KR20130008249A - A ballast water treatment device which uses the photocatalyst - Google Patents

Abstract

PURPOSE: A ballast water sterilizing apparatus by using a photocatalyst is provided to efficiently sterilize a ballast water by forming hydroxyl radicals that are generated from the photocatalyst. CONSTITUTION: A ballast water sterilizing apparatus by using a photocatalyst comprises at least one photocatalyst sterilization board(10), a binding member, and a fixing frame(30). The at least one photocatalyst sterilization board is disposed in a sterilization chamber(1) and formed as a net to ease contact with the ballast water circulating in the sterilization chamber while not disturbing a flow of the ballast water. The at least one photocatalyst sterilization board is formed of a photocatalyst. The binding member binds the photocatalyst sterilization board to prevent dislocation of the photocatalyst sterilization board caused by friction between the photocatalyst sterilization board and the ballast water circulating in the sterilization chamber. The fixing frame binds with the binding member to firmly fix a position of the binding member. An outer periphery of the fixing frame is in contact with an inner periphery of the sterilization chamber. The fixing frame has a circular hook shape.

Description

A Ballast water treatment device which uses the photocatalyst

The present invention relates to a ballast water sterilization apparatus using a photocatalyst, and more particularly, to oxidize and sterilize pollutants by generating OH radicals when ultraviolet rays are irradiated with a technique for sterilizing ballast water using ultraviolet rays in the related art. By combining photocatalyst technology, we can expect very effective sterilization treatment by sterilizing ballast water through OH radicals generated from photocatalyst as well as ultraviolet light. Furthermore, we suggest a structure that can be easily applied to sterilization chambers in which ballast water is distributed. The present invention relates to a ballast water sterilization apparatus using a photocatalyst which can expect excellent use efficiency.

In general, ballast water refers to seawater flowing into a vessel in order to maintain balance and stability of the vessel when sailing the vessel.

Such ballast water contains various kinds of microorganisms such as bacteria, pathogens, small invertebrates, etc. in a specific sea area, and these microorganisms or pathogens are moved to other sea areas to destroy the environment and disrupt economic conditions such as disturbing marine ecosystems and water resources. The number of damage cases is increasing rapidly around the world, causing losses and ultimately health damage to humans.

In order to prevent the above damage, HID (High Intensity Discharge) ultraviolet lamp purification treatment technology, which is one of ultraviolet irradiation method, has been developed.

However, the treatment technology using only ultraviolet lamps has the stability, economy, and practicality of the International Maritime Organization (IMO), such as the limitation of treatment capacity, additional treatment process, complexity of treatment system, low economy, and high power consumption. However, it is difficult to meet the criteria for environmental and ecological effectiveness.

Accordingly, in order to solve the above-mentioned general problems, research and development on the ballast water purification technology is actively underway at home and abroad.

On the other hand, photocatalysts such as TiO ₂ form OH radicals on the surface when subjected to ultraviolet radiation, thereby oxidizing and disinfecting pollutants, and exhibit superhydrophilicity with a sharp increase in affinity with water. It is not attached. In particular, even if contaminants that adhere well such as oil components adhere, they are decomposed by photolysis, so that the surface can be kept clean at all times. These photocatalysts have recently been used in various applications such as water purification, indoor air purification, building exterior walls, automobile glass, and the like.

In the past, various techniques related to sterilization using photocatalysts have been published, but most of them are used for small purifiers or air purifiers.

Therefore, there is a need to develop a technology that can be used practically by combining the sterilization technology using a photocatalyst in the sterilization treatment of ballast water.

The present invention has been proposed to solve various problems as described above, the object of which is to oxidize and sterilize contaminants by generating OH radicals when ultraviolet rays are irradiated with a technique for conventionally sterilizing ballast water using ultraviolet rays. By combining photocatalyst technology, it is possible to expect a very effective sterilization treatment by sterilizing ballast water through OH radicals generated from photocatalyst as well as UV light, and presenting a structure that can be easily applied to the sterilization chamber in which the ballast water is normally distributed. The present invention provides a ballast water sterilization apparatus using a photocatalyst which can expect excellent use efficiency.

The ballast water sterilization apparatus using a photocatalyst according to the present invention for achieving the above object includes a sterilization chamber through which the ballast water is distributed, and a light emitting lamp positioned inside the sterilization chamber to emit ultraviolet rays. In the ballast water sterilization apparatus for sterilizing microorganisms and pathogens present in the ballast water by irradiating the ballast water distributed in the chamber with ultraviolet rays,

Located in the sterilization chamber, formed in the shape of a network (접촉) to facilitate contact with the ballast water in circulation without disturbing the flow of ballast water, at least one or more photocatalysts made of a photocatalyst (photocatalyst) A sterilization plate; and the photocatalyst sterilization plate to bind the photocatalyst sterilization plate and the ballast water circulated in the sterilization chamber to prevent the photocatalyst sterilization plate from being separated from each other. Binding means formed on both sides of the binding means, and being coupled to the binding means to firmly fix the position of the binding means, a circular ring shape having an outer circumferential surface thereof in contact with the inner circumferential surface of the sterilization chamber; It further comprises a fixed frame having.

