KR20220089201A - Ozone treatment apparatus and method for sewage toc reduction - Google Patents

Abstract

According to an embodiment of the present invention, an ozone treatment unit including an ozone contact tank that is formed in a cylindrical shape to treat wastewater using ozone, and to sterilize harmful substances contained in the wastewater by introducing a mixed solution of wastewater and ozone , a contact chamber to which the treated wastewater from the ozone treatment unit is delivered, a discharge nozzle installed under the ozone contact tank and provided on a path through which the treated water, on which gas separation and reaction has been completed, is transferred to the contact chamber, ozone in the ozone treatment unit An ozone supply unit for supplying the ozone, an ozone discharge unit through which the ozone used in the ozone treatment unit is discharged, and a pressure gauge and a pressure control valve provided to a discharge pipe connected to the discharge port in which the discharge nozzle is formed to control the operating pressure of the tank An ozonation device for reducing sewage TOC may be provided.

Description

OZONE TREATMENT APPARATUS AND METHOD FOR SEWAGE TOC REDUCTION

The present invention relates to an ozone treatment device and method for reducing sewage TOC.

With the rapid industrialization, the amount of wastewater such as sewage and wastewater is rapidly increasing, and the shape of pollutants is also very diversified.

In general, the wastewater treatment method is divided into a physical purification method, a chemical purification method, and a biological purification method. Among them, the ozone oxidation treatment facility, which is one of the chemical purification methods, can achieve reduction in initial investment and operation cost.

Ozone has the second strongest oxidizing power in nature after fluorine, so it is used for disinfection, sterilization, and taste and odor removal in water purification plants, and is widely used for sterilization, disinfection, COD, BOD and color removal in wastewater treatment plants.

There are two very important factors in the ozone treatment process, one of which is an ozone production technology that increases the concentration of the produced ozone gas, and the other is an ozone dissolution technology that dissolves and reacts the produced ozone gas in water with a high transfer rate.

In the former case, the ozone concentration of ozone generators currently used for industrial purposes has been developed and used up to about 12 wt%, so the technology has been developed a lot compared to the past ozone concentration of 2-3 wt%.

In the latter case, the technology was developed from a ceramic diffuser diffuser to a pressurized injection method for a high ozone transfer rate, and the ozone transfer efficiency was developed up to 95% or more.

However, the conventional pressurized injection type dissolving device has a very big advantage of high ozone transfer efficiency and at the same time has a big problem of material corrosion of the dissolving device due to the strong oxidizing power of ozone.

An object of the present invention is to prevent leakage of water due to corrosion of an ozone contact tank and downstream piping, which are one of the core technologies of an ozone water treatment device.

According to one aspect of the present invention, an ozone treatment unit comprising an ozone contact tank that is formed in a cylindrical shape to treat wastewater using ozone, and to which a mixture of wastewater and ozone is introduced so that ozone sterilizes harmful substances contained in the wastewater; a contact chamber to which the wastewater treated from the ozone treatment unit is delivered; a discharge nozzle installed under the ozone contact tank and provided on a path through which the gas separation and reaction complete treated water is transferred to the contact chamber; an ozone supply unit for supplying ozone to the ozone treatment unit; an ozone discharge unit for discharging ozone used in the ozone treatment unit; and a pressure gauge and a pressure regulating valve provided in a discharge pipe connected to the discharge port in which the discharge nozzle is formed to adjust the operating pressure of the tank.

According to another aspect of the present invention, the step of supplying ozone to the ozone treatment unit; treating wastewater using ozone supplied from the ozone treatment unit; transferring the wastewater treated from the ozone treatment unit to the contact chamber through a discharge nozzle; discharging ozone used in the ozone treatment unit; An ozone treatment method for reducing TOC of sewage may be provided, comprising the step of regulating the operating pressure of the tank through a pressure gauge and a pressure control valve provided in a discharge pipe connected to the discharge port in which the discharge nozzle is formed.

The present invention has the effect of stably removing difficult-to-decompose organic matter and color by injecting a high concentration of oxidizing gas without causing corrosion to the ozone contact tank and piping in a treatment plant that requires a high ozone injection rate, such as a wastewater treatment plant. have.

1 is a schematic structural diagram showing an ozone treatment apparatus according to the present invention.
FIG. 2 is a schematic plan view showing the ozone contact tank of FIG. 1 .
3 is a schematic front view showing the ozone contact tank of FIG.
4 is a schematic perspective view showing an operating state of the ozone contact tank of FIG.
5 is a schematic cross-sectional view showing a modified example of the ozone inflow prevention plate.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted. In addition, the embodiments of the present invention will be described below, but the technical spirit of the present invention is not limited thereto and may be variously implemented by those skilled in the art. On the other hand, for convenience described below, the up, down, left and right directions are based on the drawings, and the scope of the present invention is not necessarily limited to the direction.

