KR100931512B1 - Ozone Oxidizer for Wastewater Treatment - Google Patents

Abstract

The present invention relates to an ozone oxidizer for wastewater treatment, and more particularly, in an ozone oxidizer for reacting wastewater and ozone, an injector for transporting a reaction solution in which the wastewater introduced into the reactor and the ozone is oxidized to the bottom of the reactor. And the injector and the at least one surface inclined at a predetermined inclination angle so as to easily separate the ozone gas existing in a gaseous state without being completely dissolved in waste water from the reaction liquid transferred by the injector. And a conical separator provided between the reaction liquid discharge ports. The present invention has the effect that by easily separating the ozone gas from the reaction liquid by the conical separator, it is possible to significantly reduce the amount of the ozone gas discharged with the reaction liquid as in the prior art.

Ozone oxidizer, injector, conical separator

Description

Ozone Oxidation Apparatus For Treating Sewage

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ozone oxidizer for wastewater treatment, and in particular, to oxidize wastewater and ozone to purify contaminants present in wastewater. More specifically, the present invention relates to an ozone oxidation apparatus that can easily separate the ozone gas which is not dissolved in the waste water and remains in a gaseous state even after the waste water and ozone introduced into the reactor undergo an oxidation reaction.

Ozone has strong oxidizing power and instability, so it does not leave a residue after use. For this reason, ozone is increasingly being used as a variety of chemical oxidants. In general, however, ozone is a gaseous substance, so the reaction in gas is relatively easy, but requires a separate device for reaction with liquid.

Typically, the reaction of gas and liquid is dependent on diffusion by contact of the gas-liquid interface, and accordingly, various methods for maximizing the contact surface area of the liquid per unit volume of ozone have been developed for the expansion of the gas-liquid interface. The most widely used method is to place bubbles having small pores, called bubblers or diffusers, in a liquid to generate bubbles. This method is easy to install and easy to use, but is relatively limited in simple systems due to its relatively low gas-liquid contact transfer efficiency.

Later, gas-liquid dispersion methods and apparatuses using venturi injectors or in-line static mixers having various shapes were developed, which require a certain flow rate compared to the above-described bubbler or diffuser device, but the reactor Or it can be easily installed in the pipe, because the ozone reaction efficiency by the gas-liquid contact is good, it is widely used industrially.

1 is a cross-sectional view showing an example of an internal configuration of an ozone oxidation apparatus using a gas-liquid dispersion method according to the prior art, and introduced into the reactor 15 through a waste water inlet 11 and an ozone inlet 12 as shown here. Waste water and ozone are subjected to oxidation in the reactor (15). Thereafter, the reaction solution which has undergone such an oxidation reaction should be the reaction solution outlet 13 located below the reactor 15. In addition, the ozone gas, which cannot be dissolved in the waste water even after the oxidation reaction, should be discharged to the exhaust zone outlet 14 located above the reactor 15.

However, unreacted ozone that has not reacted with the waste water and oxygen in the waste water (that is, the ozone gas) coexisting therein naturally flow into the reaction liquid outlet 13 as the reaction liquid flows through the oxidation reaction. This is a problem that a large amount of ozone gas is discharged to the reaction solution outlet 13 together with the reaction solution, especially when the flow rate of the reaction solution is fast.

SUMMARY OF THE INVENTION An object of the present invention is to provide a conical separator or a reactor or ozone oxygen apparatus including the same, which can easily separate the ozone gas present in a gaseous state without being completely dissolved in the waste water from the reaction solution in which the waste water and ozone are oxidized. It is to.

The present invention easily separates the ozone gas from the reaction liquid through a conical separator provided between the injector provided inside the reactor and the reaction liquid discharge port provided at the bottom of the reactor while having at least one surface inclined at a predetermined inclination angle. By doing so, the ozone gas is not discharged together with the reaction liquid as in the prior art.

The present invention provides an ozone oxidation apparatus for reacting waste water and ozone, comprising: a reactor having a waste water inlet for inflowing the waste water at an upper end thereof and an ozone inlet for injecting the ozone at an upper side thereof; A venturi-type injector, which transfers the reaction solution in which the waste water introduced by the injection port and the ozone is oxidized to the lower end of the reactor, and is provided from the top to the middle of the reactor; A reaction liquid discharge port provided at a lower end of the reactor to discharge the reaction liquid transferred by the injector; An ozone gas discharge port provided at an upper end of the reactor to discharge the ozone gas transferred together with the reaction solution; And a conical separator provided between the injector and the reaction liquid discharge port, having one or more surfaces inclined at a predetermined inclination angle so as to separate the ozone gas from the reaction liquid transferred by the injector. It is an ozone oxidation device for wastewater treatment characterized by the above-mentioned.

Here, the conical separator preferably has a spiral or helical protrusion.

