KR20190048352A - Movable advanced oxidation process appratus - Google Patents

Abstract

Provided is a movable advanced oxidation treatment apparatus, which comprises: a moving truck; an advanced oxidation treatment tank installed in the moving truck, and introducing contaminated water to perform advanced oxidation treatment therefor; an inflow line connected to the advanced oxidation treatment tank to introduce the contaminated water from the outside to the advanced oxidation treatment tank; an inflow pump coupled to the inflow line to provide power for moving the contaminated water of the outside to the advanced oxidation treatment tank; a discharge line connected to the advanced oxidation treatment tank to discharge the contaminated water treated in the advanced oxidation treatment tank to the outside; a discharge pump coupled to the discharge line to provide power for moving the treated contaminated water of the advanced oxidation treatment tank to the outside; a hydrogen peroxide injection unit coupled to the advanced oxidation treatment tank to inject hydrogen peroxide thereinto; an ozone gas injection unit coupled to the advanced oxidation treatment tank to inject ozone gas thereinto; and a UV reaction unit installed inside the advanced oxidation treatment tank to radiate UV.

Description

[0001] MOVABLE ADVANCED OXIDATION PROCESS APPRATUS [0002]

TECHNICAL FIELD The present invention relates to a water treatment technique for contaminated water, and more particularly, to an advanced oxidation treatment technique for treating polluted water using ozone, hydrogen peroxide, and ultraviolet rays.

Among the treatment methods of contaminated water, the oxidation method is a method of treating contaminants by injecting a strong oxidizing substance such as chlorine into contaminated water. However, the use of chlorine has a problem of THM (Total Trihalomethane), and the alternative is ozone. First, the oxidative power is superior to that of chlorine, has a decomposition ability to THM, and has an effect of increasing dissolved oxygen. However, since ozone has a strong oxidizing power and selectively reacts with organic matter, organic matter that can not be treated remains, and depending on the wastewater state, the pollutant can not be completely decomposed into carbon dioxide and a byproduct such as aldehyde or bromate . The Advanced Oxidation Process (AOP) has been proposed as a solution to this problem.

The Advanced Oxidation Treatment (AOP) technique is to use an oxidizing agent such as ozone or hydrogen peroxide together, or to treat the contaminated water by irradiating the oxidizing agent with ultraviolet rays. This advanced oxidation technology produces hydroxyl radicals (OH radicals), which are chemical species with strong sterilization and oxidizing power, as intermediates, and oxidizes and decomposes organic and toxic substances, which are various contaminants in wastewater.

On the other hand, the polluted water treated by the advanced oxidation treatment technique can be supplied to agricultural fields or fields in mountainous areas and can be reused. At this time, the contaminated water that has been processed in advance may be supplied to the destination by the moving means. However, the inventor of the present invention has continued his long research and efforts for the invention of directly supplying the untreated water to the moving means and directly treating the contaminated water in the moving means while moving to the destination, I have come to completion.

An object of the present invention is to provide a mobile advanced oxidation treatment apparatus capable of treating untreated and contaminated water while moving to a destination using a moving truck equipped with an advanced oxidation treatment facility.

On the other hand, other unspecified purposes of the present invention will be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

According to an aspect of the present invention,

A high altitude oxidation treatment tank installed in the moving truck, for introducing polluted water and performing highly oxidizing treatment;

An inflow line connected to the advanced oxidation treatment tank for introducing contaminated water from the outside into the advanced oxidation treatment tank;

An inflow pump coupled to the inflow line and providing power to move external contaminated water to the advanced oxidation treatment tank;

A discharge line connected to the advanced oxidation treatment tank to discharge polluted water treated in the advanced oxidation treatment tank to the outside;

A discharge pump coupled to the discharge line for providing power to move the treated contaminated water of the advanced oxidation treatment tank to the outside;

A hydrogen peroxide injection unit coupled to the advanced oxidation treatment tank and injecting hydrogen peroxide into the advanced oxidation treatment tank;

An ozone gas injection unit coupled to the advanced oxidation treatment tank and injecting ozone gas into the advanced oxidation treatment tank; And

And a UV reaction unit provided in the advanced oxidation treatment tank for irradiating ultraviolet rays.

A mobile altitude oxidation treatment apparatus is provided.

Wherein the moving truck includes a power providing portion that provides power for turning the wheels,

The power providing unit may be connected to the inflow pump and the discharge pump to operate as a power source of the inflow pump and the discharge pump.

And a sensor unit installed in the advanced oxidation treatment tank and measuring the concentration of organic pollutants in the contaminated water contained in the advanced oxidation treatment tank.

And a first controller for controlling the hydrogen peroxide injection unit, the ozone gas injection unit, and the UV reaction unit according to the concentration of the organic pollutants measured by the sensor unit.

