KR101824262B1 - Cleaning System and Method for UV Reactor of Treatment Apparatus of Ship's Ballast Water - Google Patents

Abstract

According to an aspect of the present invention, there is provided a system for cleaning an ultraviolet reactor for a ballast water treatment apparatus for a ship, comprising: a seawater inlet pipe and a seawater outlet pipe connected to the front and rear of the ultraviolet reactor so that seawater is processed while passing through the ultraviolet reactor; A cleaning unit for containing a cleaning liquid; A cleaning liquid inlet pipe connected to the cleaning unit and the reactor for introducing the cleaning liquid discharged from the cleaning unit into the reactor; A cleaning liquid outlet pipe connected to the cleaning unit and the reactor for introducing the cleaning liquid discharged through the reactor into the cleaning unit, a clean water inflow pipe connected to the clean water line formed on the ship, And a fresh water outlet pipe through which the fresh water that has passed through the reactor flows out,
Wherein the fresh water inflow pipe includes a first connection pipe connected to the fresh water line, and a second connection pipe connected to the first connection pipe and the reactor, and the fresh water outlet pipe is connected to the second connection pipe, A second connection pipe and a third connection pipe connected to the cleaning unit, wherein the cleaning liquid inlet pipe includes a fourth connection pipe connected to the second connection pipe, the second connection pipe and the cleaning unit, And a drain pump connected to the clean water discharge pipe to discharge the fresh water flowing through the clean water discharge pipe to the outside and to introduce the cleaning liquid into the reactor.

Description

TECHNICAL FIELD [0001] The present invention relates to a cleaning system and a cleaning method for an ultraviolet reactor for a ballast water treatment apparatus of a ship,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cleaning system and a cleaning method for an ultraviolet reactor for a ballast water treatment apparatus of a ship. More particularly, the present invention relates to a cleaning system and a cleaning method for a ballast water treatment apparatus, which minimizes fluctuation of the center of gravity of a ship by means of ballast water filled in the ballast tank The present invention relates to a cleaning system and a cleaning method for cleaning the interior of an ultraviolet reactor for ultraviolet (UV) sterilization of ballast water in a processing apparatus.

In general, ballast tanks installed on ships are to minimize the center of gravity of the ship by loading and unloading of cargo to help safe navigation. In other words, if the ship is loaded full of cargo, the vessel's center of gravity is located below the sea level even if the ballast tank is not filled with ballast water. Therefore, even if external force acts, the ship can navigate safely. The ballast tank is filled with ballast water so that a certain portion of the ship can be positioned below the sea surface as the ship is shipped.

As described above, the ballast water used for safe operation of a ship has a problem in that it is used as a medium for propagating organisms or pathogens in a specific area to other seas.

The ballast water filled in the ballast tanks may include various marine organisms and pathogens. Since the inflow and outflow of the ballast water are performed in different areas, when the ballast water is introduced, As it flows out to other waters, causes side effects that disturb the environment and the ecosystem.

Therefore, introduction of facilities for treating marine organisms or pathogens contained in ballast water at the time of leakage of ballast water is obligatory.

Fig. 1 shows the construction of a general ballast water treatment apparatus.

As shown in FIG. 1, a general ballast water treatment apparatus 1 includes a pretreatment filter 10 and an ultraviolet reactor 20 to sterilize the inflow or outflow of ballast water.

First, referring to the inflow process of the ballast water, the configuration indicated by "A" in FIG. 1 becomes the ocean, and the configuration indicated by "B" becomes the ballast tank.

When the ballast water is introduced, the valve 21 of the inlet pipe 11 and the valve 22 of the connection pipe 12 are opened and the valve 23 of the branch pipe 13 is closed. The seawater introduced from the ocean A flows into the pretreatment filter 10 through the inflow pipe 11 and is removed through the ultraviolet reactor 20 through the connection pipe 12, 14 to the ballast tank B.

Conversely, if the ballast water outflows, the configuration indicated by "B" in FIG. 1 becomes the ocean, and the configuration marked "A" becomes the ballast tank (ocean and ballast tanks are connected by a common line ). When the ballast water flows out, the valve 21 of the inlet pipe 11 and the valve 22 of the connecting pipe 12 are closed, and the valve 23 of the branch pipe 13 is opened. The seawater flowing out of the ballast tank A flows into the ultraviolet reactor 20 through the branch pipe 13 and is subjected to a sterilization treatment process and then discharged to the sea B through the discharge pipe 14.

The ballast water used in ships in accordance with the recent IMO (International Maritime Organization) agreement requires sterilization treatment.

