KR101450730B1 - Wet type scrubbing apparatus and wet type scrubbing equipment using the same - Google Patents

Abstract

The present invention provides a wet type scrubbing apparatus comprising: a body having an inlet through which gas is introduced and an outlet through which the introduced gas is suctioned and discharged, and having a storage space therein in which the inlet and the outlet are communicated with each other and water is accommodated; an atomizing module including a nozzle part and a collision part, wherein the nozzle part is disposed at the inlet side to supply gas, and has an end protruding to be immersed in water, and a gas flow path defined inside thereof such that a flow cross-section area is gradually narrowed so as to increase a flow speed of the gas, and the collision part is disposed at an end of the nozzle part and is collided with gas ejected from the nozzle part so as to atomize the gas; and a pressure raising module disposed on a gas supply line supplying gas to the atomizing module, and raising a gas pressure so that a storage space may be maintained in a positive pressure state. Therefore, organic solvents with a low boiling point are prevented from being vaporized again in water so that scrubbing of harmful gases having a low boiling point may be effectively performed without installation of a separate post-filtration apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet scrubbing apparatus and a wet scrubbing apparatus using the wet scrubbing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet scrubbing apparatus and a facility using the same, and more particularly, to a wet scrubbing apparatus capable of effectively scrubbing even a low-boiling noxious gas and a wet scrubbing apparatus using the same.

Generally, a gas scrubber includes a wet scrubber for dissolving harmful substances contained in various noxious gases in water and a burning scrubber for burning a combustible gas. Among them, the wet scrubbing apparatus is superior in performance to other systems, and is excellent in economical efficiency in the process and is mainly used.

An example of the wet scrubbing apparatus is disclosed in Korean Patent Laid-Open Publication No. 2010-0048430, and includes a reaction tube into which a reaction gas flows, a reactor connected to the reaction tube and converting the introduced reaction gas into plasma, A gas scrubbing apparatus and a gas scrubbing method for scrubbing the reaction gas, including a water injecting unit for injecting gas, are disclosed.

However, in the conventional wet scrubbing apparatus, when the noxious gas is an exhaust gas such as an organic solvent having a low boiling point, the evaporation pressure is low and it dissolves in water and is vaporized again There is a problem that it is discharged to the outside.

It is an object of the present invention to provide a wet scrubbing apparatus capable of effectively scrubbing even a noxious gas having a low evaporation pressure and a wet scrubbing apparatus using the same.

According to one aspect of the present invention, there is provided an air conditioner comprising: an inlet port through which gas is introduced; and an outlet port through which the introduced gas is sucked and discharged, respectively, and a storage space communicating with the inlet port and the outlet port, Body; A nozzle part provided on the inlet side and supplying the gas, one end of which protrudes so as to be immersed in the water and in which a gas flow path whose gradual flow sectional area is gradually increased to increase the flow rate of the gas, And an impacting unit provided at one end and colliding with the gas injected from the nozzle unit to collapse the gas. And a pressure reducing module provided on the gas supply line for supplying the gas to the atomizing module and increasing the pressure of the supplied gas so that the storage space and the gas flow path can maintain a positive pressure state, To provide a wet scrubbing device.

The body is disposed above the atomization module in the storage space and includes a plurality of first shield plates arranged alternately while being spaced apart from each other, and a second shield plate disposed above the first shield plates, It is preferable to further include an eliminator.

Preferably, the collision means is formed of a plurality of collision plates spaced apart from each other in the vertical direction.

Meanwhile, the booster module includes a blowing fan for raising the pressure of the gas flowing on the gas supply line, and a drive motor for driving and controlling the blowing fan.

Further, the wet scrubbing apparatus may further include a water supply module connected to the body to supply or circulate water in the storage space, wherein the water supply module includes a water storage tank in which water is stored, A water supply line connected to the water storage tank so as to communicate with each other to supply water in the storage space to the water storage tank and supply the water in the water storage tank to the storage space; And a supply pump for forcibly supplying water of the water storage tank to the storage space.