In addition, the ozone oxidation device for wastewater treatment according to the present invention, by introducing the reaction liquid discharged through the reaction liquid discharge port back into the waste water injection port, the circulating drainage passage connected from the reaction liquid discharge port to the waste water injection port It is also possible to include more.

Specific details of other embodiments are included in the detailed description and the drawings. Hereinafter, specific embodiments of the present invention will be described in detail.

As described above, according to the present invention, a conical separator or a reaction including the same, which can easily separate the ozone gas present in the gas state without being completely dissolved in the waste water from the reaction solution in which the waste water and ozone are oxidized. Or ozone oxygen systems can be provided.

That is, the present invention facilitates the ozone gas from the reaction solution through a conical separator provided between the injector provided inside the reactor and the reaction liquid discharge port provided in the lower part of the reactor while having at least one surface inclined at a predetermined inclination angle. By separating so much, there is an effect that the amount of ozone gas discharged together with the reaction liquid can be significantly reduced as in the prior art.

Hereinafter, one preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. The invention may be better understood by the following examples, which are intended for purposes of illustration of the invention and are not intended to limit the scope of protection defined by the appended claims.

2 is a cross-sectional view showing an example of an injector and a conical separator included in the ozone oxidizer according to the present invention. As shown here, the ozone oxidizer according to the present invention includes a reactor 5 in which waste water and ozone react. Wow; An injector 6 provided inside the reactor 5; A reaction liquid discharge port 3 provided at a lower end of the reactor 5; An ozone gas discharge port 4 provided at an upper end of the reactor 5; And a conical separator 7 for separating the ozone gas from the reaction liquid.

The present invention first relates to an ozone oxidation device for reacting waste water with ozone. That is, the present invention relates to an ozone oxidizer which oxidizes and / or sterilizes waste water by using ozone. By reacting waste water with ozone gas in a reactor, bone bubbles of ozone gas are dispersed in waste water and present in waste water. It increases the dissolved ozone concentration and thereby purifies the pollutants present in the waste water.

To this end, the reactor 5 according to the present invention is provided with a waste water inlet 1 for introducing waste water and an ozone inlet 2 for inflowing the ozone. The waste water inlet (1) and the ozone inlet (2) is preferably provided at the top of the reactor (5) for the oxidation reaction of the incoming waste water and ozone, the oxidation reaction is ozone gas in contact with the waste water liquid to disperse bone If the ozone inlet 2 is provided on the top of the side of the reactor it is more preferable because the ozone gas can be more evenly in contact with the waste water or pollutants present in the waste water.

In addition, the present invention includes an injector 6 in which the waste water and ozone introduced by the waste water inlet 1 and the ozone inlet 2 undergo an oxidation reaction, and the injector 6 performs the oxidation reaction. The coarse reaction solution is transferred to the bottom of the reactor (5). That is, the introduced waste water and ozone are oxidized by gas-liquid contact reaction by dispersing the ozone gas into fine bubbles in the waste water in the venturi-type injector 6 provided from the top or the middle or the top to the middle of the reactor 5. To react. Since the oxidation reaction of ozone is performed at the interface of the gas liquid, the faster the reaction occurs as the surface area is kept wide. Accordingly, the present invention may further include an in-line static mixer for widening the surface area at the rear end of the injector 6.

In addition, the present invention is to discharge the reaction liquid transferred by the injector (6) and the reaction liquid discharge port (3) provided at the bottom of the reactor (5); The ozone gas discharge port 4 provided at the upper end of the reactor 5 by discharging the ozone gas transferred together with the reaction liquid. As described above, the wastewater and ozone introduced into the reactor 5 through the wastewater inlet 1 and the ozone inlet 2 undergo an oxidation reaction in the reactor 5, and then undergo the oxidation reaction. The liquid should be the reaction liquid outlet 3 at the bottom of the reactor 5. In addition, the ozone gas, which cannot be dissolved in the waste water even after the oxidation reaction, should be discharged to the ozone outlet 4 located above the reactor 5.

However, the ozone gas containing unreacted ozone that has not reacted with the waste water and oxygen in the waste water coexisting therein can naturally flow into the reaction liquid outlet 3 in accordance with the flow of the reaction liquid which has undergone the oxidation reaction. In particular, this means that a large amount of ozone gas may be discharged to the reaction solution outlet 3 together with the reaction solution, especially when the flow rate of the reaction solution is high.

In order to solve this problem, the present invention is provided between the injector 6 and the reaction liquid discharge port 3 so that the ozone gas can be easily separated from the reaction liquid transferred by the injector 6. It is characterized in that it comprises a conical separator (7). The conical separator 7 preferably has at least one surface inclined at a predetermined inclination angle from the injector 6 to the reaction liquid discharge port 3, which is a reaction liquid conveyed by the injector 6. It is possible to separate the ozone gas from the reaction liquid during the process by crashing and bypassing one surface of the conical separator 7 according to the present invention without immediately exiting the reaction liquid discharge port 3 existing at the bottom of the reactor 5. This is to facilitate.

