KR101180066B1 - The control method of immersion type scrubber - Google Patents

Abstract

The present invention relates to a submerged scrubber control method, wherein in a submerged scrubber control method for purifying foreign substances contained in exhaust gas generated in various manufacturing processes by contacting with water, the scrubber is partitioned (23). It is divided into the primary scrubber 10 and the secondary scrubber 30, and when the suction fan 50 is connected to the outlet of the secondary scrubber 30, the primary, secondary scrubber (10, 30) the upper At the low pressure state, a pressure difference is generated from the outside, and the internal air pressure of the upper portion of the primary reservoir 13 is lower than the outside, and exhaust gas is sucked into the inlet 11 of the upper portion of the primary scrubber 10 and then included in the exhaust gas. Large particles of foreign matters are precipitated in the lower portion of the primary reservoir 13, the remaining exhaust gas is introduced into the tank duct 20 at high speed, and the exhaust gas introduced into the tank duct 20 is submerged by pressure Forming bubbles in the The formed bubbles rise above the surface of the secondary reservoir 34 and are separated from the left and right sides by the lower dispersion plate 42 of the dispersion plate assembly 40, and the raised bubbles are dispersed in the upper portion of the distribution plate assembly 40. When it comes into contact with the plate 41 and bursts, it is converted into fine bubbles, and the exhaust gas mixed with the fine bubbles is converted downward by the upper dispersing plate 41 to purify the exhaust gas in contact with the water surface. As the exhaust gas rises to the upper part of the secondary scrubber 30, the immersion scrubber of the present invention forms a bubble after directly contacting the exhaust gas and water by a water tank doc soaked in the reservoir, There is a remarkable effect of maximizing the scrubber's exhaust gas purification ability by increasing the contact area of water.

Description

Submerged Scrubber Control Method {THE CONTROL METHOD OF IMMERSION TYPE SCRUBBER}

The present invention relates to an immersion scrubber, and in detail, minute air bubbles generated after contacting water with various substances such as dust, dust, and odor contained in exhaust gases generated in various manufacturing processes of an industrial site. It relates to a immersion scrubber control method for purifying the exhaust gas to discharge to the outside.

The present invention relates to a submerged scrubber control method which is a kind of wet scrubber. Generally, a wet scrubber is called a "gas absorption tower" as a device for contacting a gas with a liquid to remove soluble components and dust in the gas.

  Wet scrubber has a tower installed in the vertical direction in the shape of a cylinder or a square cylinder, and a suction fan (FAN) is installed horizontally with the ground to suck exhaust gas containing various dust, dust and waste gas into the scrubber, Duct for moving the waste gas sucked into the suction fan (FAN) is installed horizontally, and at the bottom of the scrubber, a water tank is installed, and after the waste gas flows into the inlet on one side of the water tank tank, It is installed horizontally above the inlet port and passes through a first spray nozzle for spraying water. At this time, the water sprayed from the spray nozzle and waste gas are primarily mixed, and the waste gas first mixed with water at the spray nozzle portion is the first spray nozzle. It is installed horizontally in the upper part, and after passing the filling installed to expand the contact area of waste gas and water, the waste gas and water are mixed secondly, , While agglomeration of dust, dirt, etc. falls into a water bath tank in the lower portion.

In addition, a liquid separator (Demister), which is a device for separating water from the waste gas passing through the injection nozzle and the filler, is horizontally installed in the upper part of the filling material, and water drops fall into the tank tank at the bottom while passing through the separating device, and the waste gas. Has a structure to be discharged to the exhaust vent in the upper portion.

In addition, the first spray nozzle may install the second and third spray nozzles in parallel, and may increase the purification power of the waste gas by installing several fillings in parallel.

    Therefore, the wet scrubber having the above structure is a mixture of various dusts and foreign substances in the waste gas, while passing through the injection nozzle and the filling substance, the dust and foreign substances are fixed to the filling substance, reducing the contact area between the water and the waste gas while reducing the effect of the filling, purifying power This deterioration occurs, and dust and foreign matter are mixed with the water and falls to the tank tank at the bottom of the scrubber tower, so that the water in the tank tank is easily contaminated and supplies the contaminated water to the injection nozzle again. Waste gas has the disadvantage that it can be mixed with the contaminated water to reduce the purification power.