The wet scrubbing apparatus may further include a water level adjusting mechanism connected to the body for adjusting a water level of the water, wherein the water level adjusting mechanism includes a water level adjusting mechanism, A support plate slidably inserted into the sliding groove to adjust a water level of the water according to a sliding movement of the sliding plate, And an adjusting unit coupled to the adjusting plate to slidably move the adjusting plate in the vertical direction.

Here, the water level adjusting mechanism may move the regulating plate upward to increase the water level when the supply flow rate of the gas increases, move the regulating plate downward when the gas supply flow rate decreases, It is preferable to lower the water level.

Further, the body is spaced apart from the atomization module to divide the storage space, and extends from the upper part to the lower part and communicates with the lower part to prevent the water from overflowing to the water level adjusting mechanism upon atomization. And may further include a partition wall.

According to another aspect of the present invention, there is provided an exhaust gas purifying apparatus, comprising: an inlet port through which a gas is introduced; and an outlet port through which the introduced gas is discharged, wherein the inlet port and the outlet port are formed, ; A nozzle unit provided on the inlet side and supplying the gas, one end of which is protruded so as to be immersed in the water and has a gas flow path whose gradual flow sectional area is gradually increased so as to increase the flow rate of the gas supplied to the inside thereof; And an impacting unit provided at one end of the nozzle unit and colliding with the gas injected from the nozzle unit to collapse the gas. A pressure reducing module provided on a gas supply line for supplying the gas to the atomizing module and supplying pressure to maintain the positive pressure state of the storage space and the gas flow path; And a cooling exhaust ventilation module provided between the booster module and the atomization module for filtering the harmful substances contained in the gas discharged from the booster module and supplying the filtration to the atomizing module.

In the wet scrubbing apparatus, the cooling and discharging module is bypassed, one end of the wet scrubbing module is connected to the booster module, and the other end of the wet scrubbing module is connected to the atomizing module, and the gas discharged from the booster module is directly supplied to the atomizing module A bypass line may be further provided.

The wet scrubbing apparatus and the wet scrubbing apparatus using the same according to the present invention provide the following effects.

First, it is possible to prevent the harmful gas such as low-boiling organic solvent from being vaporized and discharged again from water, thereby improving the reliability and efficiency of the product.

Secondly, there is no need to provide a separate after-filtration facility for harmful gases of low boiling point, so that it is possible to provide economical effects through cost reduction.

Third, it is possible to smoothly perform scrubbing without improving the structure in response to various material characteristics of harmful gas such as low boiling point.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a configuration diagram showing the construction of a wet scrubbing apparatus according to an embodiment of the present invention; FIG.
Fig. 2 is a perspective view showing the water level adjusting mechanism of Fig. 1. Fig.
3 is a configuration diagram showing the construction of a wet scrubbing apparatus according to an embodiment of the present invention.

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

1, a wet scrubbing apparatus 600 according to an embodiment of the present invention includes a body 100, an atomization module 200, a booster module 300, a water supply module 400 And a water level adjusting mechanism 500.

The body 100 has an inlet 101 through which the gas flows and an outlet 102 through which the inlet gas is sucked and exhausted. The inlet 101 and the outlet 102 communicate with each other, A storage space 103 in which the water 1 is accommodated is formed.

In detail, the body 100 includes partition walls 110 spaced apart from the atomization module 200. The partition wall 110 divides the storage space 103 and extends from the upper part to the lower part and communicates with the lower part so that turbulence of the gas and the water 1 is generated by the collision means 220, And prevents the water 1 from overflowing with respect to the water level adjusting mechanism 500. The water level adjusting mechanism 500 is a water level adjusting mechanism.

The body 100 may further include first shielding plates 130 disposed on the upper side of the atomization module 200 in the storage space 103 and arranged in a staggered arrangement with a plurality of the first shielding plates 130 spaced from each other, And a first eleminator 140 disposed on the upper portion of the blocking plates 130 and having a mesh structure.

