KR100613264B1 - Wet type scrubber for exhaust gas - Google Patents

Abstract

The present invention relates to a device for wet purifying harmful exhaust gas, and more particularly, to a liquid that sprays a liquid into a purification treatment chamber equipped with an eliminator, which can effectively remove particulates and water contained in the exhaust gas. It relates to a purification device. The present invention also relates to a wet purifying apparatus capable of effectively treating sludge generated during purifying treatment to purify exhaust gas without releasing wastewater.

Exhaust gas wet purifying apparatus according to the present invention, the wet purifying chamber and the wet purifying chamber is disposed so that the discharge gas flowing into the inlet flows horizontally toward the outlet and the drain hole is formed in the side of the upper part spaced apart from the bottom surface, An eliminator having a plurality of bent blades disposed therein and arranged to form a passage of the exhaust gas, and having a lower surface disposed below the drain hole and a liquid flowing out of the drain hole; Oil and water separation tank for purification by passing through the water tank of the sequential, the injection nozzle for spraying to the inlet space of the wet purification chamber, and the concentration tank for receiving and condensing the sludge precipitated in the oil and water separation tank, And a dehydrator for separating and discharging water from the sludge.

Exhaust Gas, Neutralization, Wet Purification Chamber, Oil Separation Tank, Dehydrator

Description

WET TYPE SCRUBBER FOR EXHAUST GAS}

1 is a schematic diagram of one embodiment of a wet purifying apparatus according to the present invention;

2 is a schematic view of another embodiment of a wet purifying apparatus according to the present invention;

Figure 3 is a perspective view of one embodiment of the eliminator used in the wet purifying apparatus according to the present invention

Figure 4 is a various arrangement state of the injection nozzle and eliminator in the wet purifying apparatus according to the present invention

5 is a schematic view of a conventional wet purifier

<Short description of drawing symbols>

10 Purification Chamber 11 Eliminator

20 oil and water separation tank 50 concentration tank

70 Dehydrator 80 Chemical Tank

81 ph sensor

The present invention relates to a device for wet purifying harmful exhaust gas, and more particularly, it is possible to effectively remove particulates and water contained in the exhaust gas by spraying a liquid in a purification treatment chamber equipped with an eliminator. It relates to a wet purifier. The present invention also relates to a wet purifying apparatus capable of effectively treating sludge generated during purifying treatment and purifying exhaust gas without releasing wastewater.

FIG. 5 shows an apparatus for wet-cleaning a gas discharged from an industrial site in which a lot of dust is generated in the related art. In the exhaust gas wet purifier shown in FIG. 5, a liquid is sprayed in front of the eliminator 11 installed in the purification chamber 10 to remove dust or harmful substances contained in the exhaust gas. When the exhaust gas is acidic, it neutralizes the acidic exhaust gas by spraying an alkaline solution such as NaOH to neutralize the exhaust gas, and salt or dust generated by reacting the acid gas with the alkali solution in the eliminator 11. Remove and drain. The dust or salt separated from the eliminator 11 is dropped into the oil / water separation tank 20 through the drain pipe 15 installed at the bottom of the purification chamber 11 together with the water. In the oil / water separation tank 20, the separated solution is supplied to the nozzle through the pump 30 to circulate.

However, in the conventional exhaust gas wet scrubbing apparatus as described above, the drain pipe is installed on the bottom surface of the purification chamber so that the exhaust gas passes through the space between the eliminator and the bottom surface (b path indicated by arrows in the drawing). ) Is to be discharged, there is a problem that the purifying effect in the eliminator is halved. In addition, since the moisture in the exhaust gas by condensate or liquid spray is discharged without being completely removed, a separate facility for removing the moisture of the exhaust gas is required when installing a dry purification installation such as a bag filter at the rear stage. There is a problem.