The present invention has been invented to solve the above problems, improves the exchange cycle and purification power of the water and the filling used in the immersion scrubber, and also by using the exhaust pressure of the exhaust gas, to the tank immersion in the reservoir It is to provide a submerged scrubber control method to form bubbles by making the exhaust gas and water directly contact, thereby improving the purification power.

Therefore, the present invention relates to a immersion type scrubber control method, and in the immersion type scrubber control method for purifying and discharging foreign substances contained in exhaust gas generated in various manufacturing processes by contacting with water, the scrubber is a partition 23 The primary scrubber (10) and the secondary scrubber (30) is divided into, by operating the suction fan 50 connected to the outlet of the secondary scrubber 30, the primary, secondary scrubber (10, 30) upper When the pressure is low, a pressure difference is generated from the outside, and the internal air pressure of the upper portion of the primary reservoir 13 is lower than the outside, and the exhaust gas is sucked into the inlet 11 of the upper portion of the primary scrubber 10, The large particles of foreign matters are precipitated in the lower portion of the primary reservoir 13, the remaining exhaust gas is introduced into the tank duct 20 at a high speed, the exhaust gas introduced into the tank duct 20 by pressure Bubble in hand And, the formed bubble rises above the surface of the secondary reservoir 34 and is separated into the left and right by the lower dispersion plate 42 of the dispersion plate assembly 40, the rising bubbles of the dispersion plate assembly 40 When the contact with the upper dispersion plate 41 bursts into fine bubbles, the exhaust gas mixed with the fine bubbles are converted downward by the upper dispersion plate 41 to clean the exhaust gas in contact with the water surface, Purified exhaust gas is characterized by rising to the secondary scrubber (30).

The immersion scrubber of the present invention is a remarkable for maximizing the scrubber's exhaust gas purification ability by making the air bubbles directly after contacting the exhaust gas and water by the water duct immersed in the reservoir, and also increasing the contact area of the exhaust gas and water. It works.

1 is a front view of the present invention immersion scrubber
Figure 2 is a cross-sectional plan view of the present invention immersion scrubber
Figure 3 is a perspective view of the present invention water tank duct outlet and dispersion plate assembly
4 is a front view of the present invention dispersion plate assembly
5 is a side view of the present invention dispersion plate assembly
6 is a perspective view of the present invention bubble generating tube

The present invention relates to a submerged scrubber control method, wherein in a submerged scrubber control method for purifying foreign substances contained in exhaust gas generated in various manufacturing processes by contacting with water, the scrubber is partitioned (23). It is divided into the primary scrubber 10 and the secondary scrubber 30, and when the suction fan 50 is connected to the outlet of the secondary scrubber 30, the primary, secondary scrubber (10, 30) the upper At the low pressure state, a pressure difference is generated from the outside, and the internal air pressure of the upper portion of the primary reservoir 13 is lower than the outside, and exhaust gas is sucked into the inlet 11 of the upper portion of the primary scrubber 10 and then included in the exhaust gas. Large particles of foreign matters are precipitated in the lower portion of the primary reservoir 13, the remaining exhaust gas is introduced into the tank duct 20 at high speed, and the exhaust gas introduced into the tank duct 20 is submerged by pressure Forming bubbles in the The formed bubbles rise above the surface of the secondary reservoir 34 and are separated from the left and right sides by the lower dispersion plate 42 of the dispersion plate assembly 40, and the raised bubbles are dispersed in the upper portion of the distribution plate assembly 40. When it comes into contact with the plate 41 and bursts, it is converted into fine bubbles, and the exhaust gas mixed with the fine bubbles is converted downward by the upper dispersing plate 41 to purify the exhaust gas in contact with the water surface. It is characterized in that the exhaust gas rises above the secondary scrubber (30).

In addition, the purified exhaust gas passes through the baffle plate 31, the liquid separator 32, characterized in that the purified exhaust gas is discharged to the outside after the water vapor is removed.