And a capacity measuring unit installed in the advanced oxidation treatment tank and measuring an amount of the contaminated water contained in the advanced oxidation treatment tank.

And a second controller for controlling the inflow pump according to the amount of the contaminated water measured by the capacity measuring unit.

And a third controller for controlling the hydrogen peroxide injection unit, the ozone gas injection unit, and the UV reaction unit according to the travel time from the source to the destination of the moving truck.

The use of the mobile advanced oxidation apparatus according to the present invention can reduce the polluted water treatment time by treating the polluted water while moving to a destination.

On the other hand, even if the effects are not explicitly mentioned here, the effect described in the following specification, which is expected by the technical features of the present invention, and its potential effects are treated as described in the specification of the present invention.

1 is a view showing a mobile advanced oxidation apparatus according to an embodiment of the present invention.
2 is a view showing a mobile advanced oxidation apparatus according to another embodiment of the present invention.
It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, embodiments of a mobile advanced oxidation apparatus according to the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding components throughout. A duplicate description will be omitted.

The polluted water can be reused by supplying water to the agricultural water or roadside trees through the water treatment purification process. In this case, it is common to treat the polluted water first and then transport and supply the contaminated water treated to the destination. An object of the present invention is to provide an apparatus capable of water treatment during transportation of contaminated water so as to save water treatment time of contaminated water.

1 is a view showing a mobile advanced oxidation apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the mobile advanced oxidation apparatus according to the present invention is a mobile truck 100 having an advanced oxidation treatment facility, and includes a moving truck 100, an advanced oxidation treatment tank 200, An ozone gas injection unit 400 and a UV reaction unit 500. The oxygen supply unit 200 includes an oxygen supply unit 210, an inflow pump 220, a discharge line 230, a discharge pump 240, a hydrogen peroxide injection unit 300,

It is also possible to modify the rear part of the existing truck to add the altitude oxidation processing facility to the truck or to manufacture the moving truck 100 having the advanced oxidation processing facility from the manufacturing time.

The advanced oxidation treatment tank 200 is provided at a rear portion of the moving truck 100 and provides a space for treating the polluted water by irradiating ultraviolet rays to oxidizing agents such as hydrogen peroxide and ozone. That is, the contaminated water flowing into the advanced oxidation treatment tank 200 is highly oxidized by hydrogen peroxide, ozone, and ultraviolet rays to remove organic contaminants in the contaminated water.

And may further include a storage tank for storing contaminated water before being transferred to the advanced oxidation treatment tank 200. The reservoir of the contaminated water can receive the contaminated water and stir the contaminated water by the stirrer installed in the reservoir. . Agitation of polluted water aids in the reaction of water treatment. That is, in the water purification process for treating polluted water such as contaminated river water, lake, water source water, and waste water, waste water, etc., it is possible to purify pollutants, for example, organic substances, The use of a storage tank into which coagulants and disinfectants are dispensed may be helpful.

The inflow line 210 introduces external polluted water to be treated into the advanced oxidation treatment tank 200. That is, to the advanced oxidation treatment tank 200 to provide a moving passage through which polluted water moves from the outside.

The inflow pump 220 provides the mobile power of the contaminated water. The foreign polluted water can be moved into the advanced oxidation treatment tank 200 by the power of the inflow pump 220.

The discharge line 230 is a moving line through which polluted water in the advanced oxidation treatment tank 200 is discharged to the outside. That is, the highly oxidized polluted water within the advanced oxidation treatment tank 200 is moved to the destination, that is, the farmland, the field in the mountainous area, or the street number of the street, and is reused.

The discharge pump 240 is coupled to the discharge line 230 to provide power for moving the treated water of the high-level oxidation treatment tank 200 to the outside.

The mobile advanced oxidation treatment apparatus of the present invention aims at performing an advanced oxidation treatment while moving contaminated water to a destination. Therefore, once the contaminated water is moved to the advanced oxidation treatment tank 200 by the inflow pump 220 installed in the inflow line 210, the advanced oxidation process is performed while moving the contaminated water, and then the highly oxidized- (240). Thus, in addition to the inlet pump 220, the outlet pump 240 is also an essential component.

The hydrogen peroxide injection unit 300 is coupled to the advanced oxidation treatment tank 200 to inject hydrogen peroxide into the advanced oxidation treatment tank 200. At this time, the hydrogen peroxide injection unit 300 may be provided with a regulating valve for regulating the amount of hydrogen peroxide injected. It is possible to control the amount of hydrogen peroxide injected into the advanced oxidation treatment tank 200 according to the amount of polluted water to be treated through the control valve or according to the travel time of moving from the starting point to the destination.