In addition, in the conventional exhaust gas wet scrubber, the water tank of the oil / water separator is one, and when dust or reactants deposited in the oil / oil separator are supplied to the nozzle through the pump, the nozzle is clogged and frequently repaired. In case of purification, there is a problem in that wastewater is generated and a separate wastewater treatment facility should be provided.

The present invention is to solve the problems of the conventional exhaust gas wet purifier as described above. An object of the present invention is to provide a purification apparatus that can change the structure of the drain pipe of the purification chamber to increase the removal efficiency of dust, mist, water, condensate, etc. from the exhaust gas.

In addition, an object of the present invention is to change the structure of the oil and water separation tank, to provide a wet purifier that can prevent the generation of waste water and prevent clogging of the spray nozzle of the purification chamber.

Exhaust gas wet purifying apparatus according to the present invention is provided with an inlet for the exhaust gas is introduced and the outlet for the discharged treated gas, the exhaust gas flowing into the inlet is arranged to flow horizontally toward the outlet, A wet purging chamber having a drainage hole formed at a side of the upper part spaced apart from the bottom surface, and disposed inside the wet purifying chamber to separate the inside of the wet purging chamber into an inlet space and an outlet space, and a passage of the exhaust gas is provided. It includes a plurality of bent blades arranged to form, the eliminator installed so that the lower surface is located below the drain hole, and a plurality of water tank, and receives the liquid flowing out of the drain hole, Oil-water separation tank for purification by passing through a plurality of tanks sequentially, and the liquid of the last treatment tank of the oil-water separation tank A spray nozzle installed to spray the inlet-side space of the wet purification chamber, a condensing tank for receiving and condensing the sludge deposited in the oil-water separation tank, and receiving the sludge concentrated in the condensing tank to separate the filtrate into an oil-water separation tank. Supply to the last treatment tank of, characterized in that the filtrate comprises a gastric dehydrator to discharge the separated cake.

In the case of treating the acidic exhaust gas with the purifying device according to the present invention, a PH sensor is installed in the oil and water separation tank, and is connected to the alkaline chemical storage tank and the storage tank, and the chemicals feed for supplying the alkaline chemicals to the oil and water separation tank. A pump and a control device for supplying the medicine to the oil / water separation tank by operating the chemical transfer pump when the measured value of the ph sensor is input to the predetermined range may be purged.

Preferably, the plurality of blades of the eliminator are disposed vertically such that moisture or dust removed from the eliminator easily falls to the bottom of the wet purification chamber by gravity. In addition, in order to increase the pollutant removal efficiency of the eliminator, the plurality of eliminators are arranged to be spaced apart by a predetermined distance, and a plurality of nozzles are installed, but at least one nozzle is disposed between the spaced apart eliminators It is more preferable.

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

1 is a schematic diagram of one embodiment of a wet purifying apparatus according to the present invention.

The wet purifier according to the present embodiment includes a wet purging chamber 10 having an inlet 17 through which exhaust gas flows in and an outlet 12 through which the treated exhaust gas flows out, and an inside of the wet purification chamber. A plurality of baths for purifying liquid containing liquids such as a pair of eliminators 11 disposed inside the wet purification chamber and dust discharged from the wet purification chamber 10 so as to be separated into a side space and an outlet space. It includes an oil and water separation tank 20, a concentration tank 50 for concentrating the sludge precipitated in the oil and water separation tank 20, and a dehydrator 70 for separating water from the concentrated sludge. It also includes a spray nozzle 18 for spraying liquid into the inlet-side space of the wet purification chamber 10.

The lower portion of the wet purification chamber 10 is fixed to the mounting table 14 for installing the eliminator spaced apart from the floor by a predetermined distance. In addition, the wet purification chamber 10 is arranged so that the exhaust gas flowing into the inlet 17 flows horizontally toward the outlet 12, and the eliminator 11 is installed to be perpendicular to the flow of the exhaust gas. It is. Further, a drainage hole 13 is formed in the side wall of the wet purification chamber 10 at a position higher than the lower surface of the eliminator 11 for draining the liquid accumulated on the bottom surface. In addition, the drain pipe 15 for cleaning is connected to the bottom surface of the wet purification chamber 10, and in use, a valve 16 for closing the drain pipe 15 is provided.

