KR19990053982A - Device for removing harmful substances during pulsing period of bag filter - Google Patents

Abstract

According to the present invention, a plurality of filter dust collectors having a plurality of filter cloths installed therein are installed horizontally, and a lower hopper is installed at a lower portion of the filter dust collector, and a first induction blower for discharging air collected from the filter dust collector is connected to the upper portion of the filter dust collector. In the filter dust collector which is installed in the flow path of the exhaust duct to purify the air containing the harmful substances and discharged to the atmosphere, the recirculation valve is installed in communication with the upper chamber of the upper surface of the filter dust collector, between the recirculation valve and the lower hopper The second oil blower is installed, a chemical storage tank for injecting chemicals into the filter dust collector, and pulsing the surface of the filter cloth while the recirculation valve is opened, and when the pressure reaches a certain pressure, the air is opened and exhausted. Detecting the pressure in the main circuit valve and the filter dust collector, and the pressures before and after the first and second induction blowers. An apparatus for removing harmful substances during a pulsing period of a bag filter, characterized in that it comprises a pressure detector and a control device for opening and closing a recirculation valve and a main circuit valve by inputting a signal of the pressure detector.

Description

Device for removing harmful substances during pulsing period of bag filter

The present invention relates to a device for removing harmful substances during the pulsing period of the filter dust collector, and in particular, the filter dust is prevented from being discharged by passing the fine dust, acid gas, and dioxin, which are discharged in large quantities after air pulsing, through the circuit. The present invention relates to an air pollution pollutant reduction device that can significantly reduce pollutants emitted through the present day.

1 is a flow chart of an exhaust gas of a conventional dust collector, and FIG. 3 is a view illustrating a process of dusting off with compressed air, and a filter dust collector removes various dusts through a filter cloth 4h and a first induction blower 2. Use 1 to exhaust the exhaust gas. The exhaust gas passes through the rooms 13, 14, 15 through the lower hopper 3 through the inlet duct 10. Thereafter, it is discharged through the stack 12 by the attraction of the first induction fan 2 through the upper chamber 5.

However, when the room 1 (13) is dusted off using the compressed air 4c in the same order as described above, the preliminary dust layer 4g is destroyed like the dropped dust 4i and thus disappears. The fine dust passes through the small pores of the filter cloth (4h) until it is formed, and the acidic gas is neutralized because there is no harmful acid gas neutralizing chemical layer, and the acidic gas is not neutralized. Since dioxin does not have an activated carbon layer necessary for adsorption removal, dioxin is not adsorbed and dioxin is passed through and is released into the atmosphere through the stack 12, so that strict control of pollutants is impossible, which makes it difficult to satisfy legal environmental regulations. There is a problem that causes air pollution.

The present invention is to solve the above-mentioned problems, by dust exhausted by compressed air from the filter cloth and by recycling the air that passes until the preliminary dust layer is formed by allowing the exhaust gas to pass after the preliminary dust layer is formed, the dust Improve the removal rate, maximize the neutralization reaction by extending the reaction time when harmful acid gas passes through the pre-dust layer, and dioxins of lean concentration also maximize the contact efficiency when passing through the pre-dust layer. It is an object of the present invention to provide a device for removing harmful substances during the pulsing period of the bag filter, which can maintain the ultra high absorption rate by extending the passage time of the filter. In order to achieve the above object, the present invention includes a plurality of filter dust collectors having a plurality of filter cloths installed therein horizontally, and a lower hopper is installed at a lower portion of the filter dust collector, and a first manned blower for discharging the dust collected from the filter dust collector. And a recirculation valve installed in communication with the upper chamber of the upper surface of the filter dust collector in the filter dust collector installed in the flow path of the exhaust duct communicating with the upper part of the filter dust collector to purify the air containing harmful substances and discharge it to the atmosphere. A second induction blower installed between the valve and the lower hopper, a chemical storage tank for injecting chemicals into the filter dust collector, and a pulsing on the surface of the filter cloth with the recirculation valve open, A main circuit valve for evacuating the purified air, the pressure in the bag filter and the first and second A pressure detector for sensing the pressure before and after the blower, and a control device for opening and closing the recirculation valve and the main circuit valve by inputting the signal of the pressure detector to the apparatus for removing harmful substances during the pulsing period of the bag filter, characterized in that Is achieved.

