KR101824261B1 - UV Reactor for Treatment Apparatus of Ship's Ballast Water having Pressure Control Device - Google Patents

Abstract

An ultraviolet reactor for a ballast water treatment apparatus of a ship according to the present invention is an ultraviolet reactor for a ballast water treatment apparatus of a ship, comprising: a seawater inflow port into which seawater flows; A body through which the seawater introduced into the seawater inlet passes; A seawater outlet through which the seawater passing through the body flows out; A plurality of ultraviolet lamps disposed inside the body so as to cross the inside of the body in a horizontal direction with respect to the ground, the ultraviolet rays sterilizing seawater passing through the body; And a pressure regulator for regulating the pressure of seawater passing through the body, wherein the pressure regulator includes an ultraviolet reactor, which is an on / off valve that is provided in the body and is automatically opened when a pressure inside the body rises above a predetermined pressure, / RTI >

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ultraviolet reactor for a ballast water treatment apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultraviolet reactor for a ballast water treatment apparatus of a ship, and more particularly, to an ultraviolet reactor for a ballast water treatment apparatus that minimizes variations in the center of gravity of a ship by means of ballast water filled in the ballast tank And an ultraviolet reactor for sterilizing ultra violet (UV).

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 part of the ship can be positioned below the sea level 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.

However, since these ultraviolet lamps have characteristics that are vulnerable to pressure, when the seawater is stagnant without circulating in the ultraviolet reactor due to a failure or the like, the temperature of the seawater rises due to the heating of the ultraviolet lamp and the pressure inside the reactor rises excessively, When the ship is operating from the geothermal area to the high temperature area even when the ultraviolet lamp is off, the temperature of the engine room where the ultraviolet reactor is installed rises and the pressure inside the reactor rises, causing the ultraviolet lamp to break down .

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

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art described above and it is an object of the present invention to provide a ballast water treatment apparatus capable of preventing the breakage of the apparatus by lowering the pressure inside the reactor when the pressure inside the ultraviolet reactor rises above the endurance pressure of the apparatus. The present invention provides a reactor.

In order to achieve the above object, the present invention provides an ultraviolet reactor for a ballast water treatment apparatus for a ship, comprising: a seawater inlet through which seawater flows; A body through which the seawater introduced into the seawater inlet passes; A seawater outlet through which the seawater passing through the body flows out; A plurality of ultraviolet lamps disposed inside the body so as to cross the inside of the body in a horizontal direction with respect to the ground, the ultraviolet rays sterilizing seawater passing through the body; And a pressure regulating device for regulating the pressure of the seawater passing through the body, wherein the pressure regulating device comprises an ultraviolet reactor, which is an on / off valve provided in the body and automatically opened when the pressure inside the body rises above a predetermined pressure, Is provided.
Also, the body may extend in a direction perpendicular to the paper surface, the seawater inlet may be formed near one end of the body of the body, and the seawater outlet may be formed near the opposite end of the body. do.
The body is cylindrical and the plurality of ultraviolet lamps are disposed at different heights between the seawater inlet and the seawater outlet. The pressure regulator is disposed between the ultraviolet lamp disposed at the lowermost end and the seawater inlet An ultraviolet reactor is provided.
The predetermined pressure or more may be 7 bar or more.

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According to the present invention, when the pressure inside the ultraviolet reactor is excessively increased, the pressure can be automatically lowered to prevent the ultraviolet reactor from being damaged.

1 is a block diagram of a general ballast water treatment apparatus.
2 is a plan view of an ultraviolet reactor according to an embodiment of the present invention.
3 is a cross-sectional view taken along line X of Fig.
FIG. 4 is a cross-sectional view of the Y section of FIG. 2 cut away.
5 is a side view of the ultraviolet reactor shown in Fig.

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.

FIG. 2 is a plan view of the ultraviolet reactor 100 according to an embodiment of the present invention. FIG. 3 is a cross-sectional view taken along the line X of FIG. 2. FIG. And FIG. 5 is a side view of the ultraviolet reactor 100 shown in FIG. 2. As shown in FIG.

2 to 5, the ultraviolet reactor 100 includes a seawater inlet 121 through which seawater introduced from a marine or ballast tank (not shown) can flow into the reactor 100, a seawater inlet 121, And a seawater outlet 122 through which the seawater passing through the body 120 flows out.

As shown in FIG. 2, the body 120 is formed in a substantially cylindrical shape, and the bottom portion 121 is disposed on the ground side and the upper portion 122 is disposed on the opposite side of the ground. The seawater inlet port 121 is formed in the vicinity of one end of the ground surface side of the body 120 and the seawater outlet port 122 is formed in the vicinity of the opposite end of the one end of the body 120.