In addition, the photocatalyst sterilizing plate is characterized in that it has a continuous curved shape so as to easily contact the ballast water distributed in the sterilization chamber.

In addition, the photocatalyst is characterized in that titanium oxide (TiO ₂ ) formed by oxidizing a titanium metal (TiO ₂ ) is used.

In addition, the binding means is a photocatalyst is configured to include a first settling pipe is coupled to both sides fixed to the fixed frame, the second settling pipe is fixed to both sides of the fixed frame and the first settling pipe horizontally spaced A settling portion for placing a sterilizing plate, a first binding pipe positioned on the first settling pipe and binding the photocatalyst sterilizing plate, and a second binding pipe positioned on the second settling pipe and binding the photocatalyst sterilizing plate; And a plurality of fastening parts including a fastening part including two fastening pipes, and bolts and nuts for fastening and fixing the photocatalyst sterilization plate to each other by binding the anchor pipe and the fastening pipe to each other.

In addition, at least one fixing groove formed on the outer circumferential surface of the fixing frame, and formed on the inner circumferential surface of the sterilization chamber, and formed to correspond to the number of the fixing groove further comprises a fixing projection inserted into the fixing groove It is characterized by.

As described above, according to the ballast water sterilizing apparatus using the photocatalyst according to the present invention, when UV light is irradiated to the conventional technique for sterilizing ballast water using ultraviolet rays, OH radicals are generated to oxidize and sterilize pollutants. By combining photocatalyst technology, we can expect very effective sterilization treatment by sterilizing ballast water through OH radicals generated from photocatalyst as well as ultraviolet light. Furthermore, we suggest a structure that can be easily applied to sterilization chambers in which ballast water is distributed. It is effective to expect excellent usability.

1 is a perspective view of a ballast water sterilization apparatus using a photocatalyst according to an embodiment of the present invention
Figure 2 is a perspective view of the combination of the photocatalyst sterilization plate and the binding means and the fixed frame of the ballast water sterilization apparatus using the photocatalyst shown in FIG.
FIG. 3 is a partially separated perspective view of the photocatalyst sterilizing plate, the binding means, and the fixing frame of the ballast water sterilizing apparatus using the photocatalyst shown in FIG.
Figure 4 is a longitudinal cross-sectional view of the ballast water sterilization apparatus using a photocatalyst according to another embodiment of the present invention
5 is a state diagram used in the ballast water sterilization apparatus using the photocatalyst shown in FIG.

The ballast water sterilization apparatus using a photocatalyst according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 is a perspective view of the ballast water sterilization apparatus using a photocatalyst according to an embodiment of the present invention, Figure 2 is bound with a photocatalyst sterilization plate of the ballast water sterilization apparatus using a photocatalyst shown in Figure 1 3 is a perspective view of a combination of the means and the fixed frame, Figure 3 is a partial separation perspective view of the photocatalyst sterilization plate and the binding means and the fixing frame of the ballast water sterilization apparatus using the photocatalyst shown in Figure 1, Figure 4 is another embodiment of the present invention Longitudinal cross-sectional view of a ballast water sterilization apparatus using a photocatalyst according to Figure 5, Figure 5 shows the state of use of the ballast water sterilization apparatus using a photocatalyst shown in FIG.

As shown in the drawings, the ballast water sterilization apparatus 100 using a photocatalyst according to an embodiment of the present invention is a sterilization chamber 1 through which the ballast water is distributed, and is located inside the sterilization chamber 1. And a ballast water sterilizer for sterilizing microorganisms or pathogens present in ballast water by irradiating ultraviolet ballast water distributed in the sterilization chamber 1, including a light emitting lamp 2 emitting light with ultraviolet rays. In

The photocatalyst sterilizing plate 10, the binding means 20, and the fixing frame 30 is further included.

As shown in Figures 1 to 3, at least one photocatalyst sterilization plate 10 is formed, which is located inside the sterilization chamber 1, is formed in a mesh shape to the flow of ballast water It is to be made easy to contact with ballast water in circulation without disturbing, but to be made of photocatalyst (photocatalyst).

