KR102130794B1 - Flash mixer and neutralization equipment comprising the same - Google Patents

Abstract

The present invention has a first inner space 110, the sealed body 100; Partially or entirely inserted into the first inner space 110 at one end of the main body 100, has a second inner space 210, and a fluid inlet pipe for introducing fluid into the first inner space 110 ( 200); A first gas inlet pipe 300 connected to one side in one direction of the main body 100 and having a third inner space 310 and introducing gas into the first inner space 110; And the first gas inlet pipe 300 and the main body 100 is connected to the fluid inlet pipe 200 at a position facing the hole, is inserted into the second interior space 210, It provides a mixer 30 including a fourth internal space 410, the second gas inlet pipe 400 for introducing the gas into the second inner space 210 and / or the first inner space. The rapid mixer according to the present invention and the neutralization apparatus comprising the same neutralizes the alkaline wastewater by using carbon dioxide gas, thereby improving stability in water treatment of the alkaline wastewater, while improving the problem of secondary environmental pollution that occurs when using a solid or liquid neutralizer. , It has the effect of minimizing the installation space and reducing maintenance costs.

Description

FLASH MIXER AND NEUTRALIZATION EQUIPMENT COMPRISING THE SAME

The present invention relates to a rapid mixer and a neutralization apparatus including the same, and more specifically, by mixing the alkaline wastewater and carbon dioxide gas by introducing a metal mixer to neutralize the mixture, thereby performing high-efficiency for alkaline wastewater without additional neutralization and softening equipment. The present invention relates to a rapid mixer capable of neutralizing and softening, and a neutralizing device comprising the same.

Alkaline wastewater is generated in various industries, especially in tunnel construction and inorganic wastewater, paper, leather and semiconductor cleaning processes. The wastewater generated at this time contains a large amount of alkalinity, and has a strong alkalinity up to a pH of 12 to 13. Therefore, a process of neutralizing the pH is essential for the subsequent treatment and discharge of the wastewater. Accordingly, in the prior art, as a method for neutralizing alkaline wastewater, a large amount of neutralizing agent, that is, a large amount of neutralizing agent composed of liquid or solid, is used to neutralize the alkaline wastewater using high concentration (eg, 98% or more) sulfuric acid.

However, the sulfuric acid as described above has a complicated and time-consuming licensing process according to the enforcement of the Chemical Management Act, and has high risk of transportation and use when using sulfuric acid. This existed, and in particular, it had a drawback that it occupied more than 70% of the total water treatment cost and requires a lot of maintenance costs. Therefore, a method using low concentration (less than 10%) sulfuric acid was tried to exempt the chemical management law. However, when such a low concentration of sulfuric acid is used as a neutralizing agent, there is a problem that the maintenance cost required for the neutralization process is further increased.

In addition, when using a low concentration (less than 10%) sulfuric acid neutralizing agent for exemption from the chemical management law, the capacity for chemical storage containers is increased by about 10 times or more compared to the existing high concentration (98%) sulfuric acid, resulting in on-site facility and maintenance costs. As it increases significantly, the maintenance difficulties are bound to follow.

In addition, when a high concentration or low concentration of sulfuric acid neutralizing agent is used as described above, as the non-carbonate hardness increases by the sulfuric acid reactant, it causes an ecological and environmental problem in the discharge stream, and thus, a new neutralization technique is urgently required.

Accordingly, a method of neutralizing an alkaline wastewater using a gas neutralizer has been attempted, but the degree of technology development is still insignificant in terms of efficiency of a mixer and/or a neutralizer.

KR 10-2003-0046263 A KR 10-2004-0020493 A KR 10-2009-0013316 A

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to provide a rapid mixer and a neutralizing apparatus comprising the same that can rapidly and efficiently mix the fluid and gas efficiently.

The present invention provides a neutralizer and a rapid mixer that can be easily neutralized and softened by efficiently mixing a fluid containing strong alkaline wastewater and a gas containing carbon dioxide that can neutralize it, and a neutralizing device comprising the same will be.