     In addition, an injection nozzle 12 is installed in the primary scrubber 10 so that the exhaust gas passes through the injection nozzle 12 when the exhaust gas is sucked into the suction port above the primary scrubber 10, and the injection nozzle After passing (12), the large particles of foreign matter contained in the exhaust gas is characterized in that the sedimentation of the lower portion of the primary reservoir (13).

The present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of the present invention immersion scrubber, Figure 2 is a sectional view of the present invention immersion scrubber and a plan view. 3 is a perspective view of the outlet of the water tank duct of the present invention and a dispersion plate assembly, FIG. 4 is a front view of the dispersion plate assembly of the present invention, and FIG. 5 is a side view of the dispersion plate assembly of the present invention. 6 is a perspective view of the bubble generating tube.

The present invention relates to an immersion scrubber, wherein the scrubber is formed in a rectangular tube shape, and a partition wall is formed in parallel with a side wall at an inner middle thereof. The upper surface of the partition 23 is connected to the upper surface of the scrubber, the lower surface is formed adjacent to the bottom surface. The scrubber separated by the partition wall 23 is divided into the primary scrubber 10 and the secondary scrubber 30.

The upper surface of the primary scrubber 10 is provided with an inlet 11 through which exhaust gas is sucked, and a primary reservoir 13 is formed below the inlet. The secondary scrubber 30 is provided with an outlet 33 through which the purified exhaust gas is discharged, and a secondary reservoir 34 is formed below the outlet.

In addition, the primary reservoir 13 and the secondary reservoir 34 are communicated to the water tank duct 20 in a state submerged in each reservoir. In addition, the water tank duct inlet 21 is formed in the primary reservoir, the water tank duct outlet 22 is formed in the secondary reservoir. And the dispersion plate assembly 40 is formed on the top of the water tank duct.

An upper surface of the primary scrubber 10 is formed with an intake port 11 through which exhaust gas is sucked, and the intake port is connected to a suction duct formed on an upper portion of the primary scrubber. In addition, several injection nozzles 12 are horizontally installed in the lower portion adjacent to the intake port, and exhaust gas sucked into the intake port is mixed with water injected from the injection nozzle in the vicinity thereof. The spray nozzle can be installed in several stages, and the installation type can be installed horizontally crosswise, round or square.

A separation plate 14 is installed between the injection nozzle 12 and the primary reservoir 13. The separation plate is in the form of a square plate, one side is horizontally connected to one side of the primary scrubber 10, the other side is formed spaced apart from the other side surface of the primary scrubber. In addition, the separator is formed to be inclined, one side of the separator is formed higher than the other surface.

In addition, the water tank duct inlet 21 is formed in the primary reservoir 13 horizontally adjacent to the water tank bottom. Water tank duct inlet 21 is a cross section divided into one side, the other side, the front, rear surface is a square shape. One side of the tank duct is connected to one side of the primary reservoir, and the front and rear sides of the tank duct are connected to the front and rear surfaces of the primary reservoir. In addition, the other side of the tank duct is formed to be spaced apart from the partition which is the other side of the primary reservoir, the separation plate is installed so as to be spaced apart from the partition 23 which is the other side of the primary reservoir.

And the water tank duct 20 is installed in the primary reservoir 13 is connected to the lower right, after passing through the partition wall 23 is connected to the upper portion of the secondary reservoir (34) below the central portion of the water surface of the secondary reservoir Adjacent horizontally, the water tank duct outlet 22 is formed. And all the inflections from the entrance to the water tank duct is formed to be smoothly curved in a streamline. In addition, the water tank duct inlet is formed wide, the outlet is formed narrow, it is formed so as to be gradually narrowed from the inlet to the outlet.

In addition, the outlet 22 of the tank duct is installed horizontally adjacent to the water surface of the secondary reservoir, the outlet of the tank duct is formed in the center of the secondary reservoir with the inlet rotated 180 degrees. And the water tank duct outlet is a long rectangular shape in parallel with the partition which is one side of the secondary reservoir. In addition, the front and rear surfaces of the water tank duct exit is formed adjacent to the side before and after the second reservoir. And the water tank duct shape of the water tank duct outlet portion is such that the nozzle tube of the long cross-sectional shape is provided in the form installed perpendicular to the water surface.