Here, as shown in FIG. 5C, the photocatalyst sterilizing plate 10 generates OH radicals to oxidize and sterilize contaminants upon receiving ultraviolet light emitted from the light emitting lamp 2. ) As a mesh shape does not interfere with the flow of ballast water, and at the same time easy contact with the photocatalyst sterilizing plate 10 in the course of passing the ballast water into the photocatalyst sterilizing plate 10 The induced sterilization effect of ballast water through the OH radicals generated in the photocatalyst sterilization plate 10 can be expected.

Furthermore, as shown in FIG. 5C, the photocatalyst sterilizing plate 10 has a shape that is continuously curved 11 to induce more effective contact with ballast water distributed in the sterilization chamber 1. It is preferable that the sterilization effect of ballast water through the OH radicals produced by the photocatalyst sterilization plate 10 is further improved.

As the photocatalyst manufactured by the photocatalyst sterilization plate 10 of the ballast water sterilization apparatus 100 using the photocatalyst according to an embodiment of the present invention, titanium oxide (TiO ₂ ) formed by oxidizing titanium metal is used. However, the present invention is not limited thereto.

As shown in FIGS. 1 to 3, the binding means 20 binds the photocatalyst sterilization plate 10 so that the ballast water is circulated in the photocatalyst sterilization plate 10 and the sterilization chamber 1. By preventing the separation of the photocatalyst sterilization plate 10 due to friction,

A first set pipe 21a coupled to the fixed frame 30 to be sewn on both sides, and a second settled on both sides coupled to the fixed frame 30 and spaced apart from the first set pipe 21a. It is configured to include a pipe 21b, the mounting portion 21 for placing the photocatalyst sterilization plate 10 and the first catalyst pipe 21a to bind the photocatalyst sterilization plate 10. A binding portion 22 including a first binding pipe 22a and a second binding pipe 22b positioned above the second settling pipe 21b to bind the photocatalyst sterilization plate 10; A plurality of fastening portions composed of bolts 23a and nuts 23b for binding the anchor pipes 21a and 21b and the binding pipes 22a and 22b to each other to stably fix the photocatalyst sterilization plate 10. It is comprised including 23.

Here, of course, the binding means 20 is formed corresponding to the number of the photocatalyst sterilization plate 10.

As shown in Figures 1 to 3, the fixed frame 30 is located on both sides of the binding means 20, respectively, coupled with the binding means 20 to firmly position the position of the binding means 20 By fixing, the outer peripheral surface is configured to have a circular ring shape in contact with the inner peripheral surface of the sterilization chamber (1).

Here, the fixed frame 30 is configured to be fixed to the anchor pipe (21a, 21b) of the binding means 20, the ballast water sterilization apparatus 100 using a photocatalyst according to an embodiment of the present invention The fixed frame 30 and the settling pipes 21a and 31b are configured to be coupled to each other by welding, but are not limited thereto.

In addition, as shown in FIG. 4, at least one fixing groove 41 is formed on the outer circumferential surface of the fixing frame 30, and is formed on the inner circumferential surface of the sterilization chamber 1. It further comprises a fixing protrusion 42 is formed corresponding to the number is inserted into the fixing groove 41,

Due to the structure in which the binding means 20 for binding the photocatalyst sterilization plate 10 is fixedly coupled to the fixed frame 30, the photocatalyst sterilization is brought into contact with ballast water distributed in the sterilization chamber 1. The force received by the plate 10 is transmitted to the fixed frame 30 to prevent the fixed frame 30 from rotating.

That is, the ballast water sterilization apparatus 100 using the photocatalyst according to the embodiment of the present invention made of the above components is conventionally subjected to OH radicals when irradiated with ultraviolet rays in a technique for sterilizing ballast water using ultraviolet rays. By combining photocatalyst technology to oxidize and sterilize contaminants, sterilization of ballast water through OH radicals generated from photocatalyst as well as ultraviolet light can have a very effective sterilization treatment.

Furthermore, the ballast water sterilization apparatus 100 using a photocatalyst according to an embodiment of the present invention proposes a structure that can be easily applied to the sterilization chamber 1 through which the ballast water is normally distributed. It can be applied without structural change of the chamber 1 and the light emitting lamp 2 has an effect that can be expected excellent usability.

The ballast water sterilization apparatus 100 using the photocatalyst according to the embodiment of the present invention having the configuration as described above is installed and sterilized as follows.

First, as shown in FIG. 5A, the cover 1a of the sterilization chamber 1 having a plurality of light emitting lamps 2 installed therein is opened, and then the photocatalyst sterilization plate 10 bound to the fixed frame 30 is opened. It is inserted into the sterilization chamber (1).

Here, the outer peripheral surface of the fixed frame 30 and the inner circumferential surface of the sterilization chamber 1 are in close contact with each other, the photocatalyst sterilization plate 10 bound to the fixed frame 30 is stably inside the sterilization chamber 1. Is located in.