The ozone gas injection unit 400 is coupled to the advanced oxidation treatment tank 200 to inject ozone gas into the advanced oxidation treatment tank 200. At this time, the ozone gas injection unit 400 may be provided with a control valve for controlling the amount of ozone gas injected into the advanced oxidation treatment tank 200. It is possible to control the amount of ozone gas injected into the advanced oxidation treatment tank 200 according to the amount of polluted water to be treated through the control valve or according to the movement time of moving from the starting point to the destination.

At this time, the ozone gas injection unit 400 may include a micro-bubble diffuser. That is, by providing minute bubbles of ozone into the advanced oxidation treatment tank 200, it is possible to maximize the contact area between ozone and contaminated water, thereby increasing the oxidation efficiency of the polluted water. The removal efficiency of the organic pollutants present in the polluted water can be increased by increasing the oxidation efficiency of the polluted water.

The UV reaction unit 500 is installed inside the advanced oxidation treatment tank 200 to emit ultraviolet rays toward the contaminated water. At this time, the UV reaction unit 500 may include an ultraviolet lamp that emits ultraviolet light. The ultraviolet lamps may be present in a single number or may be provided in plural. This can be variously adopted depending on the size of the advanced oxidation treatment tank 200 or the amount of polluted water to be treated. Also, the amount of ultraviolet light irradiated in the UV reaction part 500 can be adjusted. That is, the irradiation amount or irradiation time of the UV ultraviolet lamp can be controlled.

The mobile advanced oxidation apparatus according to the present invention may further include a cooling unit formed to surround the advanced oxidation treatment tank 200. The cooling unit can prevent the progress of the oxidation reaction in the advanced oxidation treatment tank 200 from increasing the temperature inside the oxidation treatment tank 200 due to an increase in heat. That is, the cooling unit surrounds the advanced oxidation treatment tank 200 and supplies the cooling water to prevent the temperature rise of the advanced oxidation treatment tank 200, thereby maintaining a constant temperature in the advanced oxidation treatment tank 200.

The moving truck 100 according to the present invention includes a power supply 110 that provides power to rotate the wheels of the moving truck 100. At this time, the power supply 110 of the mobile truck 100 can be used as a power source for the advanced oxidation process.

The power supply 110 is connected to the inflow pump 220 and the discharge pump 240 and can operate as a power source for the inflow pump 220 and the discharge pump 240. That is, there is no need for a separate additional power source for the inlet pump 220 and the outlet pump 240.

The sensor unit 250 can measure the concentration of the organic pollutants in the polluted water accommodated in the advanced oxidation treatment tank 200 installed in the advanced oxidation treatment tank 200.

The sensor unit 250 according to the present invention may include a TOC sensor. That is, the TOC among the organic substances in the contaminated water inside the advanced oxidation treatment tank 200 can be measured in real time, and the degree of water treatment of the polluted water can be confirmed according to the measured TOC.

The present invention may further include a first controller 260. The first control unit 260 is connected to the sensor unit 250 and the hydrogen peroxide injection unit 300, the ozone gas injection unit 400 and the UV reaction unit 500 to measure the concentration of organic pollutants measured by the sensor unit 250 The ozone gas injection unit 400, and the UV reaction unit 500 according to the control signal from the control unit.

That is, if the amount of the organic pollutants measured by the sensor unit 250 is large, the amount of hydrogen peroxide and ozone gas injected into the advanced oxidation treatment tank 200 is increased and the irradiation amount and time of the irradiated UV lamp are increased. The amount of hydrogen peroxide and ozone gas injected into the high-level oxidation treatment tank 200 can be controlled so that the irradiation amount and time of the irradiated UV lamp can be controlled.

The present invention may further include a third control unit 290 in addition to the first control unit 260. The third control unit 290 may be attached to the first control unit 260 or independently. When the third control unit 290 is attached to the first control unit 260, the first control unit 260 controls the hydrogen peroxide injection unit 300, the ozone gas injection unit 400, and the UV reaction unit 500 can be controlled.

If the third controller 290 operates independently, the third controller 290 controls the hydrogen peroxide injection unit 300, the ozone gas injection unit 400, And the UV reaction unit 500 can be controlled.

The amount of hydrogen peroxide injected into the advanced oxidation treatment tank 200 and the amount of the ozone gas introduced into the advanced oxidation treatment tank 200 are calculated in consideration of the time from the starting point where the polluted water is moved to the advanced oxidation treatment tank 200 to the advanced oxidation treatment during transportation, And the irradiation amount or irradiation time of the UV lamp to be irradiated.