The eliminator 11 installed inside the wet purification chamber 10 is disposed inside the wet purification chamber 10 to separate the wet purification chamber 10 into an inlet space and an outlet space. The lower surface of the eliminator 11 is mounted and installed on the mounting table 14 located below the drainage hole 13, and the side surfaces except the lower surface are installed to be in close contact with the inner surface of the wet purification chamber 10. do. Therefore, the water separated from the exhaust gas passing through the eliminator 11 flows into the lower portion of the wet purification chamber 10 and is collected, and the lower oil / water separation tank 20 through the drain pipe 19 connected to the drain hole 13. Is discharged into the first tank 20a. Since the lower surface of the eliminator 11 is located below the drainage hole 13, water or chemical solution is always present in the space between the lower surface of the eliminator 11 and the bottom surface of the wet purification chamber 10. Since the exhaust gas cannot pass through the exhaust gas, the exhaust gas is always discharged to the outlet 12 in a state in which water is removed through the eliminator 11.

3 is a perspective view of one embodiment of the eliminator used in the wet purifying apparatus according to the present invention. Referring to FIG. 3, the eliminator 11 includes an upper plate 11a provided with a handle, a frame 11d for accommodating a plurality of blades 11b, a lower plate 11c, an upper plate 11a, and a lower plate. It consists of the some blade 11b provided in 11c. The plurality of blades 11b are disposed vertically so that moisture or dust removed from the exhaust gas falls to the bottom surface of the wet purification chamber 10 by gravity. In addition, each blade 11b is bent to remove the fine particles by guiding the flow direction of the exhaust gas. In addition, mounting grooves 11c-1 for installing the blades 11b are formed in the upper plate 11a and the lower plate 11c.

4 is a view illustrating various arrangements of the spray nozzle and the eliminator in the wet purifying apparatus according to the present invention. As shown in FIG. 4A, the spray nozzle 18 is installed such that the liquid sprayed from the spray nozzle is directed downstream of the discharge gas flow direction (arrow direction) (as opposed to that shown in FIG. 1), or FIG. 4B. As shown in FIG. 4, a pair of spray nozzles 18 may be installed so as to face the spray directions, or may be provided between the plurality of eliminators 11 as illustrated in FIG. 4C.

Dust or water removed by the eliminator 11 is dropped into the first water tank 20a of the oil / water separation tank 20 through the discharge hole of the wet purification chamber 10. Oil-water separation tank 20 is provided with a plurality of tanks (20a-20f), the through-hole is formed in the partition wall so that the supernatant flows once to the neighboring water tank and once the lower water flows so as to infiltrate the sludge. have. Therefore, all the particles, such as dust, are precipitated in the intermediate water tank, and the last water tank 20f is made to flow the clear purified supernatant. The pump 30 is installed in the last water tank 20f through the pipe 31, and the pump supplies purified water or solution to the injection nozzle 18 installed in the wet purification chamber 10. This can prevent the blockage.

The lower part of each water tank of the oil / oil separation tank 20 is connected to a natural pipe or a pump 40 for discharging the sludge. In the case of the pump 40, the sludge is sucked and transferred to the concentration tank 50. The sludge concentrated in the concentration tank 50 is sent to the dehydrator 70 through the pump 60 connected to the pipe 61. The dehydrator 70 separates the filtrate from the sludge and sends it to the last tank 20f of the oil and water separation tank 20, and the sludge in the form of cake is discharged separately and disposed of. Reference numeral 90 is a blower for sucking the exhaust gas and discharging it to the chimney 100.