The body 100 is provided with a suction pump or the like on the side of the discharge port 102 so as to suck and discharge the gas in the storage space 103 so that the storage space 103 has a negative pressure State. Therefore, in the case of the exhaust gas of an organic solvent having a low boiling point, even if it is dissolved in the water 1 by the atomization module 200, the evaporation pressure is low and the gas is re-vaporized and discharged to the outside. Accordingly, the wet scrubber 600 operates the booster module 300 to prevent the gas from being vaporized again in the water 1, thereby suppressing vaporization of the gas, and a detailed description thereof will be given later do.

The atomization module 200 is provided on the inlet 101 side to supply gas to the body 100 and includes a nozzle unit 210 and a collision means 220.

One end of the nozzle unit 210 protrudes into the storage space 103 so as to be immersed in the water 1 and a gas flow path 211 Is formed. In detail, the nozzle unit 210 has a structure in which a gas is introduced into one side and the introduced gas flows out in an upward direction, and the cross-sectional area of the passage 211 of the gas channel 211 increases from the gas inlet to the outlet It gradually becomes smaller and increases the velocity of the outflow gas.

The collision means 220 is provided at an outflow end of the nozzle unit 210 to collide the gas injected from the nozzle unit 210 to refine the gas. In detail, the collision means 220 is formed of a plurality of impingement plates spaced apart in the vertical direction in a plate shape and is positioned apart from the outlet end of the nozzle unit 210, so that the outflow gas collides While spreading the gas to the side surface and making the gas finer. At this time, a plurality of the collision means 220 may be stacked so as to be spaced apart from each other to further promote miniaturization of the gas, and a detailed description thereof will be omitted.

As described above, in the above-described atomization module 200, the water level is lowered while the operation is stopped, and the water 10 is heated into the nozzle unit 210. However, The water is immersed in the water 1 and the gas flows to the nozzle unit 210 while the gas is being increased, so that the gas is refined by the collision means 220.

The wet scrubbing apparatus 600 preferably maintains a distance between the water surface in the storage space 103 and the upper end of the impact means 220 of about 15 mm to 25 mm, preferably about 20 mm. This is an optimal water surface height for minimum power consumption versus automation performance. If the water level is higher than 20 mm with respect to the impact means 220, the operating cost and equipment cost due to the increase in power of the booster module 300 Whereas when the water level is lower than 20 mm with respect to the collision means 220, the atomization performance is lowered.

The water level of the water (1) is adjusted by the water level adjusting mechanism (500). The water level of the water (1) is adjusted by the water level adjusting mechanism (500). A detailed description thereof will be given later.

The pressure reducing module 300 is provided on a gas supply line 10 for supplying the gas to the atomizing module 200 and increases the pressure of the flowing gas to increase the pressure in the storage space 103 and the gas So that the flow path 211 is brought into a positive (+) pressure state.

The booster module 300 includes a blowing fan 310 for raising the pressure of the gas flowing on the gas supply line 10 and a driving motor 320 for controlling the blowing fan 310, It is preferable to apply a structure including the above-mentioned structure. However, it is a matter of course that various configurations can be applied as long as the above-mentioned object can be achieved, such as a method using a hydraulic piston as a booster other than the blowing fan 310 described above as a preferred embodiment. Here, reference numerals 11, 12, and 13 (see FIG. 3) denote dampers provided on the gas supply lines 10 and 30 to control the flow rate of the gas.

On the other hand, the booster module 300 can selectively perform an on / off operation according to the type of the noxious gas. For example, in the case of noxious gas having a relatively high boiling point, the operation of the booster module 300 is stopped, while in the case of exhaust gas such as organic solvent having a low boiling point, the booster module 300 is operated, It is possible to prevent vaporization again.

The water supply module 400 is connected to the body 100 to supply or circulate the water 1 in the storage space 103 and includes a water storage tank 410 in which the water 1 is stored, A water supply line 420, and a feed pump 430.

The water supply line 420 connects the body 100 and the water storage tank 410 so that water is circulated between the body 100 and the water storage tank 410.

The supply pump 430 is provided on the water supply line 420 and forcibly supplies the water 1 of the water storage tank 410 to the storage space 103.

