KR101140251B1 - Immersion Scrubber - Google Patents

Abstract

The present invention relates to an immersion scrubber, wherein the scrubber is an apparatus for purifying exhaust gas, wherein the scrubber is provided with an intake fan for sucking waste gas at an inlet duct inlet connected to a room, and at the outlet of the intake duct, a primary water tank nozzle Is installed, one end of the primary tank nozzle is configured to be immersed in the water of the primary tank located in the lower, the foreign substances contained in the waste gas injected from the primary tank nozzle is purified while passing through the primary tank, A connecting pipe is installed at the upper part of the first tank, and the outlet portion of the connecting pipe, which is the second nozzle, is immersed in the water of the second tank located at the lower part, so that the remaining foreign substances in the waste gas passing through the first tank are again secondary. It is discharged into the atmosphere after being filtered out of the water tank. Bubbles are generated by the submerged first and second water tank nozzles to increase the contact area between waste gas and water. It was to maximize the waste gas purification ability of the scrubber, and by providing the cyclone unit inside the exhaust duct, the structure is not a simple, maintenance-free, has a remarkable effect operation is possible even at high temperatures.

Description

Immersion Scrubber {omitted}

The present invention relates to an immersion scrubber that filters exhaust gases by filtering out foreign substances such as dust, dust, and odor contained in exhaust gases generated in the manufacturing process.

The present invention relates to a submerged scrubber. In general, a wet scrubber is a device that removes soluble components, dust, etc. in a gas by contacting a gas with a liquid, also called a "gas absorption tower".

As shown in FIG. 1, the wet scrubber has a tower installed in a vertical direction in the shape of a cylinder or a square cylinder, and is installed horizontally with the ground to suck exhaust gases containing various dusts, dust, and waste gases into the scrubber. (FAN) is installed, the duct (Duct) for moving the waste gas sucked into the suction fan (FAN) is installed horizontally, and the bottom of the scrubber is installed a tank tank, the one side on the top of the tank tank After the waste gas flows into the inlet, it is installed horizontally above the inlet and passes through the first spray nozzle for spraying water. At this time, the water sprayed from the spray nozzle and waste gas are mixed first, and the water and the spray nozzle are first mixed with the spray nozzle. The mixed waste gas is installed horizontally on the upper part of the first spray nozzle, and after passing through the filling installed to expand the contact area of the waste gas and water, the waste gas and water are discharged. After the second mixing, various dusts, dusts, foreign matters, etc. aggregate and fall into the tank tank at the bottom.

In addition, a liquid separator (Demister), which is a device that separates the water of the waste gas passing through the injection nozzle and the filler, is horizontally installed at the upper part of the filling material, and water drops fall into the tank tank at the bottom while passing through the separating device. Waste gas is discharged to the upper exhaust port.

In addition, the first injection nozzle can be installed in the second, third injection nozzles in parallel, and also several fillings can be installed in parallel to increase the purification power of the waste gas.

Therefore, the wet scrubber having the above structure is fixed with dust and foreign matters to the filling material while passing through the injection nozzle and the filling material in the state where various dusts or foreign substances are mixed in the waste gas, thereby reducing the contact area between the water and the waste gas while reducing the effect of the filling material. 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 discharge pressure of the waste gas, by the nozzle immersed in the tank tank It is to provide a submerged scrubber to form bubbles (water droplets) to make direct contact between the waste gas and water, thereby improving the purification ability.

In order to achieve the above, the present invention is a scrubber which is a device for purifying exhaust gas, the scrubber is provided with an intake fan for sucking waste gas at the inlet duct inlet connected to the room, the outlet of the intake duct primary tank nozzle Is installed, one end of the primary tank nozzle is configured to be immersed in the water of the primary tank located in the lower, the foreign matter contained in the waste gas injected from the primary tank nozzle is purified while passing through the primary tank, In addition, a connection pipe is installed on the upper part of the first tank, and the outlet portion of the connection pipe, which is the secondary water tank nozzle, is configured to be immersed in the water of the secondary water tank located at the lower part, so that the remaining foreign substances in the waste gas passing through the primary water tank are discharged. It is again filtered out of the second tank and released into the atmosphere.

The present invention maximizes the scrubber's waste gas purification ability by generating bubbles by installing submerged first and second tank nozzles to increase the contact area between waste gas and water, and by installing a cyclone device, the structure is simple and maintenance is performed. There is no need, and there is a remarkable effect that can be operated at high temperatures.

