KR20160076384A - Watertreatment device - Google Patents

Abstract

The present invention relates to an industrial water treatment device that is capable of rapid and efficient photocatalyst-based water treatment. The industrial water treatment device for industrial water treatment according to the present invention includes: a cylindrical body; a transparent pipe disposed in a length direction at the center in the body; an inflow port communicating with an inner space formed by an inner portion of the body and the transparent pipe at an upper end of the body and connected in a circumferential direction of a cross section of the body; an outflow port communicating with the inner space at a lower end of the body and connected in the circumferential direction of the cross section of the body; and an ultraviolet lamp fixed in the transparent pipe and irradiating the inner space with ultraviolet rays. Raw water flows into the inflow port, flows in a spiral shape through the inner space and then is discharged through the outflow port. Raw water flows into the inflow port, flows in a spiral shape through the inner space and then is discharged through the outflow port. An inner surface of the body includes titanium dioxide. The titanium dioxide is finely separated from a surface and is mixed with the raw water. The water circulating through the inner space is treated by a photocatalyst reaction of the ultraviolet rays and the titanium dioxide.

Description

[0001] Watertreatment device [0002]

The present invention relates to an industrial water treatment apparatus, and more particularly, to an industrial water treatment apparatus using a photocatalyst.

The treatment of contaminated water or unsuitable water is presented in various ways depending on the condition of the water. For example, Japanese Patent No. 872523 discloses an apparatus for treating groundwater for drinking beef including a filtration tank filled with activated carbon.

In addition, the registered patent No. 857419 relates to an underground water-purifying apparatus for purifying underground water. Specifically, groundwater is purified through primary and secondary ions, and nitrogen and fluorine, which are harmful to the human body through ion exchange, The present invention relates to an underground water purifying apparatus using an ion exchange resin for use as drinking water, and its main constitution is that the ground water supplied from the upper side is connected to the water supply valve and passes through a filter part composed of loess balls, A first purified water tank for storing the purified water; A second purified water tank in which a filter unit made of activated carbon is provided, and groundwater supplied from the first purified water tank is passed through activated carbon in a natural descending manner to remove turbidity; And an ion exchange tank for removing the nitrate and fluorine from the groundwater supplied from the second purification tank through ion exchange and temporarily storing and removing the nitrate and fluorine.

In addition, Japanese Laid-Open Patent Application No. 2008-0043112 relates to an underground water purifying apparatus, and specifically, a water purifier includes a primary purifier for purifying a water purifier in stages by installing a plurality of purifier filters in the water purifier; A secondary purifier connected to the supply space at the lower end of the purifying filter and connected to the supply space at the upper side of the supply space, and a supply tank for supplying activated carbon to the upper side of the supply space and supplying air through the air supply unit; A drain port connected to a water level outlet provided in a part of the air supply tank and supplying water to the water tank; The groundwater is purified and supplied by a water tank connected to the drain port and provided with an ozone sterilizing lamp on the lower side and a water tank for supplying water through a purified water supply pipe connected to the outside.

As described above, the water treatment apparatus is classified into a treatment using microorganisms, a physical treatment using a filter and the like, and a chemical treatment using chemicals, and the treatment using microorganisms requires a long treatment time and requires a large-scale treatment tank and, in the case of a physical process using a filter or the like has a disadvantage in that the maintenance costs for replacement and cleaning of the filter and the filtration membrane consumption, chemical treatment has the disadvantage that remains is the odor caused by the high cost of the chemical material, this disadvantage Is also present in the treatment of industrial water.

Therefore, there is a need for a new type of water treatment apparatus capable of efficiently treating water, particularly industrial water, with a relatively simple structure.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an industrial water treatment apparatus capable of rapidly and efficiently treating industrial water in a photocatalytic manner.

According to an aspect of the present invention, there is provided an industrial water treatment apparatus for treating industrial water, comprising: a cylindrical body; A transparent tube installed longitudinally in the center of the body; An inlet port communicating with an inner space formed by the inside of the body and the transparent tube at the upper end of the body and connected in the circumferential direction of the body section; An outlet communicating with the inner space at a lower end of the body and connected in a circumferential direction of the body section; And an ultraviolet lamp fixed inside the transparent tube and irradiating ultraviolet rays to the internal space, wherein raw water flows into the inlet port, flows into the internal space in a spiral form, and is discharged to the outlet port, Wherein the inner surface of the body is made of titanium dioxide, the titanium dioxide is tinyly removed from the surface and mixed with the raw water, and the ultraviolet ray and the ultraviolet ray are mixed with the raw water, And the water flowing through the inner space is treated by the photocatalytic action of titanium dioxide.