Dispersion plate assembly 40 is formed long in parallel with the water tank duct outlet 22. The dispersion plate assembly 40 is divided into an upper dispersion plate 41 and a lower dispersion plate 42 formed in parallel with the outlet of the water tank duct, and the upper dispersion plate is in the form of a roof inclined on both sides, and the lower dispersion plate Is formed in the downward direction is connected to the vertex in the middle of the upper distribution plate, is inserted into the water tank duct of the nozzle tube form, separates the water tank duct left and right. In addition, a plurality of bubble generating tubes are connected to the bottom of the lower dispersion plate. Bubble generating tube is formed in the pipe form a plurality of holes on the side, connected to the bottom of the lower distribution plate is installed in the vertical downward direction.

In addition, the distribution plate assembly may be provided in a structure capable of moving up and down by a common moving means using a bolt and a nut or a common moving means by a hydraulic cylinder on one side of the rear side before the exit of the water tank duct. By moving the dispersion plate assembly up and down as described above, it is possible to adjust the bubble size generated by adjusting the separation distance between the water tank duct outlet and the dispersion plate assembly according to the type of exhaust gas, and the cleaning of the dispersion plate assembly is easy. It can be done.

In addition, the suction fan 50 connected to the exhaust port of the secondary scrubber generates a suction force to allow the exhaust gas to flow into the primary and secondary scrubbers by the pressure difference.

Therefore, when the suction fan 50 formed on the secondary scrubber is operated, the exhaust gas is sucked into the suction port 11 of the primary scrubber by the pressure difference. In addition, foreign substances contained in the intake exhaust gas pass through the injection nozzle 12, and large foreign substances are mixed with water, separated by the separating plate 14, and immersed in the lower portion of the primary reservoir 13. It enters and passes through the water tank duct inlet 21 of the primary scrubber. In addition, the exhaust gas moved into the water tank duct forms bubbles in the water by pressure while passing through the bubble generating tube 43, and the bubbles formed rise above the surface of the secondary reservoir 34, and the raised bubbles and exhaust gas are lowered. It is separated and dispersed in the left and right directions by the dispersion plate 42. In addition, the exhaust gas and bubbles separated by the lower dispersion plate is converted into smaller fine bubbles in contact with the upper dispersion plate 41, and the air bubbles burst by colliding with the water while being converted downward by the upper dispersion plate. Purify the exhaust gas.

In addition, the scattering plate 35 for preventing the scattering of water is installed on an upper portion of the distribution plate assembly, in which the plurality of plates are installed in a zigzag in parallel with the secondary water tank surface. As the purified exhaust gas passing through the secondary reservoir rises and contacts the baffle plate, water and bubbles mixed in the purified exhaust gas are removed.

In addition, a liquid separator (Demister) 32 is provided on the top of the baffle plate to remove moisture contained in the purified exhaust gas that has passed through the baffle plate. The liquid separator corresponds to conventional techniques as described in the prior art of the present invention, and thus detailed description thereof is omitted.

And the suction port formed on the upper surface of the secondary scrubber is connected to the exhaust duct formed on the secondary scrubber. In addition, the suction fan 50 connected to the exhaust duct generates a suction force so that the exhaust gas is introduced into the first and second scrubbers by the pressure difference.

Referring to the steps of the present invention immersion scrubber is as follows.

When the suction fan connected to the secondary scrubber outlet is operated, the upper and lower pressures of the first and second scrubbers are in a low pressure state, and a pressure difference is generated from the outside. After passing through the injection nozzle after being sucked into the inlet of the large-sized foreign matters contained in the exhaust gas after passing through the injection nozzle, the remaining exhaust gas is rapidly introduced into the tank duct. Step, the exhaust gas introduced into the water tank duct forms bubbles in the water by pressure, and the bubbles formed rise above the surface of the secondary reservoir and are separated to the left and right by the lower dispersion plate. When the bubbles are transformed into fine bubbles, the exhaust gas mixed with the fine bubbles is converted downward by the upper dispersion plate, Purifying the exhaust gas by contacting, purifying the exhaust gas to the upper part of the secondary scrubber, purifying the exhaust gas passing through the baffle plate, the liquid separator, and removing water vapor, purifying the exhaust gas to the outside It consists of the stage of discharge.