The water supply module 400 preferably sets the flow rate of the supply pump 430 so that the water supply module 400 always overflows and maintains the water level so that the impact means 220 is always immersed in the water 1.

The water supply module 400 circulates and supplies the water 1 in the water storage tank 410 and the storage space 103 as described above and receives the water supply from the external supply unit 440 To the storage space (103) and the water storage tank (410).

In addition, the wet scrubbing apparatus 600 may include water level sensors 21 and 22 in the body 100 and the water storage tank 410, respectively, to sense the water level of the water 1.

2, the water level adjusting mechanism 500 is connected to the body 100 so that when the booster module 300 is operated, And a control unit 530. The control unit 520 includes a control unit 520 and a control unit 530. [

The support portion 510 is connected to the body 100 and is fixed in position, and a sliding groove 501 is formed in the vertical direction. In the figure, the support part 510 is formed such that the width of the support part 510 corresponds to the width of the body 100 so that the water 10 is not leaked to the side, and the pair of plates 511 and 512 are vertically And the sliding groove 501 is formed therebetween. However, it is a preferred embodiment that various configurations can be applied as long as the above objects can be achieved.

The control plate 520 is slidably inserted into the sliding groove 501 so that the water level of the water 1 can be adjusted with reference to the upper end of the sliding groove 501. In the sliding groove 501, And are formed into a plate shape correspondingly.

The control unit 530 is coupled with the control plate 520 to slide the control plate 520 in the vertical direction. The control unit 530 includes a sliding bar 531 having one end coupled to the control plate 520 and the other end exposed to the outside, And a support 533 which is coupled to the body 00 and slidably engages with the sliding bar 531 to support the sliding bar 531. When the operator turns the handle 532, the sliding bar 531 and the adjusting plate 520 are slidably moved, Or various configurations such as a hydraulic configuration and an automatic configuration using a motor can be applied.

According to the above, the water level adjusting mechanism 500 moves the regulating plate 520 upward to increase the water level of the water 1 when the supply flow rate of the gas increases, The water level of the water 1 can be lowered by moving the regulating plate 520 downward.

On the other hand, the wet scrubbing apparatus 600 applies the water 1 as the scrubbing fluid, but it is possible to apply various scrubbing fluids in place of the water 1 described above as a preferred embodiment, Of course.

Hereinafter, a wet scrubbing facility 800 using the wet scrubbing apparatus 600 will be described.

Referring to FIG. 3, the wet scrubbing apparatus 800 includes a body 100, an atomizing module 200, a booster module 300, and a cooling / exhausting module 700. Here, since the body 100, the atomization module 200, and the booster module 300 correspond to the construction of the wet scrubbing apparatus 600, a detailed description thereof will be omitted. The following is a description of the configuration.

The cooling and exhausting module 700 is provided between the booster module 300 and the atomization module 200 to cool and exhaust the gas flowing out from the booster module 300 in advance to cool the atomization module 200, .

In detail, the cooling and exhausting module 700 includes a main body 710, a water tank 720, a water flow plate 730, a second elasticizer 740, a second barrier plate 750, A water splash portion 760, and a water circulation portion 770. [

The main body 710 is provided with a first storage space 711 in which the water 1 is stored and a second storage space 712 in which the first storage space 711 and the lower portion communicate with each other, A water inlet through which the gas is introduced and a water inlet 713 communicating with the first storage space 711 and to which the water 1 is supplied and a second water inlet connected to the second storage space 712, And an exhaust port 714 for supplying the exhaust gas to the demining module 200 are formed.

The water tank 720 is provided in the first storage space 711 and is disposed below the suction port 713. The upper portion of the water tank 720 is opened and the water 1 is dropped.

The water flow plate 730 is spaced apart from the water tank 720 so that the water 1 flows in from the water tank 720 and gradually becomes narrower toward the lower side. And is discharged to the discharge port 102 formed at the lower end.

The second eliminator 740 is disposed in the second storage space 712 and disposed below the exhaust port 714 and is made of stainless steel or the like to remove moisture contained in the gas.