1 is a flow chart of an exhaust gas of a conventional dust collector.

2 is a flow chart of the exhaust gas of the dust collector according to the present invention.

3 is a process of dusting off with compressed air.

4 is a flow chart of exhaust gas during normal dust collection.

5 is a flow chart of the control operation of the present invention.

<Description of the symbols for the main parts of the drawings>

1: second manned blower 2: first manned blower

3: lower hopper 4: filter dust collector

5: upper chamber 6: exhaust vent

7: recirculation valve 8: main circuit valve

18,19: pressure detector 20: control device

2 is a view showing a device for removing harmful substances during the pulsing period of the filter dust collector according to the present invention, the second induction blower (1) is the inlet duct 10 of the front end to be distributed to each of the square filter dust collector (4) Connected to each other and connected to the other rooms separated from each other to the square hopper shaped lower hopper (3) of the square filter dust collector body (4), which is branched into several ducts and assembled with various mechanisms. As shown in the figure, a plurality of filter cloths 4h rounded by special cloth are installed and connected to the upper chamber 5 plane connected by welding with the top of the filter cloth 4h.

In the upper chamber 5, the exhaust port 6 made of each circular cut is connected to a specially made recirculation valve 7 and a main circuit valve 8 through which exhaust gas continuously flows, and the recirculation valve 7 is a recirculation duct ( 9) and exhaust gas is recycled. In addition, in the middle of the untreated exhaust gas recirculation duct 9, that is, a chemical input device 16 is installed between the press-fit blowers 1 for pushing the exhaust gas in the direction of the bag filter 4 to form a dust reserve layer. The pressure detector 19 is installed in the rear end of the press-fit blower 1, the front end 18 of the second induction blower 1, and the dust collector main body to detect the pressure difference, and the detected pressure is controlled by the control device 20. Is sent).

The detailed structure of the filter dust collector 4 main body is connected to the screw conveyor (4a) made of iron foil to transfer the dust falling from the upper filter cloth (4h) to connect the rotary belt (4b) at the bottom to discharge the dust dropped out. In the upper chamber 5, the pulsing air 4f periodically flows to the blow pipe 4e via the pulse valve 4c, where the injection nozzle 4d is connected.

Hereinafter, with reference to the accompanying drawings will be described the operation and function of the present invention.

FIG. 3 is a process of dust dust removal with compressed air, and FIG. 4 is a flow chart of exhaust gas during normal dust collection. The polluted exhaust gas passes through the inlet duct 10 through the inlet blower 1 and passes through the lower hopper 3. If room 1 (13) has dusted off while passing through rooms (13, 14, 15), the contaminated exhaust gas streams of rooms 2 (14) and room 3 (15) are discharged from the upper chamber (5). 6) the next recirculation valve 7 is closed and the main circuit valve 8 installed in front of the exhaust duct 11 is opened to pass the first induction fan 2 through the exhaust duct 11, and the stack 12 is formed. Through the discharge to the atmosphere.

On the other hand, the exhaust gas from the room 1 (13) closes the main circuit valve (8) and opens the recirculation valve (7) until the constant set pressure is reached, so that the inlet blower (1) again through the recirculation duct (9). At this time, various chemicals are ejected by the suction pressure of the press-fit blower 1 in a dry state so that a dust preliminary layer is formed, and flows into the inlet duct 10, and the branched duct and the lower part The recirculation of the chamber 1 (13), the upper chamber (5), the exhaust port (6), and the recirculation valve (7) is continuously maintained through the hopper (3).

Therefore, the room 1 (13) When the exhaust gas is recycled and drugs In this When proceeding a predetermined time (until the pressure ≒ 80mmH ₂ O is reached) dust preliminary layer (4g) is completed reaches somewhat constant pressure (≒ 80mmH ₂ O) The recirculation valve 7 is closed again, and the main circuit valve 8 is opened to purify the contaminated exhaust gas in the dust preliminary layer 4g, and then pass through the first induction fan 2 through the exhaust duct 11 and stack the 12) The process of discharge to the atmosphere is carried out. Therefore, polluted exhaust gas (fine dust, harmful acid gas, dioxin, etc.) can be discharged after passing through the dust reserve layer.