Various methods such as electrolysis, heat treatment, ultraviolet light irradiation, and membrane separation can be applied to the sterilization treatment for the ballast water treatment. However, since the ultraviolet light irradiation treatment does not require addition of a chemical substance and is easy to control, .

The ultraviolet reactor 20 described above is for irradiating ultraviolet rays to seawater and has a plurality of ultraviolet lamps (not shown) for irradiating ultraviolet rays. The seawater passing through the ultraviolet reactor 20 is sterilized by the ultraviolet rays irradiated from the ultraviolet lamp.

Unless the inside of the ultraviolet reactor is cleaned in an appropriate period, the inside of the reactor may be contaminated and the bactericidal efficiency of the seawater may be lowered.

Korean Patent Laid-Open Publication No. 10-2008-0090098

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a cleaning system and a cleaning method for an ultraviolet reactor capable of increasing the bactericidal efficiency of seawater by cleaning the inside of the ultraviolet reactor.

In order to achieve the above object, according to one aspect of the present invention, there is provided a system for cleaning a ultraviolet reactor for a ballast water treatment apparatus of a ship, comprising: a seawater inflow pipe connected to front and rear of an ultraviolet reactor so that seawater is passed through the ultraviolet reactor; And seawater outlet pipe; A cleaning liquid inlet pipe connected to the cleaning unit and the reactor to allow the cleaning liquid flowing out from the cleaning unit to flow into the reactor; and a cleaning liquid inlet pipe connected to the cleaning unit and the reactor, And a fresh water outlet pipe connected to the fresh water line formed on the vessel for flowing fresh water into the reactor and a fresh water outlet pipe through which the fresh water having passed through the reactor flows out Is provided.

According to one embodiment, a drain pump for introducing the cleaning liquid into the reactor is formed in the cleaning liquid inlet pipe.

At this time, the fresh water outflow pipe is connected to the drain pump, and the drain pump can discharge the fresh water flowing through the fresh water outflow pipe to the outside.

The fresh water inflow pipe may include a first connection pipe connected to the fresh water line and a second connection pipe connected to the first connection pipe and the reactor, And a third connection pipe connected to the second connection pipe and the cleaning unit, wherein the cleaning liquid inlet pipe includes the second connection pipe, the fourth connection pipe connected to the second connection pipe and the cleaning unit .

In addition, the drain pump may be formed in the fourth connection pipe, and the third connection pipe may be connected to the drain pump by being connected to the fourth connection pipe at an upstream side of the drain pump.

According to another aspect of the present invention, there is provided a method of cleaning an ultraviolet reactor for a ballast water treatment apparatus of a ship, comprising: a first step of introducing fresh water into the reactor; and a second step of flowing out the fresh water passing through the reactor from the reactor A third step of introducing the cleaning liquid into the reactor, and a fourth step of flowing out the cleaning liquid that has passed through the reactor from the reactor.

According to an embodiment, the third step and the fourth step are repeated a plurality of times.

1 is a block diagram of a general ballast water treatment apparatus.
2 is a conceptual diagram of a cleaning system according to an embodiment of the present invention.
Figure 3 shows the path through which fresh water flows in the cleaning system of Figure 2;
Fig. 4 shows a path through which the cleaning liquid circulates in the cleaning system of Fig. 2;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and action are not limited by this embodiment.

2 is a conceptual diagram of a cleaning system 100 according to an embodiment of the present invention.

As shown in FIG. 2, the ballast water treatment apparatus includes an ultraviolet reactor 110 to sterilize seawater passing through the reactor 110.

The seawater introduced into the ultraviolet reactor 110 through the seawater inlet pipe 210 is sterilized by a plurality of ultraviolet lamps 111 provided in the ultraviolet reactor 110 and then discharged through the seawater outlet pipe 220, (Not shown) or to the outside.

The cleaning system 100 according to the present embodiment includes a cleaning unit 120 that receives a cleaning liquid for cleaning the ultraviolet reactor 110. As the cleaning liquid according to this embodiment, citric acid is used, for example.

In order to clean the ultraviolet reactor 110 by introducing the cleaning liquid accommodated in the cleaning unit 120 into the ultraviolet reactor 110, the cleaning system 100 includes a cleaning liquid circulation line.

The cleaning liquid circulating line includes cleaning liquid inlet pipes 304 and 302 connected to the cleaning unit 120 and the reactor 110 to allow the cleaning liquid flowing out of the cleaning unit 120 to flow into the reactor 110, And a rinse solution outlet pipe 305 for introducing the rinse solution that has flowed out through the cleaning unit 120 to the cleaning unit 120 again.