Preferably, the transparent tube is made of quartz glass.

More preferably, the titanium dioxide is any one selected from the group consisting of an anatase type, a palladium-supported type, and a nano-scale platinum surface supported on rutile type titanium dioxide.

More preferably, the raw water flowing into the inlet is a mixed water mixed with an external gas.

More preferably, the inlet further comprises a pump for mixing the external gas and pressurizing the water, and a pressure regulator for regulating the pressure of the mixed water pressurized by the pump.

More preferably, the discharge port further comprises a pressure regulating device for regulating the pressure and a shut-off valve for regulating the flow rate of the gas discharged from the discharge port.

More preferably, the external gas is air, and the pump further includes a regulating valve for regulating an inflow flow rate of the external gas.

Since the water treatment apparatus according to the present invention treats water in a photocatalytic manner using an ultraviolet lamp and titanium dioxide, there is a merit merely that the structure of the treatment apparatus is simple, and ultraviolet rays and titanium dioxide And the water treatment cost is low, so that it can be conveniently used and maintained.

1 is a configuration diagram of an industrial water treatment apparatus according to the present invention,
Fig. 2 is a configuration diagram of the body shown in Fig. 1,
FIG. 3 is a configuration diagram of an inlet and an outlet connected to the body shown in FIG. 2,
4 is a configuration diagram of an apparatus added to the inlet shown in Fig.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the industrial water treatment apparatus 100 according to the present invention includes a cylindrical body 10 having a long length, An inlet 30 communicating with the inner space between the body 10 and the transparent tube 20 in the tangential direction of the end surface of the body 10 at the upper end of the body 10, A discharge port 40 connected to the lower end of the body 10 in the tangential direction of the end surface of the body 10 so as to communicate with the inner space and a discharge port 40 disposed inside the transparent tube 20 for irradiating ultraviolet And an ultraviolet lamp (50).

As shown in FIG. 2, the body 10 has a cylindrical shape in which a space is formed, and includes a cylindrical portion 11 and a cross-sectional portion 12.

A through hole 13 for inserting the transparent tube 20 is formed in the end face portion 12 and the cylindrical portion 11 is made of titanium dioxide (TiO ₂ ) In a coated form.

At this time, the titanium dioxide is configured such that a minute amount is introduced into the treated water, so that the titanium dioxide is replaced after the completion of use for a predetermined period of time, and the titanium dioxide added to the treated water serves to lower the activity of the surfactant .

The transparent tube 20 is inserted and fixed in the through hole 13 formed in the end face 12. The transparent tube 20 is made of a transparent material and is preferably glass, but quartz glass is preferable in view of strength.

Since the transparent tube 20 is inserted into the body 10, an internal space 19 is formed between the transparent tube 20 and the inside of the body 10, Water flows into the water.

An inlet 30 is connected to the upper end of the body 10 so as to communicate with the internal space 19 but the inflowing raw water may be inserted into the internal space 19, (12) in the circumferential direction.

An outlet 40 is also formed in the lower end of the body 10 so that the outlet 40 communicates with the internal space 19 in the circumferential direction of the end surface 12 of the body 10.

Therefore, the water introduced through the inlet 30 flows into the internal space 19 in a spiral form and then is discharged to the outlet 40. The flow of the water as described above is controlled by the residence time of the internal space 19 To improve the treatment characteristics of water.

As shown in FIG. 4, the water introduced through the inlet 30 is mixed with a separate gas and mixed with the external gas through the pump 31, ). At this time, it is convenient to use ordinary air as the external gas, and if necessary, it may be configured to supply only oxygen.

The pump 31 includes a separate regulating valve 32 for regulating the flow rate of the introduced gas and the inlet 30 includes a pressure regulating device 33 for regulating the pressure of the mixed gas .

It is preferable that the pressure regulating device 33 is formed of a buffer having an appropriate space.

Therefore, the water flowing through the inlet 30 is mixed with the external gas and flows into the internal space 19. [

If necessary, the inlet pipe 30 may be provided with a pump 31 for injecting an external gas into the water.

On the other hand, an ultraviolet ray lamp 50 is positioned inside the transparent tube 20 and irradiates ultraviolet rays toward the internal space 19.