In addition, another object of the present invention is to provide a rapid mixer capable of performing high-efficiency neutralization without the need for a separate neutralization and softening device by effectively mixing carbon dioxide gas and alkaline wastewater, and a neutralization device comprising the same.

One aspect of the present invention for achieving the above object, has a first inner space 110, the sealed body 100; Partially or entirely inserted into the first inner space 110 at one end of the main body 100, has a second inner space 210, and a fluid inlet pipe for introducing fluid into the first inner space 110 ( 200); A first gas inlet pipe 300 connected to one side in one direction of the main body 100 and having a third inner space 310 and introducing gas into the first inner space 110; And the first gas inlet pipe 300 and the main body 100 is connected to the fluid inlet pipe 200 at a position facing the hole, is inserted into the second interior space 210, It relates to a mixer (30) having a fourth internal space (410), the second gas inlet pipe (400) for introducing the gas into the second inner space (210) and/or the first inner space.

In addition, it is connected to the other end of the main body 100, and the discharge pipe 500 for discharging the mixture of the fluid and the gas and / or the reaction product of the fluid and the gas; may further include.

In addition, the first internal space 110 includes a gas inlet chamber 111 formed between the main body 100 and the fluid inlet pipe 200, and the gas is introduced through the gas inlet chamber 111. It may be introduced into the first internal space 110.

In addition, the fluid inlet pipe 200 may have an end inserted into the body 100 past the end of the second gas inlet pipe 400.

In addition, a portion of the second gas inlet pipe 400 may be positioned parallel to the fluid inlet pipe 200 in the longitudinal direction.

In addition, the mixer 30 further includes a guide 610 inside the main body 100, one end of the guide 610 is connected to the main body 100, and the other end of the guide 610 Located past the end of the fluid inlet pipe 200 and the end of the second gas inlet pipe 400, the guide 610 is a through-conical truncated cone without a bottom surface and an upper surface, through an elliptical truncated cone, through a polygonal truncated cone And a combination thereof, and the guide 610 may guide the fluid and/or gas.

In addition, the mixer 30 may further include a plurality of the guides 610 sequentially according to the flow direction of the fluid.

In addition, the mixer 30 may further include a check valve 620 at the other end of the guide 610 to prevent the backflow of the fluid.

In addition, the mixer 30 further includes a single or a plurality of rectifying plates 630 to mix the fluid and the gas after the other end of the fluid inlet pipe 200 inside the body, and the rectifying plate 630 includes a plurality of through-holes 631, part or all of the outer circumferential surface of the rectifying plate 630 may be combined with the inner circumferential surface of the main body 100.

In addition, the rectifying plate 630 may include a plate shape, a funnel shape, a cone shape, an elliptical cone shape, a polygonal pyramid shape, or a combination thereof.

In addition, at least one of the gas inlet 640, the pressure valve 650 and the pressure gauge 660 connected to the main body 100 after the other end of the fluid inlet pipe 200 is added to the mixer 30 is added. It can contain as.

In addition, the mixer 30 may include a pressure control valve 670 connected to the discharge pipe 500 to control the pressure inside the main body 100.

Further, the fluid may include alkaline wastewater, the gas may contain carbon dioxide, and the mixer 30 may be for neutralizing the alkaline wastewater using the carbon dioxide to produce neutralized treated water.

Another aspect of the present invention, the gas supply unit 10 for supplying a gas containing carbon dioxide to the mixer 30, the gas flow control valve 15; A fluid supply unit 20 including a first pH sensor 21 and supplying a fluid containing alkaline wastewater to the mixer 30; The mixer according to claim 1, which is supplied with gas from the gas supply unit 10, receives the fluid from the fluid supply unit 20, mixes the gas and the fluid, and neutralizes them to produce a mixed solution containing a reaction product. (30); A water collecting tank 40 including a second pH sensor 41 and receiving and storing the mixed solution from the mixer 30; And a control unit 50: the control unit 50 controls the gas flow rate control valve 15 by the pH measured by the first pH sensor 21 and/or the second pH sensor 41. It relates to a neutralizing device (1) characterized in that to control the pH of the mixed solution by controlling the amount of gas supplied to the mixer 30 from the gas supply unit (10).