It is preferable to use the exhaust gas wet purifier of the present embodiment in an industrial site where a large amount of dust is discharged. When used in industrial sites that emit a lot of dust, it is preferable to use water as the liquid sprayed by the nozzle. In the purifying apparatus of the present embodiment, all of the exhaust gas including the sprayed water passes through the eliminator and is discharged to the outlet with water removed, thereby preventing excessive loss of water. Therefore, there is little need to replenish the solution for spraying. In addition, the wet purifier of the present embodiment does not block the nozzle because the sludge is completely purified in the oil-water separation tank, and the sludge is concentrated and discharged in the form of a cake, and the solution is circulated so that the waste water is not discharged. Will contribute to conservation.

2 is a schematic diagram of another embodiment of a wet purifying apparatus according to the present invention.

The difference between the exhaust gas wet purifier according to the present embodiment and the exhaust gas wet purifier shown in FIG. 1 is that when the exhaust gas is acid, an alkaline solution is injected to neutralize the acid exhaust gas in the wet purification chamber 10. It is also provided with the apparatus for injecting through the nozzle 18 further.

For example, if the exhaust gas is an acid gas, the exhaust gas contains SOx, NOx, HCl, dioxin and other harmful substances. In order to treat the acidic exhaust gas, alkaline chemicals are sprayed with a wet purifier to be in contact with the acidic exhaust gas and neutralized. The exhaust gas passes through the eliminator to remove moisture and dust. Alkaline agents can use calcium-based (Ca (OH) ₂ , CaO, CaCO ₃ ) and sodium-based (NaHCO ₃ , NaOH, Na ₂ CO ₃ ) solutions, but when using a calcium-based solution the solubility of the reaction product is sodium It is preferable to use sodium based solution because it is lower than the system, so scaling occurs in the reactor by precipitation.

When caustic soda (NaOH) is used as a drug in the wet treatment process, the acidic exhaust gas is neutralized by the following reaction schemes 1 to 4. Sulfur dioxide or hydrogen chloride, which are easily dissolved in water or alkaline solutions, is easily removed in the wet process, but NO, dioxins, and other harmful gases that are not easily dissolved in water or alkaline solutions are rarely removed in the wet process and are released. Treatment process is required. In the case of dust, inertial impaction with caustic soda solution droplets sprayed through the spray nozzle of a wet purification chamber, interception by droplet particles, or diffusion by brown motion in the case of fine particles In addition, it is removed in the process of passing through the eliminator by colliding with the droplet by other gravity and electric force.

SO ₂ + ₂ NaOH => Na ₂ SO ₃ + H ₂ O

SO ₂ + NaOH => NaHSO ₃

2HCl + 2NaOH => 2NaCl + 2H ₂ O

NO + ₂ NaOH + 1 / 2O ₂ => Na ₂ (NO) ₃

Exhaust gas purifying apparatus of this embodiment is sprayed on the purifying apparatus of the embodiment shown in Figure 1 to neutralize the acidic exhaust gas as described above, and to remove particulate harmful substances such as dust contained in the exhaust gas. Apparatus is provided for controlling and adding caustic soda (NaOH) agent to the appropriate pH. That is, the storage tank 80 for storing alkaline chemicals, the PH sensor 81 installed in the water tank 20f of the oil-water separation tank 20, and the chemicals stored in the chemical storage tank 80 are transferred to the water tank 20f. It further comprises a chemical transfer pump 83 and pipes (82, 84) to. In addition, although not shown, the control device for supplying the medicine to the final treatment tank (20f) by operating the drug transfer pump in the case of receiving the measured value of the PH sensor 81 is a value of a predetermined range. The control device usually uses a PLC, but a general purpose computer may be used.

Hereinafter, the operation of the exhaust gas wet purifier of the present embodiment will be described.