The third control unit 290 may be connected to the sensor unit 250. Considering the amount of organic pollutants measured by the sensor unit 250 and the time required from the source to the destination, the third controller 290 investigates the amount of hydrogen peroxide injected, the amount of the ozone gas injected, and the irradiation amount or irradiation time of the UV lamp .

The third control unit 290 according to the present invention proceeds to remove organic contaminants in the contaminated water during the travel time from the start point to the destination. The third control unit 290 measures concentration of organic pollutants in the polluted water of the sensor unit 250 The injection amount of hydrogen peroxide injected in combination, the injection amount of ozone gas, the irradiation amount of UV lamp, and the like.

The present invention may further include a capacity measurement unit 270 and a second control unit 280. [ The capacity measuring unit 270 is installed in the advanced oxidation treatment tank 200 to measure the amount of the contaminated water contained in the advanced oxidation treatment tank 200. It is preferable that the advanced oxidation treatment tank 200 receives the contaminated water as much as necessary at the destination. Therefore, the inflow pump 220 is controlled according to the amount of the contaminated water measured while measuring the amount of the contaminated water flowing into the advanced oxidation treatment tank 200 through the capacity measuring unit 270 in real time. And controls the inflow pump 220 to control the total amount of the polluted water flowing into the advanced oxidation treatment tank 200.

2 is a view showing a mobile advanced oxidation apparatus according to another embodiment of the present invention.

As shown in Fig. 2, the movable concrete oxidation apparatus can be manufactured by modifying the concrete mixer. The pollution water inflow line 210, the inflow pump 220, the hydrogen peroxide injection unit 300, the ozone gas injection unit 400, and the UV reaction unit 500 are installed in the existing concrete mixer, .

The rotating mixer unit of the rotating ready mixer is used as the advanced oxidation treatment tank 200 of FIG. 1, and the rest of the configuration can be referred to FIG. 1, and a detailed description will be omitted.

The scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described in the foregoing. It is again to be understood that the scope of protection of the present invention can not be limited by obvious alterations or permutations of the present invention.

100: Moving truck
110: Power supply
200: Advanced oxidation treatment tank
210: Inflow line
220: Inflow pump
230: discharge line
240: Discharge pump
250:
260:
270:
280:
290:
300: hydrogen peroxide injection unit
400: ozone gas injection part
500: UV reaction part

Claims (7)

Moving truck;
A high altitude oxidation treatment tank installed in the moving truck, for introducing polluted water and performing highly oxidizing treatment;
An inflow line connected to the advanced oxidation treatment tank for introducing contaminated water from the outside into the advanced oxidation treatment tank;
An inflow pump coupled to the inflow line and providing power to move external contaminated water to the advanced oxidation treatment tank;
A discharge line connected to the advanced oxidation treatment tank to discharge polluted water treated in the advanced oxidation treatment tank to the outside;
A discharge pump coupled to the discharge line for providing power to move the treated contaminated water of the advanced oxidation treatment tank to the outside;
A hydrogen peroxide injection unit coupled to the advanced oxidation treatment tank and injecting hydrogen peroxide into the advanced oxidation treatment tank;
An ozone gas injection unit coupled to the advanced oxidation treatment tank and injecting ozone gas into the advanced oxidation treatment tank; And
And a UV reaction unit provided in the advanced oxidation treatment tank for irradiating ultraviolet rays.
A mobile altitude oxidation treatment device. The method according to claim 1,
Wherein the moving truck includes a power providing portion that provides power for turning the wheels,
Wherein the power providing part is connected to the inflow pump and the discharge pump and operates as a power source of the inflow pump and the discharge pump.
A mobile altitude oxidation treatment device. The method according to claim 1,
Further comprising a sensor unit installed in the advanced oxidation treatment tank and measuring a concentration of organic pollutants in the contaminated water accommodated in the advanced oxidation treatment tank,
A mobile altitude oxidation treatment device. The method of claim 3,
Further comprising a first control unit for controlling the hydrogen peroxide injection unit, the ozone gas injection unit, and the UV reaction unit according to the concentration of the organic pollutants measured by the sensor unit.
A mobile altitude oxidation treatment device. The method according to claim 1,
Further comprising a capacity measuring unit installed in the advanced oxidation treatment tank for measuring an amount of the contaminated water contained in the advanced oxidation treatment tank,
A mobile altitude oxidation treatment device. 6. The method of claim 5,
And a second controller for controlling the inflow pump according to the amount of the contaminated water measured by the capacity measuring unit.
A mobile altitude oxidation treatment device. The method according to claim 1,
Further comprising a third control unit for controlling the hydrogen peroxide injection unit, the ozone gas injection unit, and the UV reaction unit according to the travel time from the source to the destination of the moving truck.
A mobile altitude oxidation treatment device.

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