The washing liquid inlet pipe 304 is provided with a drain pump P for circulating the washing liquid in the washing liquid circulating pipe and introducing the washing liquid into the reactor 110.

Meanwhile, the cleaning system 100 according to the present embodiment includes a fresh water circulation line for firstly cleaning seawater in the ultraviolet reactor 110 before circulating the cleaning liquid.

Fresh water circulation ducts are connected to clean water lines (not shown) formed on all ships and clean water inflow pipes 301 and 302 for letting fresh water into the reactor 110 and fresh water passing through the reactor 110 flow out And a fresh water outlet pipe (302, 303).

According to the present embodiment, the fresh water inflow pipe includes a first connection pipe 301 connected to the fresh water line, a second connection pipe 302 connected to the first connection pipe 301 and communicating with the inside of the reactor 110, .

The fresh water outflow pipe comprises a second connection pipe 302 and a third connection pipe 303 branched at a branch point where the first connection pipe 301 and the second connection pipe 302 are branched.

 The cleaning liquid inlet pipe is composed of a fourth connection pipe 304 and a second connection pipe 302 connected to the cleaning unit 120. The drain pump (P) is formed in the fourth connection pipe (304) to provide a pressure such that the rinse solution flowing out of the rinse unit (120) can circulate inside the rinse solution circulation duct.

As described above, the fresh water inflow pipe, fresh water outflow pipe, and rinse solution inflow pipe according to the present embodiment include the second connection pipe 302 in common. As described above, the fresh water inflow pipe, fresh water outflow pipe, and rinsing liquid inflow pipe commonly include the second connection pipe 302, so that the ultraviolet reactor 110 is connected to one communication pipe (second connection pipe) So that the construction of the reactor 110 is simplified.

2, the third connection pipe 303 of the fresh water discharge pipe is connected at the upstream side of the drain pump P and is connected to the discharge pipe 306 after the drain pump P to discharge the fresh water .

According to the present embodiment, the drain pump P functions not only to circulate the cleaning liquid through the cleaning liquid circulation channel, but also to discharge the fresh water flowing through the fresh water outlet pipe to the outside through the discharge pipe 306.

As shown in FIG. 2, valves 401, 402, 403, 404, 405, 406, 407, 408 are provided in the clean water inflow pipe, fresh water outflow pipe, cleaning fluid inflow pipe, Can be opened or closed.
The valve 406 provided between the cleaning unit 120 and the drain pump P of the valve is closed during discharging through the discharge pipe 306 after cleaning with clean water.
The valve 403 provided on the third connection pipe 303 is to be opened when the cleaning liquid remaining in the reactor 110 is recovered and when it is discharged after the cleaning operation with clean water.
Further, the fresh water inflow pipe, the cleaning liquid inflow pipe and the cleaning liquid outlet pipe are communicated with each other by branch pipes 307 and 308 so that fresh water and the flow path of the cleaning liquid can be adjusted as necessary. The branch pipes 307 and 308 are provided with valves 409 and 410, respectively.
That is, the branch pipe 307 can be used when the remaining cleaning liquid in the reactor 110 is to be recovered by the operation of the drain pump P after the cleaning operation by the cleaning liquid, And branch pipe 307 through the third connection pipe 303 and the drain pump P and the fourth connection pipe 304 so as to be recovered into the cleaning unit 120.
Of course, at this time, the valves 405, 406, 407, and 409 remain closed.

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Hereinafter, the cleaning process of the reactor 110 using the cleaning system 100 according to the present embodiment will be described with reference to FIGS. 3 and 4. FIG.

FIG. 3 shows a path through which fresh water flows in the cleaning system 100 of FIG. 2, and FIG. 4 shows a path through which the cleaning liquid circulates in the cleaning system 100 of FIG.

According to the present embodiment, first, fresh water is initially washed into the reactor 110 using fresh water. It is possible to prevent contamination of the cleaning liquid by mixing the seawater into the circulating liquid circulating through the inside of the cleaning unit 120 as the inside of the reactor 110 is cleaned with fresh water by using fresh water.

Referring to FIG. 3, all of the seawater to be sterilized is discharged inside the reactor 110, and the valves 201 and 202 are closed to block the inflow of seawater into the reactor 110.

Next, the valves 401, 402, 404 formed in the fresh water inflow pipes 301, 302 are opened to allow fresh water to flow into the reactor 110 from the fresh water line (in the direction of arrow 501). The seawater in the reactor 110 is primarily cleaned by fresh water.

