discharge electrode and the dust collection electrode, and thereafter, clean air from which dust has been removed through the discharge electrode and the dust collection electrode, The method is characterized in that water is jetted toward the discharge electrode and the dust collection electrode from which water has been jetted to dry the electrode surface.

[0019]

Embodiments of the present invention will be described below in detail with reference to the drawings. Note that the parts performing the same functions as those of the conventional technology are described with the same reference numerals.

FIG. 1 shows an electric precipitator according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along line II-II of FIG. As shown in both figures, the inside of the electrostatic precipitator 1 has a plurality (3 in this example).
Pieces (in this example, 4 pieces)
The book collection passage 3 is formed. An inlet damper 4 is provided on the inlet side of each dust collection passage 3, and an outlet damper 5 is provided on the outlet side.

Further, in each of the dust collection passages 3, a discharge electrode 6 to which a high DC voltage is applied from a high voltage generator (not shown) is provided.
And a number of dust collecting electrodes 7 maintained at the ground potential are alternately arranged in parallel while facing each other.

In each of the dust collection passages 3, at a position upstream of the electrodes 6 and 7 and downstream of the entrance damper 4,
A water spray nozzle 8 is provided. A water pipe 10 is connected to each water spray nozzle 8 via an automatic valve 9. As will be described later, when performing electrode cleaning, pressurized water is supplied to the water spray nozzle 8 through the water pipe 10 and the automatic valve 9, and the pressurized water is jetted from the water spray nozzle 8 toward the electrodes 6 and 7. .

It should be noted that a water spray nozzle may be provided downstream or above the electrostatic precipitator 1.

The blower 1 is located downstream of the outlet damper 5.
When the blower 11 is driven and rotated, air containing dust 12 is sucked into the electrostatic precipitator 1, and the dust 12 in the air is collected by the dust collection electrode 7. The clean air from which dust has been removed is discharged from the outlet side of the electrostatic precipitator 1.

The air inlet 20a of the backwash scavenging pipe 20 has a wide opening and faces the inside of the electrostatic precipitator 1.
In the example of FIG. 1, the air intake 20a is connected to the blower 11
Although it is arranged on the downstream side, it may be arranged at another position as long as it can take in the clean air after dust removal. For example, it may be arranged at a position upstream of the blower 11 and downstream of the outlet damper 5.

On the other hand, the other end (outlet side) of the backwash scavenging pipe 20
Is branched into a plurality (four in this example), and each dust collection passage 3
Are connected to the air blowing nozzles 21 respectively arranged in the inside.

The backwash scavenging pipe 20 is provided with a scavenging fan 22, a heating device 23 and an air valve 24 in order from the air inlet 20a toward the air blowing nozzle 21.

The scavenging fan 22 includes the air intake 2
A large amount of clean air is taken in from 0a, and the taken clean air is compressed and sent to the air blowing nozzle 21 side. The heating device 23 includes an electric heater or the like, and heats the compressed air to be fed.

Further, the air valves 24 are arranged in the respective dust collection passages 3, and the opening / closing control of each air valve 24 can be individually performed. For this reason, by individually controlling the opening and closing of each air valve 24, it is possible to select the one that blows clean air after the air blowout nozzles 21 arranged in each dust collection passage 3.

In the above-described electric precipitator 1 according to the present embodiment, in order to wash and remove dust adhering and accumulating on the discharge electrode 6 and the precipitating electrode 7, first, of the plurality of dust collecting passages 3, An inlet damper 4 and an outlet damper 5 provided in the dust collection passage 3 to be cleaned first (the uppermost dust collection passage 3 in the example of FIG. 1).
Close. In this state, by opening the automatic valve 9 in the dust collection passage 3 to be washed, the water spray nozzle 8 in the dust collection passage 3 to be washed is connected to the discharge electrode 6 and the dust collection electrode 7 in the dust collection passage 3. Spraying pressurized water toward the
The deposited dust 14 is removed.

The water containing dust 14 sprayed on the electrodes 6 and 7 is discharged to the outside of the electrostatic precipitator 1 through a drainage mechanism (not shown).

When the above-described water washing is completed, the air valve 24 provided in the dust collecting passage 3 to be washed (the uppermost dust collecting passage 3 in the example of FIG. 1) is opened. At this time, the dampers 4 and 5 of the dust collection passage 3 are kept closed. Further, the air valve 24 in the other dust collection passage 3 is closed.

