KR101436032B1 - a contaminated water treatment device and the water treatment using thereof - Google Patents

Abstract

The present invention relates to an apparatus for oxidizing / decomposing contaminants in liquid wastes using ozone, and more particularly, to an apparatus for generating ozone by providing an ultraviolet ray generator from the upper end of a reaction tank, (Bubble generator) is installed to generate ozone by the reaction of ultraviolet rays and oxygen, and oxidize / decompose contaminants by ozone, and a bubble rising induction pipe is installed at a certain distance position above the air diffuser to suppress the dispersion of bubbles, The present invention relates to a device for treating liquid wastes by improving the efficiency of pollutants and ozone reaction in liquid wastes by repeatedly circulating water in the reaction tank by the rising flow rate of the wastewater.
The present invention provides an ozone generator including an ultraviolet ray generator (35) and a bubble generator (62) installed in contact with liquid waste.
The present invention also provides a liquid waste disposal apparatus 100 including a main body 30 having an inlet pipe 31a and an outlet pipe 31b and an ultraviolet generator 35 and a bubble generator 62.
And a bubble rising induction pipe (33) at a lower portion of the main body.
And at least two ultraviolet ray generators (35), a bubble generator (62), and a bubble rising induction pipe (33) are installed.
In addition, in a conventional water treatment system, a water treatment system provided with the above-mentioned liquid waste disposal apparatus is provided.
Also, in the above-described water treatment system, a water treatment system including a solid-liquid separation tank 40 and a filter 50 is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid waste disposal apparatus and a water treatment system using the same,

The present invention relates to an apparatus for oxidizing / decomposing contaminants in liquid wastes using ozone, and more particularly, to an apparatus for generating ozone by providing an ultraviolet ray generator from the upper end of a reaction tank, (Bubble generator) is installed to generate ozone by the reaction of ultraviolet rays and oxygen, and oxidize / decompose contaminants by ozone, and a bubble rising induction pipe is installed at a certain distance position above the air diffuser to suppress the dispersion of bubbles, The present invention relates to a device for treating liquid wastes by improving the efficiency of pollutants and ozone reaction in liquid wastes by repeatedly circulating water in the reaction tank by the rising flow rate of the wastewater.

Physical, chemical and biological treatment methods are used for treating liquid wastes.

Especially, the first use of ozone in the water treatment field is mainly used as water disinfectant. Then, the strong oxidizing power of ozone begins to be proved, and it is widely used in wastewater treatment and water treatment.

A technique for applying ozone to water treatment is disclosed in "Open Patent (10-2013-0003638, hereinafter referred to as prior art)" Apparatus for treatment of livestock wastewater containing organic matter and nitrogen component, digested waste liquid, and wastewater and method for treating the same " .

The above-mentioned prior art discloses a method in which a waste liquid or wastewater to be treated is subjected to solid-liquid separation using a dehydrator and a settling tank, and then a high concentration of ammonia nitrogen is removed by degreasing in the liquid phase treatment, And the remaining ammonia nitrogen is converted into nitrate nitrogen or nitrite nitrogen in the nitrification reactor, and some of them are removed by heterotrophic denitrification, and some of them are nitrified using the sulfuric acid denitrification method (Patent No. 10-0503134) (COD) by using ozone oxidation according to the criteria of the discharged water quality, decomposing and removing remaining COD and removing residual COD and solids SS) after adsorption is removed and discharged.

However, ozone is very unstable in the ozone treatment method used in the prior art and the prior art described above, and can not be stored or transported because it has a characteristic of being easily reduced to oxygen in a natural state. Therefore, it is necessary to generate ozone directly in the field in the field using ozone.

Particularly, a method mainly used for generating ozone is a method of converting oxygen molecules into ozone molecules by electric discharge. However, although such an electric discharge method is generally used in most cases, there is a problem that a safety problem due to a high voltage discharge, a secondary pollutant such as a nitrogen compound (NOx) is generated, and a cost of ozone generation is high.

Therefore, there is a need for a safer and more economical ozone production method and a water treatment method therefor.

Disclosure of Invention Technical Problem [8] The present invention aims at solving the problems and needs of a water treatment system that uses water as an ozone.