In addition, the neutralization device 1 may further include a precipitation tank 60 for producing a precipitate by agglomeration and precipitation of the reaction product of the mixed solution.

In addition, the neutralizing device 1 may further include a vibrator 61 attached to the sedimentation tank 60 to increase the sedimentation rate of the sedimentation device 60.

In addition, the neutralizer 1 may further include a dehydrator 70 for preparing a dehydrating cake by dehydrating the precipitate.

In addition, the fluid supply unit 20 includes a fluid reservoir 22 and a pump 23, and the neutralizer 1 uses the pump 23 for the fluid of the fluid supply unit 20 to the mixer ( 30), the pump 23 may be an underwater pump impregnated with the fluid in the fluid reservoir, or may be an onshore pump located on the ground between the fluid reservoir and the mixer.

In addition, the gas supply unit 10 may further include at least one of a liquefied carbon storage tank 11, a vaporizer 13, and a pressure reducer (14).

In addition, the inorganic compound and/or organic compound contained in the mixed solution may be aggregated by using an inorganic coagulant and/or an organic coagulant in the water collecting tank 40.

The rapid mixer according to the present invention having the above-described configuration and the neutralization device including the same has the advantage of performing a high-efficiency neutralization reaction without the need for a separate neutralization and softening device by effectively mixing carbon dioxide gas and alkaline wastewater. .

In addition, the neutralization apparatus including the rapid mixer according to the present invention neutralizes the alkaline wastewater by using carbon dioxide gas, thereby improving stability in water treatment of the alkaline wastewater while improving the problem of secondary environmental pollution that occurs when using a solid or liquid neutralizer. And, it has the effect of minimizing the installation space and reducing maintenance costs.

1 is a cross-sectional view of a rapid mixer according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of a portion indicated by a single-dot chain line in FIG.
3 is a schematic diagram of a neutralization apparatus including a rapid mixer according to an embodiment of the present invention.
4 is a schematic diagram of a gas supply unit according to an embodiment of the present invention.

The present invention can be applied to various transformations and can have various embodiments, and thus, specific embodiments will be illustrated and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

In the description of the present invention, when it is determined that a detailed description of known technologies related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted.

Further, terms including ordinal numbers such as first and second to be used below may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may be referred to as a first component.

Also, when it is stated that a component is "on another component", "formed on another component" or "laid on another component", it is directly applied to the front or one side of the surface of the other component. It may be attached or formed or laminated, but it should be understood that other components may be further present in the middle.

Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as “include” or “have” are intended to indicate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, and that one or more other features are present. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Fluids, unless specifically stated in the present invention, include liquids, slurries, or mixtures of solids and liquids, and are not limited as long as they are flowable materials or combinations thereof.

Hereinafter, the present invention will be described in detail. However, this is provided as an example, and the present invention is not limited thereby, and the present invention is only defined by the scope of claims to be described later.

Hereinafter, a rapid mixer of the present invention and a neutralization apparatus including the same will be described with reference to FIGS. 1 and 2.

Mixer 30 of the present invention has a first inner space 110, the sealed body 100; Partially or entirely inserted into the first inner space 110 at one end of the main body 100, has a second inner space 210, and a fluid inlet pipe for introducing fluid into the first inner space 110 ( 200); A first gas inlet pipe 300 connected to one side in one direction of the main body 100 and having a third inner space 310 and introducing gas into the first inner space 110; And the first gas inlet pipe 300 and the main body 100 is connected to the fluid inlet pipe 200 at a position facing the hole, is inserted into the second interior space 210, And a second gas inlet pipe 400 having 4 inner spaces 410 and introducing the gas into the second inner space 210 and/or the first inner space.