That is, according to the present invention, the reaction liquid transferred from the venturi injector 6 collides with one surface of the conical separator 7 disposed at the rear end of the injector 6 to be separated into the pure reaction liquid and the ozone gas. After the reaction liquid is discharged to the reaction liquid discharge port 3 provided at the bottom of the reactor (5), the separated ozone gas is floated again under buoyancy and the ozone discharge port provided at the top of the reactor ( 4) will be separated and discharged.

To this end, the conical separator 7 according to the present invention preferably has one or more inclined surfaces having a predetermined inclination angle from the injector 6 with respect to the reaction liquid discharge port 3 direction, and the conical separator ( 7) more preferably has a spiral or helical protrusion.

As described above, the present invention is provided between the injector 6 provided in the reactor 5 and the reaction liquid discharge port 3 provided in the lower part of the reactor 5 while having at least one surface inclined at a predetermined inclination angle. It is characterized by having a conical separator (7), through which easy to separate the ozone gas from the reaction liquid, there is an effect that can significantly reduce the amount of the ozone gas is discharged with the reaction liquid as in the prior art.

3 is a flowchart showing an example of a linear reaction process of the ozone oxidation device according to the present invention, and FIG. 4 is a flowchart showing an example of a cyclic reaction process of the ozone oxidation device according to the present invention.

First, as shown in FIG. 3, the reaction liquid discharged from the ozone oxidation device 5 according to the present invention becomes a liquid 150 after the reaction purified by ozone, and the ozone discharged from the ozone oxidation device 5. The gas may go through a linear reaction process entering the ozone handler 140. Here, the waste water is introduced into the ozone oxidizer 5 according to the present invention as a liquid 130 before the reaction, and ozone is passed from the oxygen 110 to the ozone oxidizer 5 according to the present invention through the ozone generator 120. Inflow.

In addition, the ozone oxidizer 5 for wastewater treatment according to the present invention, as shown in Figure 4, for introducing the reaction liquid discharged through the reaction liquid discharge port 3 back to the waste water injection port (1) In addition, it is also possible to further include a circulating drainage passage 152 connected from the reaction liquid discharge port 3 to the waste water injection port 1. In this case, a part of the reaction liquid discharged from the ozone oxidizer 5 may be converted into a liquid 150 after the reaction purified by ozone via the storage tank 151, and the other part of the reaction drain 152 By passing back into the ozone oxidizer 5 according to the present invention, it is possible to perform a repeated purification process by ozone. That is, it may go through a cyclic reaction process.

On the other hand, while the present invention has been shown and described with respect to certain preferred embodiments, the invention is variously modified and modified without departing from the technical features or fields of the invention provided by the claims below It will be apparent to those skilled in the art that such changes can be made.

According to the present invention, a conical separator capable of easily separating the ozone gas from the reaction solution in which the waste water and ozone are oxidized is applied between the injector provided inside the reactor and the reaction liquid discharge port provided at the bottom thereof. The amount of ozone gas discharged together with the reaction liquid can be significantly reduced.

1 is a cross-sectional view showing an example of the internal configuration of the ozone oxidation device according to the prior art,

2 is a cross-sectional view showing an example of an injector, a conical separator, and the like included in the ozone oxidizing apparatus according to the present invention;

3 is a flowchart showing an example of a linear reaction process of the ozone oxidizing apparatus according to the present invention;

4 is a flowchart showing an example of a cyclic reaction process of the ozone oxidation device according to the present invention.

** Explanation of simple symbols on the main parts of the drawings **

1: waste water inlet 2: ozone inlet

3: reaction liquid discharge port 4: ozone gas discharge port

5: reactor 6: injector

7: conical separator

Claims (3)

In the ozone oxidizer which reacts waste water and ozone, A reactor having a wastewater inlet for introducing the wastewater at the top, and having an ozone inlet for introducing the ozone at the top of the side; A venturi-type injector, which transfers the reaction solution in which the waste water and ozone oxidized by the injection port is oxidized to the lower end of the reactor, and is provided from the top to the middle of the reactor; A reaction liquid discharge port provided at a lower end of the reactor to discharge the reaction liquid transferred by the injector; An ozone gas discharge port provided at an upper end of the reactor to discharge the ozone gas transferred together with the reaction solution; And And a conical separator provided between the injector and the reaction liquid discharge port while having at least one surface inclined at a predetermined inclination angle so as to separate the ozone gas from the reaction liquid transferred by the injector. Ozone oxidation device for wastewater treatment. The ozone oxidation apparatus for wastewater treatment according to claim 1, wherein the conical separator has a spiral or helical protrusion. The wastewater treatment method of claim 1, further comprising introducing a reaction liquid discharged through the reaction liquid discharge port back into the waste water injection port, and further comprising a circulation drainage passage connected to the waste water injection port from the reaction liquid discharge port. Ozone Oxidation Device.

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