That is, it is an object of the present invention to provide an ozone generating apparatus capable of generating ozone safely and stably while preventing secondary pollutants such as nitrogen compounds and generating ozone economically.

The present invention also provides a liquid waste disposal apparatus equipped with the ozone generator.

The present invention also provides a water treatment system equipped with the liquid waste disposal apparatus.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems,

And an ozone generating device including an ultraviolet ray generating device (35) and a bubble generator (62) installed in contact with the liquid waste.

The present invention also provides a liquid waste disposal apparatus 100 including a main body 30 having an inlet pipe 31a and an outlet pipe 31b and an ultraviolet generator 35 and a bubble generator 62.

And a bubble rising induction pipe (33) at a lower portion of the main body.

And at least two ultraviolet ray generators (35), a bubble generator (62), and a bubble rising induction pipe (33) are installed.

In addition, in a conventional water treatment system, a water treatment system provided with the above-mentioned liquid waste disposal apparatus is provided.

Also, in the above-described water treatment system, a water treatment system including a solid-liquid separation tank 40 and a filter 50 is provided.

According to the liquid waste disposal apparatus of the present invention, the generation of ozone is performed not by high-voltage discharge but by using an ultraviolet ray generator and air, so that the pollutant can be treated safely and easily without secondary pollution.

That is, the present invention can generate ozone safely and stably, while preventing secondary pollutants such as nitrogen compounds (NOx) and creating an economical effect of generating ozone.

Further, according to the liquid waste disposal apparatus of the present invention, it is possible to simplify and easily apply the organic pollutants such as organic compounds and heavy pollutants such as sewage and waste water, have.

Further, the apparatus for treating a liquid waste of the present invention can be easily applied to a general water treatment system for treating water containing ordinary organic substances or inorganic pollutants as well as a simple installation due to its simple structure and low installation cost There is an advantage.

According to the liquid waste disposal apparatus of the present invention, a water treatment system can be constituted by a simple combination with a separate solid-liquid separator or a filtration apparatus, so that liquid waste can be treated to a level that can be reused as domestic water, There is a characteristic that can preserve the natural environment.

1 is a conceptual view of a liquid waste disposal apparatus according to the present invention;
2 is a plan view of a liquid waste disposal apparatus according to the present invention.
Fig. 2b is another embodiment of the bubble rising induction pipe of the liquid waste disposal apparatus according to the present invention. Fig.
3 is a plan view of another embodiment of a liquid waste disposal apparatus according to the present invention.
4 is a conceptual diagram of a water treatment system equipped with a liquid waste disposal apparatus according to the present invention.

Hereinafter, the present invention will be described with reference to the drawings.

The present invention provides an ozone generator having an ultraviolet ray generating device (35) and a bubble generator (62) installed in contact with liquid waste.

The present invention also provides a liquid waste disposal apparatus 100 provided with an inflow pipe 31a and an outflow pipe 31b in a main body 30 and provided with an ultraviolet ray generator 35 and a bubble generator 62 do.

The main body 30 of the present invention includes those used to induce all the reactions in a conventional reaction tank, reaction apparatus, and the like.

In addition, the body of the present invention may have an open top, but is preferably a semi-batch reaction tank structure in an enclosed form.

It is possible to easily provide an apparatus capable of preventing leakage of ozone generated by such a structure.

It should be noted that the definition of the liquid wastes used in the present invention means all kinds of wastewater contaminated with organic or inorganic substances such as general sewage, sewage and the like, and river water, lake water and the like for making a constant water.

The present invention refers to an apparatus or means through which the liquid waste to be treated flows into the inflow pipe (31a) in the above-described liquid waste disposal apparatus.

The outflow pipe 31b also means a device or means that is discharged after the liquid waste is processed.

In the present invention, it is preferable that the inflow pipe and the outflow pipe are mounted on the upper end of the main body.

It is more preferable that the inflow guide plate 32a and the outflow guide plate 32b are provided in the main body of the present invention.

When the liquid waste flows into the inflow pipe, the ultraviolet ray generating device 35 is installed and the bubble generator is installed in the inflow pipe. Treated by the ultraviolet ray generated by the ultraviolet ray generator 62, and the processed liquid waste acts to be led to the outflow port by the outflow induction pipe.