Thereafter, as illustrated in FIG. 5B, the cover 1a of the sterilization chamber 1 is closed to simply complete the installation of the photocatalyst sterilization plate 10 in the sterilization chamber 1.

Here, the ballast water sterilization apparatus 100 using the photocatalyst of the present invention is composed of four photocatalyst sterilization plates 10, but is not limited thereto.

When the ballast water sterilization apparatus 100 using the photocatalyst of the present invention is installed as described above, the ballast water is distributed in the sterilization chamber 1 as shown in FIG. 5C.

At this time, the effective sterilization of the ballast water is carried out through the ultraviolet rays emitted from the light emitting lamp 2 and the OH radicals generated from the photocatalyst sterilizing plate 10 by irradiating the ultraviolet rays emitted from the light emitting lamp 2. do.

That is, the ballast water sterilization apparatus 100 using the photocatalyst of the present invention has a technology for sterilizing ballast water with ultraviolet rays emitted from the light emitting lamp 2, and generates OH radicals when irradiated with ultraviolet rays to produce ballast water. By applying the photocatalyst technology to sterilize at the same time, very effective sterilization of ballast water can be expected.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this is by way of example and not limited to the above-described embodiments, various modifications and equivalent embodiments are possible from those skilled in the art. You will understand the point. In addition, modifications by those skilled in the art can be made without departing from the scope of the present invention. Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and their technical spirit.

1. Sterilization chamber 1a. cover
2. Luminous lamp
10. Photocatalyst Sterilization Plate 11.Bending
20. Binding Means 21. Settlement
21a. First settling pipe 21b. Second set pipe
22. Binding 22a. 1st binding pipe
22b. Second binding pipe 23. Fastening part
23a. Bolt 23b. nut
30. Fixed Frame 41. Fixed Groove
42. Fixing protrusion
100. Ballast water sterilizer using photocatalyst

Claims (5)

The ballast water distributed in the sterilization chamber 1 including a sterilization chamber 1 through which the ballast water is distributed therein, and a light emitting lamp 2 positioned inside the sterilization chamber 1 to emit ultraviolet rays. In the ballast water sterilization apparatus for sterilizing microorganisms and pathogens in the ballast water by irradiation of ultraviolet rays,
Located in the sterilization chamber (1), formed in the shape of a mesh (網) to facilitate contact with the ballast water is distributed without disturbing the flow of ballast water, at least made of a photocatalyst (photocatalyst) One or more photocatalyst sterilizing plates 10;
By binding the photocatalyst sterilization plate 10 to prevent separation of the photocatalyst sterilization plate 10 due to friction between ballast water distributed in the photocatalyst sterilization plate 10 and the sterilization chamber 1, Binding means 20 formed corresponding to the number of photocatalyst sterilizing plates 10; And
Located on both sides of the binding means 20, respectively, coupled to the binding means 20 to firmly fix the position of the binding means 20, the outer peripheral surface of the circular contact with the inner peripheral surface of the sterilization chamber (1) Fixed frame having a ring shape of 30; Ballast water sterilization apparatus using a photocatalyst comprising a.
The method of claim 1,
The photocatalyst sterilizing plate 10 is a ballast water sterilization apparatus using a photocatalyst, characterized in that it has a continuous curved (11: 彎曲) shape so as to easily contact the ballast water circulated in the sterilization chamber (1).
3. The method according to claim 1 or 2,
The ballast water sterilization apparatus using a photocatalyst, characterized in that titanium oxide (TiO ₂ ) formed by oxidizing a titanium metal is used as the photocatalyst.
The method of claim 1,
The binding means 20,
Both sides are coupled to the fixed frame 30, the first settling pipe 21a, and both sides are fixed to the fixed frame 30, the second settling pipe (22) horizontally spaced from the first settling pipe 21 ( A settling portion 21 configured to include 21b) to allow the photocatalyst sterilizing plate 10 to be settled,
A first binding pipe 22a positioned on the first settling pipe 21a to bind the photocatalyst sterilizing plate 10, and an upper portion of the second settling pipe 21b to the photocatalyst sterilizing plate ( A binding portion 22 including a second binding pipe 22b for binding 10),
A plurality of fastenings composed of bolts 23a and nuts 23b for binding the settling pipes 21a and 21b and the binding pipes 22a and 22b to each other to stably fix the photocatalyst sterilization plate 10. Ballast water sterilization apparatus using a photocatalyst, characterized in that comprising a portion (23).
The method of claim 1,
At least one fixing groove 41 formed on the outer circumferential surface of the fixing frame 30,
It is formed on the inner circumferential surface of the sterilization chamber 1, characterized in that it further comprises a fixing protrusion 42 is formed corresponding to the number of the fixing groove 41 is inserted into the fixing groove 41 Ballast water sterilizer using photocatalyst.

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