In the present invention, it is connected to the other end of the main body 100, and the discharge pipe 500 for discharging the mixture of the fluid and the gas and / or the reaction product of the fluid and the gas; may further include.

In the present invention, the first internal space 110 includes a gas inlet chamber 111 formed between the main body 100 and the fluid inlet pipe 200, and through the gas inlet chamber 111, Gas may be introduced into the first inner space 110.

In the present invention, the fluid inlet pipe 200 may have an end inserted into the body 100 past the end of the second gas inlet pipe 400.

In the present invention, a portion of the second gas inlet pipe 400 may be positioned parallel to the fluid inlet pipe 200 in the longitudinal direction.

In the present invention, the mixer 30 further includes a guide 610 inside the main body 100, one end of the guide 610 is connected to the main body 100, and the guide 610 ) The other end is located past the end of the fluid inlet pipe 200 and the end of the second gas inlet pipe 400, the guide 610 is a through-conical truncated cone without a bottom and top, through an elliptical conical, through The shape of any one of a polygonal truncated cone and a combination thereof, and the guide 610 may guide the fluid and/or gas.

In addition, the mixer 30 may further include a plurality of the guides 610 sequentially according to the flow direction of the fluid.

In the present invention, the mixer 30 further comprises a single or a plurality of rectifying plates 630 to mix the fluid and the gas after the other end of the fluid inlet pipe 200 inside the body, The rectifying plate 630 includes a plurality of through holes 631, and a part or all of the outer circumferential surface of the rectifying plate 630 may be combined with the inner circumferential surface of the main body 100.

In the present invention, the rectifying plate 630 may include a plate-shaped, funnel-shaped, cone-shaped, elliptical-conical, polygonal-pyramidal, or combinations thereof, and preferably plate-shaped or funnel-shaped or combinations thereof. can do.

In the present invention, the mixer 30 is one of the gas inlet 640, the pressure valve 650 and the pressure gauge 660 connected to the main body 100 after the other end of the fluid inlet pipe 200 It may further include the above, preferably may include both the gas input unit 640, the pressure valve 650 and the pressure gauge 660.

In the present invention, the mixer 30 may include a pressure control valve 670 connected to the discharge pipe 500 to control the pressure inside the body 100.

In the present invention, the fluid may contain alkaline wastewater, the gas may contain carbon dioxide, and the mixer 30 may be for preparing neutralized treated water by neutralizing the alkaline wastewater with the carbon dioxide.

In the mixer 30 of the present invention, when the carbon dioxide gas is supplied to the second interior space 210 and the gas inlet chamber 111 through which contaminated water is introduced, a mixed reaction of the introduced contaminated water and the carbon dioxide gas occurs by 90% or more, and pump The effect of mixing can be maximized on the principle of rapid mixing while passing through a single or multiple, preferably five-stage rectifying plate by pressure and gas pressure 1 to 10 kgf/cm ³ .

Another aspect of the present invention relates to a neutralizing device including the mixer 30, and FIG. 3 shows a schematic diagram of a neutralizing device including a rapid mixer according to an embodiment of the present invention.

Hereinafter, the neutralization device 1 according to the present invention will be described with reference to FIG. 3.

The neutralization apparatus 1 according to the present invention supplies a gas containing carbon dioxide to the mixer 30, and a gas supply unit 10 including a gas flow control valve 15 (not shown); A fluid supply unit 20 including a first pH sensor 21 (not shown) and supplying a fluid containing alkaline wastewater to the mixer 30; The mixer according to claim 1, which is supplied with gas from the gas supply unit 10, receives the fluid from the fluid supply unit 20, mixes the gas and the fluid, and neutralizes them to produce a mixed solution containing a reaction product. (30); A water collecting tank 40 including a second pH sensor 41 (not shown) and receiving and storing the mixed solution from the mixer 30; And a control unit 50, wherein the control unit 50 has the gas flow rate by the pH measured by the first pH sensor 21 (not shown) and/or the second pH sensor 41 (not shown). The pH of the mixed solution is controlled by controlling the control valve 15 (not shown) to control the amount of gas supplied to the mixer 30 from the gas supply unit 10.