By the function of the inflow guide plate and the outflow guide plate, the function and effect of preventing the liquid waste from flowing into the main body and being discharged directly without being treated by the single pass phenomenon are produced.

As shown in FIGS. 1 and 2, one embodiment of the inflow guide plate may have a bottom portion opened toward the bottom of the main body.

In addition, the outflow guide plate may also be formed as an embodiment in which the lower portion thereof is opened toward the bottom of the main body.

It should be understood, however, that such embodiments are not intended to limit the technical scope of the present invention, and that any tool or device that directs liquid waste to the ultraviolet treated area and that directs the treated liquid waste to the outlet, Which is included in the technical content of.

The present invention is characterized in that ozone is generated by irradiating ultraviolet rays to the air directly injected into the main body.

Therefore, the organic waste contained in the liquid waste is decomposed by the ozone generated in the body of the liquid waste disposal apparatus, thereby regenerating the liquid waste.

The ultraviolet ray generating apparatus of the present invention is a concept including both a lamp or an ultraviolet ray generator which is installed from the upper end to the lower end of the main body and generates ultraviolet rays.

The ultraviolet ray generating device is installed at the upper end to the lower end of the main body, and more preferably, the ultraviolet ray generating device is mounted inside the bubble rising induction pipe 33, thereby promoting contact between air bubbles and ultraviolet rays.

In particular, the ultraviolet ray generator of the present invention has a technical feature to generate ultraviolet rays of a specific wavelength by providing means for selectively generating ultraviolet rays of a specific wavelength.

Means for selectively generating the specific wavelength means an ultraviolet filter or the like.

It is preferable to use an apparatus for generating ultraviolet rays of 184.9 nm in the present invention.

Particularly, in the present invention, it is effective to use an ultraviolet ray generator for generating ultraviolet rays of 184.9 nm.

The ultraviolet ray of ultraviolet ray of 184.9 nm described above acts on the oxygen of the air bubbles flowing into the above-mentioned liquid waste, and produces ozone.

That is, the ultraviolet ray of 184.9 nm acts on oxygen molecules of air bubbles to make oxygen molecules as radical radicals (O), and this oxygen radicals combine with oxygen molecules to form ozone (O ₃ ) .

As shown in FIGS. 1 to 3, the present invention can use an ultraviolet lamp 35 that generates ultraviolet rays of 184.9 nm in one embodiment.

The ultraviolet ray lamp 35 is supplied with power through the power supply line 38 and has a timer 37 to generate ultraviolet rays as desired by the user.

Also, as shown in FIGS. 1 to 3, the ultraviolet lamp has a transmissive tube 36 having good transmittance outside the lamp and maintaining durability in liquid waste.

The above-mentioned permeable tube uses a quartz tube having good transmittance and good durability, but it is also possible to use a polymeric material.

The ultraviolet rays of 184.9 nm generated from the ultraviolet ray generator are irradiated to the air generated from the bubble generator, thereby generating oxygen molecules contained in the air as ozone molecules.

That is, the conventional ozone generator generates ozone by a high-voltage discharge method, thereby generating a safety problem and injecting generated ozone into the wastewater. As a result, ozone is decomposed and returned to oxygen, There was a problem of falling.

The present invention maximizes the effect of treating liquid waste by oxidizing ozone by directly acting on organic matter in the liquid waste, thereby directly generating ozone in the body to which the liquid waste is treated.

As shown in FIG. 1, the bubble generator 62 of the present invention means an apparatus or means for injecting air into the liquid finely.

Therefore, the bubble generator may be a diffuser or a diffuser which is formed with a plurality of holes.

The bubble generator is connected to the air inlet pipe 61, and the air inlet pipe is connected to a conventional compressor, a pump, and the like, thereby injecting the pressurized air into the bubble generator.

Preferably, the bubble generator has a structure that allows the air to be injected to the liquid waste to be injected more finely. The smaller the bore of the bubble generator, the smaller the size of the air bubble, The contact ratio between the molecules and the ultraviolet ray is increased, and the effect of increasing the amount of ozone generation can be obtained.

In addition, since the bubble generator is equipped with the timer 37, the bubble generator can function to generate bubbles at a desired time.