The phenomena occurring in the exhaust gas and the dispersion plate assembly leaked from the water tank duct exit are as follows.

The exhaust gas flowing into the water tank duct inlet flows up with a large amount of bubbles while passing through the bubble generator tube at a high flow rate, and is separated in the left and right directions from the lower dispersion plate formed at the water tank duct outlet, and the water is discharged in the left and right directions. Spray like In addition, the collision with the inclined surface of the upper dispersion plate, at the same time the flow direction is changed in the state of increasing the flow rate is formed as a fine air bubble as the vortex phenomenon occurs. In addition, the fine bubbles including the exhaust gas is changed in the downward direction and collided with the water tank surface to be immersed again and filtered.

Therefore, the exhaust gas injected into the water forms a vortex with fine droplets, and effectively removes foreign substances and fine dust contained in the exhaust gas in the water, and then the filtered exhaust gas rises upward in the dispersion plate assembly. do.

The foreign matter and fine dust filtered through the filtration process is settled on the bottom surface of the primary reservoir, the precipitated foreign matter and fine dust is moved to the external reservoir by the transfer pipe with the stored water. And the foreign matter stored in the external reservoir is discharged to the outside and the water is recycled to the reservoir again.

Therefore, in the present invention, the immersion scrubber allows the fine gas to pass through the water while generating the vortex phenomenon after the exhaust gas is mixed with the fine air bubbles in the process of passing the water tank duct and the dispersion plate assembly submerged in the water tank. Foreign matter and fine dust is filtered to improve the purification efficiency.

In addition, since the foreign matter precipitated in the storage tank in the scrubber is discharged to the external storage tank, and precipitated in the external storage tank and then circulated back into the scrubber to be used, the operating cost is reduced and economical.

10: primary scrubber 11: inlet
12: spray nozzle 13: primary reservoir
14: separator 20: water tank duct
21: Sujo Doc Inlet 22: Sujo Doc Outlet
23: bulkhead 30: secondary scrubber
31: baffle plate 32: liquid separator
33: outlet 34: secondary reservoir
40: dispersion plate assembly 41: upper dispersion plate
42: lower dispersion plate 43: bubble generator tube
50: suction fan 60: pump
61: recovery pipe

Claims (3)

In the immersion scrubber control method for cleaning the foreign substances contained in the exhaust gas generated in various manufacturing processes by contacting with water to be discharged to the outside, the scrubber is the primary scrubber 10 and the secondary scrubber by the partition wall (23). When the suction fan 50 is connected to the outlet of the secondary scrubber 30, the first and second scrubbers 10 and 30 are in a low pressure state, and a pressure difference is generated from the outside. After the internal air pressure of the upper portion of the primary reservoir 13 is lower than the outside, the exhaust gas is sucked into the intake port 11 of the upper portion of the primary scrubber 10, and foreign particles of the large particles contained in the exhaust gas are stored in the primary reservoir 13 It is precipitated to the bottom, the remaining exhaust gas is introduced into the tank duct 20 at a high speed, the exhaust gas introduced into the tank duct 20 forms bubbles in the water by pressure, the formed bubbles are secondary reservoir (34) minutes above the water The left and right are separated by the lower dispersion plate 42 of the spreader assembly 40, the rising bubbles are burst into contact with the upper dispersion plate 41 of the dispersion plate assembly 40 is converted into fine bubbles, The exhaust gas mixed with the fine bubbles is converted downward by the upper dispersion plate 41 to clean the exhaust gas in contact with the water surface, and the purified exhaust gas is raised to the upper portion of the secondary scrubber 30,
The purified exhaust gas passes through the baffle plate 31 and the liquid separator 32, and after the water vapor is removed, the purified exhaust gas is discharged to the outside,
The injection scrubber 12 is installed in the primary scrubber 10 so that the exhaust gas passes through the injection nozzle 12 when the exhaust gas is sucked into the suction port above the primary scrubber 10, and the injection nozzle 12 After passing through), large particles of foreign matter contained in the exhaust gas sedimentation scrubber control method, characterized in that the sedimentation to the lower portion of the primary reservoir (13). delete delete

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