1 is a front view of a conventional scrubber
2 is a plan view of the present invention submerged scrubber
3 is a front view of the present invention immersion scrubber
Figure 4 is an enlarged view of the present invention immersion scrubber
5 is a front view of the cyclone apparatus;

The present invention relates to an immersion scrubber, wherein the scrubber is an apparatus for purifying exhaust gas, wherein the scrubber is provided with an intake fan 20 for sucking waste gas at an inlet of the intake duct 10 connected to a room, and the intake duct ( At the outlet of 10), the primary water tank nozzle 90 is installed, and one end of the primary water tank nozzle 90 is configured to be immersed in the water of the primary water tank 70 located at the lower portion, and the primary water tank nozzle ( 90 is a submerged scrubber, characterized in that the foreign matter contained in the waste gas injected from the 90 is passed through the primary tank 70 is purified and then released into the atmosphere.

In addition, the upper portion of the primary tank 70, the connection pipe 110 is installed so that the outlet portion of the connection pipe 110, which is the secondary water tank nozzle 100 is immersed in the water of the secondary water tank 80 located below. In this case, the remaining foreign matters in the waste gas passing through the primary tank 70 are again filtered out of the secondary tank 80 and then released into the atmosphere.

In the primary scrubber tower 150 between the intake fan 20 and the primary water tank nozzle 90, the primary injection nozzle 30, the primary non-powered impeller 50, the secondary injection nozzle 40 and 2 Primary non-powered impeller 60 is installed sequentially, inside the secondary scrubber tower 160, the baffle plate 120, the gas, the liquid separation device 130 and the cyclone device (top) of the secondary water tank (80) 140 is installed sequentially, the cyclone device 140 is an inner cylinder is installed in the secondary scrubber tower 160, the inner cylinder is provided with a centrifuge having a spiral wing is formed around a vertical axis, the inner A plurality of cyclones are installed concentrically around the cylinder. When the waste gas passing through the secondary tank 80 passes through the centrifuge, foreign substances contained in the waste gas are separated from the waste gas by centrifugal force and then descend. Waste gas gained centrifugal force while rotating Centrifugal and inertial forces move to the cyclone inlet, impinge on the inner wall of the cyclone, debris falls and separates, and flows backward in the cyclone and moves in the reverse direction so that the waste gas from which the foreign matter is filtered out is released into the atmosphere. will be.

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

1 is a front view of an existing scrubber, FIG. 2 is an overall view of the present invention immersion scrubber, FIG. 3 is a front view of the present invention immersion scrubber, FIG. 4 is an enlarged view of the present invention immersion scrubber, and FIG. 5 is a cross-sectional view of the cyclone apparatus. .

The present invention relates to an immersion scrubber, wherein the scrubber which is an apparatus for purifying exhaust gas is composed of a primary scrubber and two secondary scrubbers. Of course, the number of scrubbers can be increased to third, fourth, etc. according to the amount of exhaust gas. The primary scrubber is provided with an intake fan for sucking waste gas at the inlet duct inlet portion connected to the room. The intake fan can be used by using a large capacity fan or by installing several low capacity fans together. The primary tank nozzle is installed at the outlet portion of the intake duct. The primary water tank nozzle is composed of a funnel-shaped nozzle partition wall and the nozzle outlet installed in the state submerged in the water of the primary tank in the vertical direction in the center of the nozzle partition wall, waste gas injected from the primary tank nozzle The foreign matter contained in the purge is discharged after passing through the primary tank. Since one end of the primary water tank nozzle is submerged in water, bubbles are formed in the water by the pressure of the waste gas injected from the nozzle, and the bubbles formed rise above the surface of the water, and the raised bubbles burst to purify the waste gas again.

In addition, in the present invention, the connection pipe is installed on the upper portion of the primary tank, and the pipe end portion, which is an outlet portion of the connection pipe, serves as a secondary nozzle. The end portion of the tube, which is the secondary nozzle, is configured to be immersed in the water of the secondary tank located at the bottom, and the remaining foreign substances in the waste gas passing through the primary tank are again filtered out of the secondary tank and then discharged into the atmosphere.

In addition, a secondary scrubber tower is installed in parallel next to the primary scrubber tower, and a secondary tank is installed at the bottom of the secondary scrubber tower, and one side between the primary tank and the nozzle partition wall of the primary tank nozzle (water tank) On the surface of the tank), a connecting pipe is connected to the secondary tank. The outlet of the connecting pipe is provided with a second water tank nozzle in which the nozzle outlet is submerged in the water surface of the second water tank.

On the other hand, in the upper part of the second tank is installed a baffle plate for preventing the scattering of water, a plurality of plates are installed in a zigzag vertically, and the purified waste gas passing through the second tank rises in contact with the baffle plate and is mixed in the purified waste gas. Remove scattered water and bubbles.

In addition, a gas and a liquid separation device (Demiste) are installed on the top of the baffle plate to remove water contained in the purified waste gas that has passed through the baffle plate. The gas and liquid separation apparatus corresponds to conventional techniques as described in the prior art of the present invention, and thus detailed description thereof is omitted.