Next, the valves 403 and 404 formed in the fresh water outflow pipes 302 and 303 and the valve 407 formed in the discharge pipe 306 are opened, and all the other valves are closed. In this state, the drain pump P is operated to discharge fresh water filled in the reactor 110 to the outside (arrow 502 direction).

When the primary cleaning by the fresh water is completed, the secondary cleaning using the cleaning liquid is performed.

4, the valves 406, 405, 404, and 408 formed in the rinse solution inlet pipes 304 and 302 and the rinse solution outlet pipe 305 are opened first. At this time, all other valves are closed.

The drain pump P is operated to flow the cleaning liquid flowing out of the cleaning unit 120 into the reactor 110 through the cleaning liquid inlet pipes 304 and 302 (in the direction of arrow 503). The cleaning liquid introduced into the reactor 110 flows into the cleaning unit 120 again through the cleaning liquid outlet pipe 305 (in the direction of arrow 504) and is recycled.

The circulation of the cleaning liquid through the cleaning liquid circulation channel is repeated a plurality of times to improve the cleaning efficiency in the reactor 110.

According to the cleaning system and the cleaning method according to the present embodiment, it is possible to prevent the cleaning unit from being contaminated by seawater mixed in the cleaning liquid by performing primary cleaning of the inside of the reactor using clear water. In addition, the system can be simplified in that the inflow of the cleaning liquid and the outflow of fresh water can be performed by one drain pump.

100: Cleaning system
110: ultraviolet reactor
120: Cleaning unit
201, 202, 401 to 410: valves
210, 220: Seawater flow channel
301 to 308: fresh water / washing liquid flow channel

Claims (7)

1. A cleaning system for an ultraviolet reactor for a ballast water treatment apparatus of a ship,
A seawater inlet pipe 210 and a seawater outlet pipe 220 connected to the front and rear of the ultraviolet reactor 110 so that the seawater passes through the ultraviolet reactor 110;
A cleaning unit (120) for receiving the cleaning liquid;
A cleaning liquid inlet pipe connected to the cleaning unit 120 and the reactor 110 for introducing the cleaning liquid discharged from the cleaning unit 120 into the reactor 110;
A rinse solution outlet pipe (305) connected to the cleaning unit (120) and the reactor (110), for introducing the rinse solution flowing out through the reactor (110) into the rinse unit (120);
A fresh water inflow pipe connected to the fresh water line formed on the ship to allow fresh water to flow into the reactor (110); And
And a fresh water outlet pipe through which the fresh water having passed through the reactor (110) flows out,
The fresh water inflow pipe includes a first connection pipe 301 connected to the fresh water line and a second connection pipe 302 connected to the first connection pipe 301 and the reactor 110,
The fresh water outlet pipe includes the second connection pipe 302 and the third connection pipe 303 connected to the second connection pipe 302 and the cleaning unit 120,
The cleaning liquid inlet pipe includes the second connection pipe 302 and the fourth connection pipe 304 connected to the second connection pipe 302 and the cleaning unit 120,
A drain pump P connected to the fresh water discharge pipe to discharge the fresh water flowing through the fresh water discharge pipe to the outside and to introduce the cleaning solution into the reactor 110,
The drain pump P is connected to a fourth connection pipe 304 for extracting the cleaning liquid in the cleaning unit 120 and sending it to the reactor 110 and the third connection pipe 303 for discharging clean water Is connected at the upstream side of the drain pump (P) to the drain pipe (306) after the drain pump (P)
A valve (406) is provided between the cleaning unit (120) and the drain pump (P) for closing off the fresh water through the discharge pipe (306)
A valve 407 is provided on the discharge pipe 306 for closing the reactor 110 when the reactor 110 is cleaned by the cleaning liquid,
A valve (403) is provided on the third connection pipe (303) to open the valve when the cleaning liquid remaining in the reactor (110)
A branch pipe 307 for branching the cleaning liquid remaining in the reactor 110 into the cleaning unit 120 is branched from the fourth connection pipe 304,
A valve 410 is provided on the branch pipe 307 for closing the cleaning liquid in the cleaning liquid by the cleaning liquid and opening the cleaning liquid remaining in the reactor 110 when the cleaning liquid is collected into the cleaning unit 120,
A valve 405 is provided on the fourth connection pipe 304 after the branch pipe 307 to allow the valve to be opened when the cleaning liquid is cleaned and to close the remaining cleaning liquid when the remaining cleaning liquid is collected in the reactor 110 . delete delete delete delete delete delete

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