When the air valve 24 provided in the dust collecting passage 3 to be cleaned (the uppermost dust collecting passage 3 in the example of FIG. 1) is opened, the compressed and heated clean air is discharged from the dust collecting passage 3. The electrode surfaces of the electrodes 6, 7 which are blown out from the air blowing nozzle 21 and blown to the electrodes 6, 7 and washed with water are dried. Since there is a slight gap even when the dampers 4 and 5 are closed, the air ejected into the dust collection passage 3 leaks from the gap after being blown to the electrodes 6 and 7.

Since a large amount of heated clean air is blown onto the water-washed electrodes 6 and 7, the electrodes can be dried in a short time. In addition, since clean air containing no dust is blown, the electrodes 6 and 7 are not contaminated in the electrode drying step.

After one of the plurality of dust collection passages 3 is cleaned by the above-described method, the electrodes 6 and 7 of the other dust collection passages 3 are similarly successively unit-by-unit (each dust collection passage 3). Wash each time).

In the above embodiment, the heating device 23
Is provided in the backwash scavenging pipe 20, but the heating device 23 can be omitted.

A switching valve is interposed in the water pipe 10 to supply water to the water spray nozzle 8 when washing the electrode with water, and to switch the valve when drying the electrode. And pressurized air supplied from the scavenging fan 22 is supplied to the water spray nozzle 8 and clean compressed air is blown to the electrodes 6 and 7 via the water spray nozzle 8 to perform electrode drying. Is also good.

[0038]

As described above, according to the present invention, the discharge electrode and the dust collecting electrode are arranged in the dust collecting passage, and the inlet damper is provided at the entrance side of the dust collecting passage and the dust collecting passage is provided. An outlet damper is provided on the outlet side of the dust passage, and further, a water jetting unit that jets water toward the discharge electrode and the dust collection electrode when removing dust attached to the discharge electrode and the dust collection electrode. And an air precipitator provided with a blower for ventilating air in the dust collection passage, wherein the water sprayed to remove dust attached to the discharge electrode and the dust collection electrode. Towards the electrode and dust collection electrode,
A backwash scavenging means for ejecting clean air from which dust has been removed by passing through the electrode and the dust collecting electrode, or clean air from which dust has been removed by passing through the electrode and the collecting electrode Air heating means for heating the discharge electrode and the dust collecting electrode, and clean air heated by the heating means toward the discharge electrode and the dust collecting electrode from which water is jetted to remove dust attached to the discharge electrode and the dust collecting electrode. Or with a backwashing scavenging means that ejects water, toward the discharge electrode and dust collection electrode where water was jetted to remove dust attached to the discharge electrode and dust collection electrode,
A backwash scavenging means for jetting, through the water jetting means, clean air from which dust has been removed after passing through the discharge electrode and the dust collecting electrode is provided.

Further, in the present invention, the discharge electrode and the dust collecting electrode are disposed in the dust collecting passage, respectively, and an inlet damper is provided at the entrance side of the dust collecting passage, and at the outlet side of the dust collecting passage. In an electric precipitator provided with an outlet damper, and further provided with a blower for ventilating the air in the dust collecting passage, when removing dust adhering to the discharge electrode and the dust collecting electrode, the inlet damper is used. With the exit damper closed, water is sprayed toward the discharge electrode and the dust collection electrode, and then water is sprayed through the clean air from which the dust has been removed by passing through the discharge electrode and the dust collection electrode. The structure is such that the surface of the electrode is dried by squirting toward the discharge electrode and the dust collection electrode.

According to the present invention, after the dust adhering and accumulating on the discharge electrode and the dust collecting electrode is washed with water, the clean air downstream of the electrostatic precipitator is cleaned by the backwash scavenging means. It is blown out to the dust pole. As described above, since the clean air is blown, the surface of the discharge electrode and the dust collecting electrode does not become dirty, and a large amount of air can be blown to the electrode washed with water, so that the surface of the discharge electrode and the dust collecting electrode are dried. Time is greatly reduced.