Throughout the specification, when a part is "connected" with another part, this includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another element interposed therebetween. . Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

1 is a schematic structural diagram showing an ozone treatment apparatus according to the present invention, FIG. 2 is a schematic plan view showing the ozone contact tank of FIG. 1, FIG. 3 is a schematic front view showing the ozone contact tank of FIG. 1, and FIG. 4 is FIG. It is a schematic perspective view showing the operating state of the ozone contact tank.

The ozone treatment apparatus 100 according to the present invention includes an ozone treatment unit 110 that treats wastewater using ozone, a contact chamber 130 to which wastewater treated from the ozone treatment unit 110 is delivered, and the ozone treatment unit 110 . It includes an ozone supply unit 150 for supplying ozone to the ozone and an ozone discharge unit 170 for discharging ozone used in the ozone processing unit 110 .

The ozone treatment unit 110 also delivers the wastewater treated by the ozone treatment unit 110 to the contact chamber 130, but receives the wastewater that needs additional treatment from the contact chamber 130 and processes it again. proceed

The ozone treatment unit 110 includes a motive pump 112 configured to pump the wastewater delivered from the contact chamber 130 and the wastewater pumped from the pressurized pump 112 in the ozone supply unit 150 . An injector 114 that mixes with supplied ozone and discharges, and an ozone contact tank 116 that is formed so that a mixture of wastewater and ozone discharged from the injector 114 is introduced so that ozone sterilizes harmful substances contained in the wastewater. includes

The ozone contact tank 116 is connected to the ozone discharging unit 170 at the upper part, and ozone flowing into the ozone contact tank 116 is discharged to the ozone discharging unit 170 , and is connected to the contact chamber 130 at the bottom. The wastewater introduced into the ozone contact tank 116 is sterilized and then transferred to the contact chamber 130 .

The pressure pump 112 serves to pump some or all of the raw waste water delivered to the ozone contact tank 116 and supply it to the injector 114 formed in the inlet of the ozone contact tank 116, and the pressure pump ( Through the pumping action of 112 , some or all of the raw waste water can be easily delivered to the injector 114 .

The injector 114 introduces the high-concentration ozone gas 500 produced by the ozone supply unit 150, mixes ozone and wastewater raw water, and supplies it to the ozone contact tank 116 through a pipe.

A spray nozzle 118 is formed in the pipe for supplying ozone and wastewater raw water from the injector 114 to the ozone contact tank 116 .

The injection nozzle 118 is installed in the tangential direction of the ozone contact tank 116 having a cylindrical shape, and the ozone and wastewater raw water that is injected without a separate mechanical power device using the force discharged from the injection nozzle 118 as it is A centrifugal force is generated to rotate at a high speed in the ozone contact tank 116 .

At this time, wastewater and ozone are separated from wastewater as liquid and ozone as gas by concentrating the gas in the center due to the density difference between liquid and gas. The injection nozzle 118 may be installed in one, if necessary, it is also possible to be installed in plurality.

By allowing the gas transfer efficiency to reach the saturation state within a few seconds by the injection nozzle 118, a high concentration gas transfer efficiency of 97 to 98% is generated.

The strong rotational force generated when the injection nozzle 118 is installed in the tangential direction of the cylindrical ozone contact tank 116 suppresses the rising speed of ozone gas and causes bubbles of 1 mm or more to rise at a slower rate of 3 times or more. It plays a role in maximizing the transmission efficiency of

This principle has the effect of reducing the residence time of about 1 minute required for gas delivery in the general ozone contact tank 116 to about 30 seconds, which is about 50%. When the ozone gas separated from the liquid wastewater is gathered in the center of the ozone contact tank 116, it gradually rises upward.

Finally, the oxygen gas including the unreacted trace amount of ozone is delivered to the ozone discharge unit 170 through the gas vent 172 installed on the ozone contact tank 116, and is formed in the ozone discharge unit 170. After being reduced to safe oxygen gas, it is released into the atmosphere.

Ozone gas rapidly reacts with the difficult-to-decompose organic material and color-inducing material to be removed to remove the target material. The treated water in which the gas separation and reaction are completed is transferred to the contact chamber 130, which is the next process, through the discharge nozzle 120 installed in the lower part of the ozone contact tank 116.