When the pipe to which the exhaust gas is supplied to the inlet 17 of the wet purification chamber 10 is connected, and the blower 90 is operated, the exhaust gas is sucked through the inlet 17 of the wet purification chamber 10. The aspirated exhaust gas is neutralized by a reaction as in Chemical Formulas 1 to 4 by a solution in which the alkaline chemicals sprayed from the injection nozzle 18 are dissolved. The neutralized exhaust gas passes through the eliminator 11 to remove dust or moisture and is discharged through the outlet 12. Dust contained in the exhaust gas removed by the eliminator 11, neutralized flame, water, condensate, etc. are collected on the bottom surface of the wet purification chamber 10, the lower surface and the wet type of the eliminator 11 In the space between the bottom surface of the purification chamber 10 is always filled with a solution in which the drug is dissolved so that the exhaust gas can not pass. Therefore, the exhaust gas is always discharged through the eliminator 11 to the outlet 12 in a state in which dust or water is removed. Moisture collected by flowing to the lower portion of the wet purification chamber 10 is discharged to the first water tank 20a of the lower oil / water separation tank 20 through the drain pipe 19 connected to the drain hole 13. Dust or reaction salts contained in the solution are precipitated at the bottom of the oil and water separation tank 20 while being sequentially purified in the oil and water separation tank 20. The sludge settled at the bottom of the oil / water separation tank 20 is sent to the concentration tank 50 through the pump 40, concentrated, dehydrated in the dehydrator 70, and discharged in the form of a cake. The dewatered solution in the dehydrator is sent to the oil and water separation tank 20 for reuse. If the value measured by the PH sensor 81 installed in the oil / water separation tank 20 deviates from a predetermined value, the pump 83 is operated by a controller not shown to operate the chemicals stored in the tank 80. To feed.

According to the present invention, in the wet purifier of the exhaust gas, a drainage hole is formed at a position higher than the lower surface of the eliminator provided in the wet purification chamber, so that water and dust of the exhaust gas can be removed more efficiently. In addition, the solution containing the dust removed from the exhaust gas is purified in an oil and water separation tank having a plurality of treatment tanks to prevent clogging of the nozzle. In addition, the filtrate contained in the sludge discharged from the oil and water separation tank can be separated and reused in the dehydrator so that it does not have to discharge the waste water, thereby contributing to environmental protection.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

Claims (4)

An inlet for the inlet of the exhaust gas and an outlet for the outlet of the treated exhaust gas, the outlet gas flowing into the inlet flowing horizontally toward the outlet, and disposed on a side of the upper part spaced from the bottom by a predetermined distance; A wet purging chamber having a drain hole, A plurality of bent blades disposed inside the wet purification chamber to separate the inside of the wet purification chamber into an inlet space and an outlet space, and arranged to form a passage of the exhaust gas, and a lower surface of the wet purification chamber; An eliminator installed to be located at the lower part, An oil / water separation tank having a plurality of water tanks, supplied with the liquid flowing out of the drain hole, and configured to pass through the plurality of water tanks in order to purify the water; An injection nozzle installed to receive liquid from the last treatment tank of the oil / oil separation tank and spray the liquid into the inlet side space of the wet purification chamber; A concentrating tank for concentrating and receiving the sludge precipitated in the oil / oil separation tank; And a dehydrator for discharging the cake from which the filtrate is separated and supplied to the final treatment water tank of the oil and water separation tank by receiving the concentrated sludge from the concentration tank. The method of claim 1, The exhaust gas is an acid exhaust gas, When the PH sensor installed in the oil and water separation tank, the alkaline chemical storage tank, the chemical transfer pump connected to the storage tank for supplying the alkaline chemicals to the oil and water separation tank, and the measured value of the PH sensor is received and the value is within a predetermined range And a control device for supplying the medicine to the oil / water separation tank by operating the chemical transport pump. The method according to claim 1 or 2, The plurality of blades of the eliminator are arranged vertically so that the moisture or dust removed from the exhaust gas fall to the bottom of the wet purification chamber by gravity to the exhaust gas wet purifier. The method of claim 3, The plurality of eliminators are installed, spaced apart a predetermined distance, the nozzle is a plurality and at least one nozzle is installed between the spaced apart eliminators, characterized in that the wet gas purification device.

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