The present invention is characterized in that a bubble rising guide tube 33 is provided to diffuse the bubbles generated in the bubble generator more efficiently into the inside of the body and increase the contact ratio with ultraviolet rays generated in the ultraviolet generator .

The bubble rising induction pipe means a device or means for enhancing the flow of air bubbles generated in the bubble generator in the vertical direction.

Therefore, as shown in FIGS. 1 and 2, the bubble rising induction pipe 33 has an upper portion 33a and a lower portion 33b, which are formed in an upward direction of the bubble generator, .

The air bubbles generated in the bubble generator due to the liquid circulation structure in which the liquid waste flows into the lower portion of the bubble rising oil pipe and flows out to the upper portion due to the structure in which the upper and lower portions of the bubble rising induction pipe are opened, Thereby maximizing the contact with the contact surface.

In addition, since the air bubbles generated in the bubble generator induce the flow in the vertical direction, the inflow of the liquid waste into the lower portion of the bubbles rising induction pipe becomes more effective.

Also, since the liquid waste is formed in a structure in which the lower portion of the liquid waste inflow guide plate is opened, it flows along the inflow guide plate and further flows into the bubble rising guide tube more efficiently as the lower portion of the guide tube is opened. .

In the embodiment shown in FIG. 2, it can be seen that the bubble rising induction pipe takes the form of a cylindrical tube, but not limited thereto, and any structure in the form of a triangular, rectangular or polygonal tube may be formed by a liquid And a device or means for guiding the gas to flow into the upper part will be included in the bubble rising induction pipe of the present invention.

Therefore, the bubble rising induction pipe is not limited to a coffin type so that air bubbles can be induced to rise well, but it may be formed of a plate formed in a downward direction from the upper part of the main body.

As shown in FIG. 2B, the plate-like bubble rising pipe 33-1 may be installed in a downward direction from the upper part of the main body, and may be formed in at least one of four directions.

Therefore, in the present invention, the bubble rising guide tube made of a plate can be referred to as a bubble rising guide plate.

In the present invention, the bubble generating induction tube support 34 may be provided so that the above-mentioned bubble rising induction tube is fixed to the body and is well held.

These bubble rising induction tube supports have the effect of firmly fixing the bubble rising induction tube even when turbulence is generated by the flow of liquid waste.

In one embodiment, as shown in FIG. 2, the bubble rising induction tube support shows a form of support structure across the body.

As described above, according to the present invention, as described above, the ultraviolet ray generator 35 is installed in the appropriate water bubble rising guide pipe 33 and the bubble generator 62 is installed in the lower portion of the bubble rising guide pipe Thereby maximizing the treatment efficiency of the liquid waste.

As shown in FIG. 2, the ultraviolet ray generator may be installed in at least one bubble rising induction pipe, preferably at about 1 to 6, and may be suitably installed in accordance with the degree of contamination concentration of the liquid waste. .

As shown in FIG. 3, when the amount of contaminants in the liquid waste increases, the apparatus structure of the ultraviolet ray generator 35, the bubble ascending induction tube 33, and the bubble generator 62 is two Or more, thereby increasing the amount of ozone generated and treating liquid waste.

Also, the present invention may be provided with an ozone remover 70 for safely removing ozone remaining in the main body of the liquid waste disposal apparatus.

The ozone remover 70 of the present invention means an apparatus or means mounted on the upper part of the main body and capable of absorbing or adsorbing ozone which is left to treat pollutants and to be discharged.

Therefore, the ozone eliminator may be equipped with an adsorbent or an absorbent, and the absorbent refers to activated carbon, zeolite or the like, and the absorbent refers to a liquid chemical such as water that can absorb ozone.

The ozone remover described above is provided with a safety valve 71. The safety valve connects the main body and the ozone eliminator and controls the discharge of ozone by opening and closing the safety valve.

The present invention also provides a water treatment system equipped with the above-described liquid waste disposal apparatus (100).

The present invention provides a water treatment system equipped with the above-described liquid waste disposal apparatus of the present invention in a conventional water treatment system.

As described above, a normal water treatment system means a general water treatment system accompanied by physical, chemical, or biological treatment of sewage, wastewater, river water, lake water, and the like.