On the other hand, the cyclone device is installed on the gas, liquid separator (Demiste) of the secondary tank. In the cyclone apparatus, an inner cylinder is installed in the exhaust duct, and a centrifuge in which the spiral blade is formed around a vertical axis is installed in the inner cylinder, and a plurality of cyclones are installed concentrically around the inner cylinder. Is about 5). Referring to the operation principle of the cyclone apparatus, when the waste gas finally passed through the secondary water tank passes through the centrifuge, foreign substances contained in the waste gas are separated from the waste gas by centrifugal force and then descend. In addition, the waste gas gained centrifugal force by rotation moves to the cyclone inlet by centrifugal force and inertial force, impinges on the inner wall of the cyclone, debris falls and separates (drains through a separate drain pipe) into the cyclone. The reverse flow flows in the reverse direction, so that the waste gas from which foreign substances are filtered out is released into the atmosphere.

In order to improve the purification efficiency of the immersion scrubber, the first injection nozzle, the first non-power impeller, the second injection nozzle, and the second non-power impeller are sequentially installed inside the first scrubber tower between the intake fan and the first water tank nozzle. do.

The primary injection nozzle is installed horizontally on the top of the primary scrubber tower, and in the vicinity, the waste gas is mixed with water injected from the primary injection nozzle. Several primary spray nozzles can be installed, and the installation type can be installed horizontally crosswise, round or square.

The primary impeller is installed horizontally under the primary injection nozzle. The primary impeller is rotated in a non-powered manner and mixes waste gas and water which have passed through the primary injection nozzle again.

On the other hand, a secondary injection nozzle is installed horizontally below the primary impeller, the secondary injection nozzle is also installed in the same manner as the primary injection nozzle.

In addition, a secondary impeller is installed horizontally below the secondary injection nozzle, and the secondary impeller also rotates without power and mixes water and waste gas coming down. In addition, a primary water tank nozzle is installed between the lower portion of the secondary impeller and the primary water tank.

1: suction fan 2: intake duct
3: tank tank 4: injection nozzle
5: Filling 6: gas, liquid separator
10: intake duct 20: intake fan
30: 1st injection nozzle 40: 2nd injection nozzle
50: 1st power impeller 60: 2nd power impeller
70: 1st water tank 80: 2nd water tank
90: primary tank nozzle 91: nozzle partition wall
92 nozzle outlet 100 secondary tank nozzle
110: connector 120: baffle plate
130: gas, liquid separator 140: cyclone apparatus
141: cyclone 142: centrifuge
150: 1st scrubber tower 160: 2nd scrubber tower
170: exhaust duct

Claims (3)

In the scrubber which is an apparatus for purifying exhaust gas, the scrubber is provided with an intake fan 20 for sucking waste gas at the inlet of the intake duct 10 connected to the room, and at the outlet of the intake duct 10, a primary water tank nozzle ( 90 is installed, one end of the primary tank nozzle (90) is configured to be immersed in the water of the primary tank (70) located in the lower, foreign matter contained in the waste gas injected from the primary tank nozzle (90) After being purified while passing through the primary tank 70 is released into the atmosphere,
The connection pipe 110 is installed on the upper portion of the first water tank 70 and the outlet portion of the connection pipe 110 which is the second water tank nozzle 100 is configured to be immersed in the water of the second water tank 80 located at the bottom. Residual foreign matter in the waste gas passing through the primary tank 70 is again filtered in the secondary tank 80 and then released into the atmosphere,
In addition, in the primary scrubber tower 150 between the intake fan 20 and the primary water tank nozzle 90, the primary injection nozzle 30, the primary non-powered impeller 50, the secondary injection nozzle 40 and Secondary non-powered impeller 60 is installed sequentially, inside the secondary scrubber tower 160, the baffle plate 120, the gas, the liquid separation device 130 and the cyclone device to the upper portion of the secondary water tank (80) 140 is sequentially installed, the cyclone device 140 is an inner cylinder is installed in the secondary scrubber tower 160, inside the inner cylinder is installed a centrifuge 142 having a spiral wing is formed around a vertical axis When the plurality of cyclones 141 are concentrically installed around the inner cylinder, the foreign matter contained in the waste gas is subjected to centrifugal force when the waste gas passing through the secondary water tank 80 passes through the centrifuge 142. By separating from the waste gas and descending, and gaining centrifugal force while rotating The waste gas moves to the cyclone 141 inlet by centrifugal force and inertial force, collides with the inner wall of the cyclone 141, and foreign substances are dropped and separated, and the flow flows backward in the cyclone 141 and moves in the reverse direction. Submerged scrubber, characterized in that the waste gas from which foreign matters are filtered out delete delete

Images