The ultraviolet lamp 50 reacts with the titanium dioxide to treat the water. Ultraviolet rays irradiated from the ultraviolet lamp 50 generate holes and electrons on the surface of titanium dioxide and react with water in contact with titanium dioxide to generate active oxygen and OH radicals having strong oxidizing power, Oxidizing.

Since the ultraviolet lamp 50 of the present invention is intended for a photocatalytic reaction with titanium dioxide since the ultraviolet lamp 50 exhibits the characteristic of raising the temperature of the treated water when only the ultraviolet lamp 50 is continuously irradiated, The effect of the temperature rise of the treated water is insignificant.

Titanium dioxide in the cylindrical portion 11 of the body 10 serves as a photocatalyst and can be used as an anatase-type titanium dioxide. Further, it can be used as titanium dioxide carried by palladium for further promoting activity, Lt; RTI ID = 0.0 > titanium dioxide < / RTI >

The outflow pipe 40 serves to discharge the treated water. If necessary, the outlet pipe 40 may include a separate shut-off valve 41 and a pressure regulating device 42.

At this time, the shutoff valve 41 also controls the inside of the body 10 so that an appropriate pressure difference is generated according to the height.

The water treatment apparatus 100 according to the present invention comprises a UV lamp 50 and a titanium dioxide photocatalyst reacting with ultraviolet rays of the ultraviolet lamp 50 inside the cylindrical body 10, And the water treatment speed is also advantageous.

On the other hand, in the case of washing the inside of a piping of a nuclear power plant or the like, when the water is treated after washing, since it contains bubbles due to the effect of the surfactant dissolved in the treated water, when the treated water is pressurized or circulated, There are disadvantages that it is very difficult to process.

In the case of pretreating the water used for cleaning the piping of the nuclear power plant as described above, the deterioration of the characteristics of the surfactant by the photocatalytic reaction and the desorption of the titanium dioxide also have the effect of lowering the characteristics of the surfactant. There is an advantage that it can be performed in a normal manner.

That is, the water treatment apparatus 100 according to the present invention can be applied to a case where the water used for the cleaning purpose is difficult to be treated due to the action of the substance dissolved therein, Lt; / RTI >

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And all of the various forms of embodiments that can be practiced without departing from the technical spirit.

10: Body 11:
12: end face portion 13: through hole
19: inner space 20: transparent tube
30: inlet 31: pump
32: regulating valve 33: pressure regulating device
40: outlet 41: shutoff valve
42: pressure regulator 50: ultraviolet lamp
100: industrial water treatment device

Claims (7)

An industrial water treatment apparatus for treating industrial water, comprising:
A cylindrical body;
A transparent tube installed longitudinally in the center of the body;
An inlet port communicating with an inner space formed by the inside of the body and the transparent tube at the upper end of the body and connected in the circumferential direction of the body section;
An outlet communicating with the inner space at a lower end of the body and connected in a circumferential direction of the body section; And
And an ultraviolet lamp fixed inside the transparent tube to irradiate ultraviolet rays to the internal space,
The raw water flows into the inflow port, flows into the internal space in the form of a spiral, and is discharged to the outflow port.
Wherein the body interior surface comprises titanium dioxide, the titanium dioxide tinyly leaving the surface and mixing with the raw water,
And the water flowing through the internal space is treated by the photocatalytic action of the ultraviolet ray and the titanium dioxide.
The industrial water treatment system according to claim 1, wherein the transparent tube is made of quartz glass.
The industrial water treatment apparatus according to claim 2, wherein the titanium dioxide is any one selected from the group consisting of anatase-type, palladium-supported, and nano-scale platinum supported on rutile titanium dioxide.
4. The industrial water treatment apparatus according to claim 3, wherein the raw water flowing into the inlet is a mixed water mixed with an external gas.
The industrial water treatment apparatus according to claim 4, wherein the inlet further comprises a pump for mixing external gas and pressurizing the water, and a pressure regulator for regulating the pressure of the mixed water pressurized by the pump.
The industrial water treatment apparatus according to claim 5, wherein the discharge port further comprises a pressure regulating device for regulating the pressure and a shutoff valve for regulating the flow rate of the gas discharged from the discharge port.
The industrial water treatment apparatus according to claim 6, wherein the external gas is air, and the pump further comprises a regulating valve for regulating an inflow flow rate of the external gas.

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