The control unit 50 receives the pH information from the pH sensor of the water collection tank 40, and the electronic gas flow control valve of the gas supply unit operates to control the amount of carbon dioxide gas to reach a preset pH value.

In the present invention, the neutralization device 1 may further include a precipitation tank 60 for agglomeration and precipitation of the reaction product of the mixed solution to prepare a precipitate.

Further, the neutralizer 1 may further include a vibrator 61 (not shown) attached to the sedimentation tank 60 to increase the sedimentation rate of the sedimentation tank 60.

In the present invention, the neutralization device 1 may further include a dehydrator 70 for producing a dehydration cake by dehydrating the precipitate.

In the present invention, the fluid supply unit 20 includes a fluid reservoir (22, not shown) and a pump (23, not shown), the neutralizing device (1) pumps the fluid of the fluid supply unit 20 (23, not shown) is supplied to the mixer 30, and the pump 23 (not shown) is an underwater pump impregnated with the fluid in the fluid reservoir 22 (not shown), or between the fluid reservoir and the mixer It may be a land pump located on the ground.

In addition, the gas supply unit according to the present invention will be described with reference to FIG. 4.

Gas supply unit 10 of the present invention may further include one or more of the liquefied carbon storage tank 11, vaporizer 13, and pressure reducer 14, preferably liquefied carbon storage tank 11 , It may include both the vaporizer 13, and the pressure reducer 14, more preferably the liquefied carbon storage tank 11, the on-off valve 12, the vaporizer 13, the pressure reducer 14, the gas flow rate It may include a control valve 15, a gas pressure control device 16 and a check valve (17).

In the present invention, the inorganic compound and/or the organic compound contained in the mixed solution may be aggregated by using the inorganic coagulant and/or organic coagulant in the water collecting tank 40.

In the above, preferred embodiments of the present invention have been described, but those skilled in the art can add, change, and delete components without departing from the spirit of the present invention as set forth in the claims. Alternatively, the present invention may be modified and changed in various ways by addition or the like, and this will also be included within the scope of the present invention. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form. The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be interpreted that all changes or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. do.

Claims (20)