The second blocking plates 750 are disposed below the second eliminator 740, and a plurality of the second blocking plates 750 are spaced apart from each other and staggered.

Details of the water tank 720, the water flow plate 730, the first and second eliminators 140 and 740 and the first and second shutoff plates 130 and 750 are described in Korea Register Reference is made to patent No. 0860493.

The water distributing portion 760 is disposed below the second shutoff plates 750 and injects the water 1 into the flowing gas to collect fine dust and the like contained in the gas.

The water circulating unit 770 pumps the water 1 of the main body 710 and supplies the water 1 to the water inlet and the water distributing unit 760 to circulate the water. This water circulation unit 770 can apply a series of configurations including a suction pump, a motor, a control valve, and the like as shown to pump the water 1 and circulate it.

The water circulation unit 770 may circulate the water 1 of the main body 710 but may supply and supply the water 1 from the outside in order to replenish the water 10.

The wet scrubbing apparatus 800 bypasses the cooling and discharging module 700 so that one end thereof is connected to the booster module 300 and the other end thereof is connected to the atomizing module 200, And a bypass line 40 for directly supplying the gas discharged from the atomizing module 300 to the atomizing module 200.

The wet scrubbing apparatus 800 includes dampers 12 and 13 on the gas supply line 30 and the bypass line 40 so that the gas supplied to the atomizing module 200 So that the cooling and discharging module 700 can be selectively passed therethrough.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100 ... body 110 ... bulkhead
130,750 ... first blocking plate 140,740 ... Eliminator
200 ... Atomizing module 210 ... Nozzle part
220 ... crash means 300 ... booster module
310 ... blowing fan 320 ... drive motor
400 ... water supply module 410 ... water storage tank
420 ... water supply line 430 ... supply pump
500: Water level adjustment mechanism 510: Support
520 ... throttle 530 ... throttle
600 ... Wet scrubbing device 700 ... Cooling and discharging module
710 ... main body 720 ... water tank
730 ... water flow plate 760 ... water distribution section
770 ... water circulation part 800 ... wet scrubbing facility

Claims (15)