Therefore, the present invention can be installed, replaced, or installed in a liquid waste disposal apparatus of the present invention in a reaction tank that performs physical, chemical, or biological treatment in the water treatment system.

Therefore, the liquid waste disposal apparatus of the present invention can be installed in a pretreatment, post treatment or disinfection apparatus in the water treatment system.

More preferably, the present invention is applied to a water treatment system for treating organic matters, minerals or heavy metals in a conventional water treatment system.

In one embodiment of the present invention, as shown in FIG. 4, the present invention is applied to a liquid waste recycling apparatus 100 using a transfer pump 20 from a liquid waste storage tank 10 as shown in FIG. 4, The liquid waste can be treated to a level that can be reused by secondary treatment through the filter 40 and the filter 50.

The liquid waste storage tank 10 refers to a tank or a water tank for temporarily storing liquid waste.

The solid-liquid separating tank 40 means a treatment tank for separating the liquid waste from the solid material and the liquid, and means a floating tank for floating the floating material, a sedimentation tank for precipitating the suspended material, .

The liquid waste passed through the solid-liquid separating tank is introduced into the filter by the inflow pump 21.

The above-mentioned filter 50 means a device or means using a filter, a membrane, which can remove fine suspended substances in the treated liquid waste.

Therefore, the filter of the present invention can use an activated carbon filtration tank using activated carbon or a sand filtration tank using sand, and the filter can use a microfiltration membrane (MF) or a hollow fiber type ultrafiltration membrane (UF) It is recommended that the air diffuser be installed in an integrated module form to allow air cleaning.

The liquid wastes that have passed through the filter are treated with purified water to the extent that they can be reused as daily life water.

The present invention provides a water treatment system (particularly a wastewater treatment system) constructed as described above.

The present invention provides a water treatment system having the above-described configuration. However, the present invention is not limited to the embodiments and drawings disclosed in the present specification, and may be implemented in various forms within the scope of the technical idea of the present invention to be.

The present invention is very useful for an industry that produces, manufactures, sells, processes, and operates an apparatus or means related to a water treatment apparatus or system.

Particularly, the present invention can be very usefully used in an industry for producing, manufacturing, selling, processing and operating an apparatus or means relating to a wastewater treatment apparatus or system during water treatment.

10: liquid waste storage tank 20, 21: transfer pump
30: Liquid waste disposal apparatus main body 31a: Inflow pipe
31b: Outflow pipe 32a: Inflow pipe
32b: outflow guide plate 33: bubble rising guide pipe
33-1: Plate Bubble Rise Induction Pipe
33a: Upper part of the bubble rising induction pipe 33b: Lower part of the bubble rising induction pipe
34: bubble rising induction pipe support 35: ultraviolet ray generator
36: Transparent tube 37: Timer
38: power supply line 40: solid-liquid separation tank
50: filter 60: air supply
61: air inlet pipe 62: bubble generator
70: Ozone remover 71: Safety valve
100: Liquid waste disposal unit

Claims (6)

delete A main body 30 provided with an inflow pipe 31a and an outflow pipe 31b and an ultraviolet ray generator 35 and a bubble generator 62,
And a bubble rising induction pipe (33) at a lower portion of the main body,
The main body has a semi-
An inflow guide plate 32a and an outflow guide plate 32b are provided in the main body to guide the liquid waste introduced into the inflow pipe to an ultraviolet processing zone,
The ozone remover (70) is provided at an upper portion of the main body, and has a function of absorbing or adsorbing residual ozone,
The ultraviolet ray generator has a means for selectively generating ultraviolet rays of a specific wavelength. The ultraviolet ray generator generates ultraviolet rays of 184.9 nm and is irradiated to air generated in the bubble generator, thereby generating oxygen molecules contained in the air as ozone molecules (100). ≪ / RTI >
delete 3. The method of claim 2,
Wherein at least two ultraviolet ray generators (35), a bubble generator (62), and a bubble rising induction tube (33) are installed.
In a typical water treatment system,
A water treatment system comprising a liquid waste disposal apparatus according to any one of claims 2 to 4.
6. The method of claim 5,
Liquid separation tank (40) and a filter (50).

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