It has a first internal space 110, the sealed body 100;
Partially or entirely inserted into the first inner space 110 at one end of the main body 100, has a second inner space 210, and a fluid inlet pipe for introducing fluid into the first inner space 110 ( 200);
A first gas inlet pipe 300 connected to one side in one direction of the main body 100 and having a third inner space 310 and introducing gas into the first inner space 110; And
The first gas inlet pipe 300 and the main body 100 is connected to the fluid inlet pipe 200 at a position facing the hole, and is inserted into the second internal space 210 and located, fourth A second gas inlet pipe 400 having an inner space 410 and introducing the gas into the second inner space 210 and/or the first inner space;
Mixer included. According to claim 1,
And a discharge pipe (500) connected to the other end of the body (100) to discharge a mixture of the fluid and the gas and/or a reaction product of the fluid and the gas. According to claim 1,
The first internal space 110 includes a gas inlet chamber 111 formed between the main body 100 and the fluid inlet pipe 200,
Mixer characterized in that the gas is introduced into the first interior space 110 through the gas inlet chamber (111). According to claim 1,
The fluid inlet pipe 200 is a mixer characterized in that the end inserted into the main body 100 is located past the end of the second gas inlet pipe 400. According to claim 1,
The second gas inlet pipe 400 is a mixer, characterized in that a part of the fluid inlet pipe 200 is located parallel to the longitudinal direction. According to claim 1,
The mixer 30 further includes a guide 610 inside the body 100,
One end of the guide 610 is connected to the main body 100, the other end of the guide 610 is located past the end of the fluid inlet pipe 200 and the end of the second gas inlet pipe 400,
The guide 610 is a shape of any one of a through-conical truncated cone, a through-elliptical truncated cone, a through-polygonal truncated cone, and a combination thereof without a bottom and an upper surface,
Mixer characterized in that the guide 610 guides the fluid and / or gas. The method of claim 6,
The mixer 30 further comprises a plurality of the guides 610 sequentially in accordance with the flow direction of the mixer. The method of claim 7,
Mixer 30, characterized in that it further comprises a check valve 620 on the other end of the guide 610 to prevent the backflow of the fluid. According to claim 1,
In order to mix the fluid and the gas, the mixer 30 further includes a single or a plurality of rectifying plates 630 after the other end of the fluid inlet pipe 200 inside the body,
The rectifying plate 630 includes a plurality of through holes 631,
Mixer characterized in that part or all of the outer circumferential surface of the rectifying plate 630 is combined with the inner circumferential surface of the main body 100. The method of claim 9,
The rectifying plate 630 is a mixer, characterized in that it comprises a plate-shaped, funnel-shaped, conical, elliptical, polygonal, or a combination of them. According to claim 1,
The mixer 30 further includes at least one of a gas input part 640, a pressure valve 650, and a pressure gauge 660 connected to the main body 100 after the other end of the fluid inlet pipe 200. Mixer characterized in that. According to claim 2,
The mixer 30 is a mixer characterized in that it comprises a pressure control valve 670 connected to the discharge pipe 500 to adjust the pressure inside the body 100. According to claim 1,
A mixer characterized in that the fluid contains alkaline wastewater, the gas contains carbon dioxide, and the mixer (30) neutralizes the alkaline wastewater using the carbon dioxide to produce neutralized treated water. A gas supply unit 10 that supplies gas containing carbon dioxide to the mixer 30 and includes a gas flow control valve 15;
A fluid supply unit 20 including a first pH sensor 21 and supplying a fluid containing alkaline wastewater to the mixer 30;
The mixer according to claim 1, which is supplied with gas from the gas supply unit 10, receives the fluid from the fluid supply unit 20, mixes the gas and the fluid, and neutralizes them to produce a mixed solution containing a reaction product. (30);
A water collecting tank 40 including a second pH sensor 41 and receiving and storing the mixed solution from the mixer 30; And
Control unit 50 includes:
The control unit 50 controls the gas flow rate control valve 15 by the pH measured by the first pH sensor 21 and/or the second pH sensor 41, so that the mixer in the gas supply unit 10 Neutralization device characterized in that to control the pH of the mixed solution by adjusting the amount of gas supplied to (30). The method of claim 14,
The neutralization apparatus (1) is a neutralization apparatus characterized in that it further comprises a precipitation tank (60) for producing a precipitate by agglomeration and precipitation of the reaction product of the mixed solution. The method of claim 15,
Neutralizing device characterized in that the neutralizing device (1) further comprises a vibrator (61) attached to the sedimentation tank (60) to increase the sedimentation tank (60). The method of claim 15,
The neutralization device (1) is a neutralization device characterized in that it further comprises a dehydrator (70) for producing a dehydration cake by dehydration receiving the precipitate. The method of claim 14,
The fluid supply unit 20 includes a fluid reservoir 22 and a pump 23,
The neutralization device 1 supplies the fluid from the fluid supply unit 20 to the mixer 30 using the pump 23,
Neutralization device, characterized in that the pump 23 is an underwater pump impregnated with the fluid in the fluid reservoir 22, or a land pump located on the land between the fluid reservoir 22 and the mixer 30. The method of claim 14,
Neutralization device, characterized in that the gas supply unit 10 further comprises at least one of a liquefied carbon storage tank 11, a vaporizer 13, and a pressure reducer (14). The method of claim 14,
Neutralization apparatus characterized in that the inorganic compound and / or organic compound contained in the mixed solution is agglomerated by using an inorganic coagulant and / or organic coagulant in the water collecting tank (40).

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