A body formed with an inlet through which gas is introduced and an outlet through which the introduced gas is sucked and discharged, respectively, and a storage space communicating with the inlet and the outlet and containing water is formed therein;
A nozzle part provided on the inlet side and supplying the gas, one end of which protrudes so as to be immersed in the water and in which a gas flow path whose gradual flow sectional area is gradually increased to increase the flow rate of the gas, And an impacting unit provided at one end and colliding with the gas injected from the nozzle unit to collapse the gas. And
And a gas supply line provided on the gas supply line for supplying the gas to the atomization module, wherein a pressure of the supplied gas is increased to prevent vaporization of a component having a low evaporation pressure in the gas, The pressure regulating module being capable of maintaining a positive (+) pressure state. The method according to claim 1,
The body,
First shielding plates disposed on the upper side of the atomization module in the storage space, the first shielding plates being staggered from each other,
Further comprising a first electemagnet of mesh structure disposed on top of said first blocking plates. The method according to claim 1,
Wherein the colliding means comprises:
And a plurality of impingement plates spaced apart from each other in the vertical direction. The method according to claim 1,
The pressure-
A blowing fan provided on the gas supply line for raising the pressure of the gas flowing therethrough,
And a driving motor that drives and controls the blowing fan. The method according to claim 1,
And a water supply module connected to the body for supplying or circulating water in the storage space,
The water supply module includes:
A water storage tank in which water is stored,
A water supply line connected to the body and the water storage tank so as to communicate with each other to supply water in the storage space to the water storage tank and supply the water in the water storage tank to the storage space,
And a supply pump provided on the water supply line for forcibly supplying water in the water storage tank to the storage space.
The method according to any one of claims 1 to 5,
And a water level adjusting mechanism connected to the body for adjusting a water level of the water,
Wherein the water level adjusting mechanism maintains the water level in the storage space constant so that the impact means is immersed in the water during operation of the booster module. The method of claim 6,
The water level adjusting mechanism includes:
The water level of the water is increased when the supply flow rate of the gas is increased,
Wherein the water level of the water is lowered when the supply flow rate of the gas decreases. The method of claim 6,
The water level adjusting mechanism includes:
A support portion connected to the body and having a sliding groove formed in a vertical direction,
A control plate slidably inserted in the sliding groove and capable of adjusting a water level of the water according to a sliding movement;
And an adjusting unit coupled to the throttle plate and slidably moving the throttle plate in a vertical direction. The method of claim 8,
The water level adjusting mechanism includes:
When the supply flow rate of the gas increases, the control panel is moved upward to increase the water level of the water,
And the water level of the water is lowered by moving the regulating plate in a downward direction when the supply flow rate of the gas is decreased. The method of claim 6,
The body,
A partition wall for separating the storage space from the atomization module and extending from the upper part to the lower part and communicating with the lower part to prevent the water from overflowing the water level adjusting mechanism during atomization Wet scrubbing device. A body formed with an inlet through which gas flows and an outlet through which the introduced gas is discharged and a storage space communicating with the inlet and the outlet and storing water therein;
A nozzle unit provided on the inlet side and supplying the gas, one end of which is protruded so as to be immersed in the water and has a gas flow path whose gradual flow sectional area is gradually increased so as to increase the flow rate of the gas supplied to the inside thereof; And an impacting unit provided at one end of the nozzle unit and colliding with the gas injected from the nozzle unit to collapse the gas.
And a gas supply line provided on the gas supply line for supplying the gas to the atomization module, wherein a pressure of the supplied gas is increased to prevent vaporization of a component having a low evaporation pressure in the gas, A pressure reducing module for maintaining a predetermined positive pressure state; And
And a cooling exhaust ventilation module provided between the booster module and the atomization module for filtering harmful substances contained in the gas exhausted from the booster module and supplying the filtration to the atomization module. The method of claim 11,
Wherein the cooling /
A first storage space in which water is stored and a second storage space in which the first storage space and the lower portion communicate with each other are provided, and an intake port through which the gas flows in the upper portion is connected to the first storage space, A main body having a water inlet formed therein and an exhaust port communicating with the second storage space to supply the gas to the atomizing module,
A water reservoir provided in the first storage space and disposed below the suction port and having an upper portion opened to allow the water transferred to the upper portion to fall,
A water flow plate which is disposed at a lower portion of the water tank and through which water overflows from the water tank and is gradually narrowed toward the lower portion,
A second eliminator provided in the second storage space and disposed below the exhaust port,
A second barrier plate disposed at a lower portion of the second elastic member and spaced apart from each other,
A water distributing part disposed below the second blocking plates and spraying water,
And a water circulation unit for pumping water from the main body to supply and circulate the water to the water inlet and the water splashing unit. The method of claim 11,
And a water level adjusting mechanism connected to the body for adjusting a water level of the water,
The body,
A partition wall for separating the storage space from the atomization module and extending from the upper part to the lower part and communicating with the lower part to prevent the water from overflowing the water level adjusting mechanism during atomization Wet scrubbing equipment. The method of claim 11,
Further comprising a water level adjusting mechanism connected to the body to keep the water level in the storage space constant so that the impact means is immersed in the water during operation of the booster module,
The water level adjusting mechanism includes:
A support portion connected to the body and having a sliding groove formed in a vertical direction,
A control plate slidably inserted in the sliding groove and capable of adjusting a water level of the water according to a sliding movement;
And an adjusting unit coupled to the adjusting plate and slidably moving the adjusting plate in the vertical direction,
A wet scrubbing apparatus for moving the regulating plate upward to increase the water level of the water when the supply flow rate of the gas is increased and lower the water level of the water by moving the regulating plate downward when the supply flow rate of the gas is decreased, . The method according to any one of claims 11 to 14,
Further comprising a bypass line bypassing the cooling and discharging module and connected to the booster module at one end and connected to the atomizing module at the other end to directly supply the gas discharged from the booster module to the atomizing module Wet scrubbing equipment.

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