Dust precipitating by air impact of room 2 (14) and room 3 (15) in which dust preliminary layer is already formed is operated sequentially in the same principle and manner as described above, and then continues through the recirculation duct (9). By circulating until this is formed, it is possible to discharge untreated polluted exhaust gas.

In addition, the value obtained by subtracting the rear end pressure 19 of the press-fit blower 1 from the front end pressure 18 of the first induction blower 2 should be negative (minus). In this case, the induction duct 10 and the lower hopper 3 ), A recirculation circuit composed of a filtration dust collector (4), an upper chamber (5), an exhaust port (6), a recirculation valve (7), a recirculation duct (9), and a press-fit blower (1) is formed, The pressure drop occurs and at the same time, there is a lot of fluid flow, so that the formation time of the preliminary dust layer can be shortened.

If the press-fit blower 1 is not installed, the pressure in the upper chamber 10 is lower than the pressure of the filter dust collector inlet duct 10 by the pressure loss amount of the filter cloth. The gas will not flow. Therefore, natural laws make it impossible to form a recycle circuit. The above process is to be adjusted in the control device 20.

5 is a flow chart of the control operation of the present invention, when the initial start step 51 and the pressure detection stage 52, that is, the pressure difference detected by the pressure detector is greater than the memory value +20, the dust removal switch 54 is operated to generate dust. This is then removed and the recirculation valve 55 is opened and the main circuit valve 56 is closed to block the release of polluted gas into the atmosphere. If the detected pressure difference is less than the memory value +20 and larger than the memory value -20, the recirculation valve 59 is closed and the main circuit valve 60 is opened to finish the final stage work (61). Therefore, the polluted exhaust gas is discharged to the atmosphere through the second layer after the preliminary dust layer is formed.

The present invention is to dualize the exhaust port of the filter dust collector, the contaminants released to the atmosphere in the unformed state after the dust is separated by air pulsing must be passed after forming the preliminary dust layer, thereby dramatically reducing the pollutant removal efficiency In addition, the present invention has the following effects as an excellent invention capable of shortening the time period of forming the dust preliminary layer.

First, the value obtained by subtracting the pressure at the front end of the manned blower from the pressure at the rear end of the pressurized blower maintains the negative pressure, thereby reducing the automatic configuration of the regeneration circuit and the formation time of the preliminary dust layer.

Secondly, the untreated exhaust gas during the formation of the preliminary dust layer by using three-way damaround is recycled until the preliminary dust layer is formed through the press blower rather than being directly discharged into the stack (120). have.

Third, the invention is capable of maintaining a fine dust removal rate of less than 10μ always at 99.9%.

Fourth, there is an effect that the reaction time is extended by passing 100% of the neutralizing chemical preliminary layer of harmful acid gas.

Fifth, it is possible to maintain a contact efficiency of 100% and maintain a water absorption rate of 99.9% or more when the dioxin passes through the activated carbon preliminary layer.

Claims (1)

A plurality of filter dust collectors having a plurality of filter cloths installed therein are installed horizontally, but a lower hopper is installed at a lower portion of the filter dust collector, and a first induction blower for discharging the collected air from the filter dust collector is connected to the upper portion of the filter dust collector. In the filter dust collector installed in the flow path to purify the air containing harmful substances and discharge it to the atmosphere, A recirculation valve installed in communication with an upper chamber of the upper surface of the filter dust collector; A second induction blower installed between the recirculation valve and the lower hopper, Chemical storage tank for injecting chemicals into the filter dust collector, A main circuit valve for pulsing the surface of the filter cloth in the state where the recirculation valve is opened, and then exhausting the purified air when the pressure reaches a predetermined pressure; A pressure detector for sensing the pressure in the filter dust collector and the pressures before and after the first and second induction blowers; And a control device for opening and closing the recirculation valve and the main circuit valve by inputting the signal of the pressure detector.