In the ozone contact tank 116 , an ozone inflow prevention plate 122 formed at a lower portion to prevent ozone from being discharged to the discharge nozzle 120 , and the ozone inflow prevention plate 122 are attached to the discharge nozzle 120 . A fixing bracket part 125 for fixing the prevention plate support rod 124 formed to be fixed in a state spaced apart from above, and the ozone inflow prevention plate 122 to the inner lower part of the ozone contact tank 116 . include

The ozone inflow prevention plate 122 is the ozone gas 500 collected in the lower center of the ozone contact tank 116 among the ozone introduced into the ozone contact tank 116 is transferred to the next process through the discharge nozzle 120 . acts to prevent it.

Through this, an effect of preventing corrosion that may occur in a portion vulnerable to corrosion such as the discharge nozzle 120 is generated.

In addition, a pressure gauge 126 and a pressure control valve 128 are installed and operated in the discharge pipe 121 connected to the discharge port in which the discharge nozzle 120 is formed to adjust the operating pressure of the tank, thereby achieving higher transmission efficiency. .

5 is a schematic cross-sectional view showing a modified example of the ozone inflow prevention plate 122 .

As shown in FIG. 5 , the ozone inflow prevention plate 122 may include a circle-shaped member 222 formed upward from the center.

The circle-shaped member 222 has a shape increasing from the top to the bottom, and is formed in the same direction as the flow of the ozone gas 500 rotating in the ozone contact tank 116 so that the ozone gas 500 is When it flows into the lower part of the hoeho-ri type member 222, it acts to induce it to naturally ascend to the upper part.

An upward bending portion 224 is formed so as to be bent upwardly at the outer portion of the hoori-shaped member 222 .

The upward bending portion 224 may serve to promote the action of inducing the ozone gas 500 upward.

Through this, the untreated portion of the ozone gas 500 of the ozone contact tank 116 can be more easily discharged.

All of the materials of the ozone contact tank 116 in contact with gas are coated with Teflon-based coating and lining methods to completely eliminate the risk of corrosion, and at the same time, the cost is reduced because the external material is made of stainless steel (SS)-based material. save

The present invention has the effect of completely discharging unreacted ozonized gas, which is an important factor of corrosion, from inside the ozone contact tank 116 to prevent corrosion in subsequent processes and pipes.

The present invention is an ozone treatment device 100 with excellent corrosion resistance and gas separation efficiency. Corrosion does not occur in ozone contact tanks and pipes in treatment plants that require a high ozone injection rate (tens of ppm to hundreds of ppm) such as wastewater treatment plants. By injecting a high-concentration oxidizing gas, it is possible to stably remove difficult-to-decompose organic matter and color, so it is effective to obtain the operation and treatment efficiency of the treatment plant, and the same effect can be expected when applied in a water purification plant.

Although the embodiments of the present invention have been described as specific embodiments, these are merely examples, and the present invention is not limited thereto, and should be construed as having the widest scope according to the basic idea disclosed in the present specification. A person skilled in the art may implement a pattern of a shape not specified by combining/substituting the disclosed embodiments, but this also does not depart from the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on the present specification, and it is clear that such changes or modifications also fall within the scope of the present invention.

100: ozone treatment device 110: ozone treatment unit
112: pressurized pump 114: injector
116: ozone contact tank 118: spray nozzle
120: discharge nozzle 121: discharge pipe
122: ozone prevention plate 124: prevention plate support rod
125: fixing bracket portion 126: pressure gauge
128: pressure regulating valve 130: contact chamber
150: ozone supply unit 170: ozone discharge unit
172: gas vent 222: hoori type member
224: rising bending portion

Claims (2)

an ozone treatment unit including an ozone contact tank that treats wastewater using ozone, and is formed in a cylindrical shape so that a mixture of wastewater and ozone flows in and ozone sterilizes harmful substances contained in the wastewater;
a contact chamber to which the wastewater treated from the ozone treatment unit is delivered;
a discharge nozzle installed under the ozone contact tank and provided on a path through which the gas separation and reaction complete treated water is transferred to the contact chamber;
an ozone supply unit for supplying ozone to the ozone treatment unit;
an ozone discharge unit for discharging ozone used in the ozone treatment unit; and
A pressure gauge and a pressure regulating valve provided to a discharge pipe connected to the discharge port in which the discharge nozzle is formed to control the operating pressure of the tank,
Ozone treatment device to reduce sewage TOC. supplying ozone to the ozone treatment unit;
treating wastewater using ozone supplied from the ozone treatment unit;
transferring the wastewater treated from the ozone treatment unit to the contact chamber through a discharge nozzle;
discharging ozone used in the ozone treatment unit;
Comprising the step of regulating the operating pressure of the tank through a pressure gauge and a pressure regulating valve provided in a discharge pipe connected to the discharge port in which the discharge nozzle is formed,
Ozone treatment method to reduce sewage TOC.

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