After the discharge electrode and the dust collecting electrode are washed with water as described above, the clean air downstream of the electric precipitator is heated as required, and then blown out to the discharge electrode and the dust collecting electrode, thereby discharging the discharge electrode and the dust collecting electrode. Since the surface is dried, the drying time can be greatly reduced as compared with the conventional method in which the surface of the discharge electrode and the surface of the dust collection electrode are dried by ventilation with a blower after washing with water. Thus, it is possible to reduce the time required to restart the operation of the electrostatic precipitator after performing the dust removal work on the electrode, which also contributes to an improvement in efficiency.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an electric precipitator according to an embodiment of the present invention.

FIG. 2 is a sectional view showing a II-II section of FIG. 1;

FIG. 3 is a configuration diagram showing a conventional electric precipitator.

FIG. 4 is a sectional view showing an IV-IV section in FIG. 3;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Electric dust collector 2 Partition plate 3 Dust collection passage 4 Inlet damper 5 Outlet damper 6 Discharge electrode 7 Dust collecting electrode 8 Water spray nozzle 9 Automatic valve 10 Water pipe 11 Blower 20 Backwash scavenging pipe 20a Air intake 21 Air blowing nozzle 22 scavenging fan 23 heating device 24 air valve

 ────────────────────────────────────────────────── ─── Continuing from the front page (72) Inventor Yasutoshi Ueda 1-1-1 Wadazakicho, Hyogo-ku, Kobe-shi, Hyogo Inside Mitsubishi Heavy Industries, Ltd. Kobe Shipyard

Claims (4)

[Claims] An exhaust electrode and a dust collecting electrode are disposed in a dust collecting passage, and an inlet damper is provided at an inlet side of the dust collecting passage, and an outlet damper is provided at an outlet side of the dust collecting passage. A water jetting means for jetting water toward the discharge electrode and the dust collecting electrode when removing dust adhering to the discharge electrode and the dust collecting electrode, and the dust collecting passage. An electric precipitator provided with a blower that allows air to flow through the inside, wherein the water is sprayed in order to remove dust attached to the discharge electrode and the dust collection electrode. An electric precipitator comprising backwash scavenging means for blowing clean air from which dust has been removed after passing through an electrode and a precipitating electrode. 2. A discharge electrode and a dust collection electrode are disposed in the dust collection passage, and an entrance damper is provided at an entrance side of the dust collection passage, and an exit damper is provided at an exit side of the dust collection passage. A water jetting means for jetting water toward the discharge electrode and the dust collecting electrode when removing dust adhering to the discharge electrode and the dust collecting electrode, and the dust collecting passage. An electric precipitator provided with a blower for ventilating air therein, wherein: an air heating means for heating clean air from which dust has been removed by passing through the discharge electrode and the dust collection electrode; and the discharge electrode and the dust collection Backwash scavenging means for jetting clean air heated by the heating means toward the discharge electrode and the dust collection electrode from which water is jetted to remove dust attached to the pole. Electric dust collector. 3. An exhaust electrode and a dust collecting electrode are arranged in the dust collecting passage, and an inlet damper is installed on an inlet side of the dust collecting passage, and an outlet damper is installed on an outlet side of the dust collecting passage. A water jetting means for jetting water toward the discharge electrode and the dust collecting electrode when removing dust adhering to the discharge electrode and the dust collecting electrode, and the dust collecting passage. An electric precipitator provided with a blower for ventilating the air inside, toward the discharge electrode and the dust collection electrode from which water was jetted to remove dust attached to the discharge electrode and the collection electrode. An electric dust-collecting device, comprising: a back-washing scavenging means for jetting, through the water jetting means, clean air from which dust has been removed after passing through the discharge electrode and the dust collecting electrode. 4. An exhaust electrode and a dust collecting electrode are disposed in the dust collecting passage, and an inlet damper is provided at an inlet side of the dust collecting passage, and an outlet damper is provided at an outlet side of the dust collecting passage. The dust collecting apparatus further includes a blower that ventilates the air in the dust collecting passage, wherein the dust damper and the outlet are used to remove dust attached to the discharge electrode and the dust collecting electrode. With the damper closed, water was sprayed toward the discharge electrode and the dust collection electrode, and then water was sprayed through the clean air from which the dust was removed passing through the discharge electrode and the dust collection electrode. A backwashing and scavenging method for an electric precipitator, wherein the surface is dried by squirting toward the discharge electrode and the collection electrode.