The seawater introduced through the initial seawater inlet 121 fills the inside of the body 120 and seawater circulates in the apparatus in such a manner that seawater completely filled with the body 120 flows out through the seawater outlet 122.

The body 120 is formed with a plurality of lamp connection bosses 140 to which an ultraviolet lamp 160 (FIG. 3) capable of emitting ultraviolet rays can be coupled.

According to the present embodiment, the two connection bosses 141 'and 141 "are formed in pairs so as to be parallel to each other at the same height, and the pair of connection bosses 141' 142 ', 142' '.

As shown in FIG. 2, the connection bosses 140 in this embodiment are arranged at a total height of eight layers. The connection bosses formed at different heights are arranged to rotate with respect to the central axis of the body 120 at a predetermined angle.

Referring to FIG. 3, the long type ultraviolet lamp 160 is fastened to the body 120 in such a manner that both ends are fixed to the connection boss 141 'facing the ultraviolet lamp 160.

Specifically, a hollow quartz tube 161 for preventing the lamp 160 from directly contacting the seawater is coupled to the two coupling bosses 141 'facing each other, and an ultraviolet lamp 160 is disposed inside the quartz tube 161 do.

A power supply unit (not shown) is connected to the ultraviolet lamp 160. When the power is supplied, the ultraviolet lamp 160 emits ultraviolet rays to sterilize the seawater passing through the body 120.

The pair of connection bosses 141 'and 141 "are arranged in parallel at the same height, so that two ultraviolet lamps 160 are arranged at the same height in parallel with each other, and the body 120, Since the pair of connection bosses 141 'and 141' 'are formed at different heights from the other pair of connection bosses 142' and 142 '', the ultraviolet lamps 160 are disposed inside the connection boss 142 ' They are placed at different heights depending on their location.

Since the connection portions formed at different heights are arranged to rotate at a predetermined angle with respect to the central axis of the body 120, the ultraviolet lamps crossing the inside of the body 120 are also arranged do.

Thus, looking down from the top of the body 120, the lamps form a network structure to increase the contact area between the sea water and ultraviolet lamps passing through the interior of the body 120.

On the other hand, when the ultraviolet lamps are arranged in the above-described manner, the ultraviolet lamps 160 do not pass through the center of the body 120 at all. Therefore, a flow stop rod 150 is disposed in the center of the inside of the body 120 in the longitudinal direction of the body 120. The flow-blocking bars 150 are fixed to the center of the body 120 by three support rods 151 and 152 (see FIG. 4), respectively. Since the seawater flows through the ultraviolet lamps 160 disposed in a net shape while passing through the center of the body 120 by the flow stopping rod 150, the ultraviolet sterilizing effect by the lamp 160 can be improved have.

Referring again to FIGS. 2 and 5, the body 120 is provided with a pressure regulating device 170 which can regulate the pressure inside the body 120.

The pressure regulating device 170 according to the present embodiment is an on-off valve 171 that automatically opens when the pressure inside the body 120 rises above a predetermined level to discharge seawater in the body 120 to the outside.

2 and 5, the pressure regulating device 170 is disposed between the seawater inlet 121 and the seawater outlet 120, preferably between the ultraviolet lamp disposed at the lowermost end and the seawater inlet 121 .

The ultraviolet reactor 100 according to the present embodiment has an endurance pressure of 7 bar and when the pressure inside the body 120 rises to 7 bar or more due to stagnation of seawater inside the body 120, (171) is automatically opened to discharge the seawater filled in the body (120).

In this way, by automatically adjusting the pressure inside the reactor 100 by the pressure regulating device 170, it is possible to effectively prevent damage to the apparatus.

100: ultraviolet reactor
121: Seawater inlet
120: Body
122: Sea water outlet
160: ultraviolet lamp
170: Pressure regulator

Claims (5)

1. An ultraviolet reactor for a ballast water treatment apparatus of a ship,
A seawater inlet through which seawater flows;
A body through which the seawater introduced into the seawater inlet passes;
A seawater outlet through which the seawater passing through the body flows out;
A plurality of ultraviolet lamps disposed inside the body so as to cross the inside of the body in a horizontal direction with respect to the ground to sterilize ultraviolet rays passing through the body; And a pressure regulator for regulating the pressure of seawater passing through the body,
The pressure regulating device is provided in the body and is an open / close valve that is automatically opened when the internal pressure of the body rises to a predetermined pressure or higher. The pressure regulating device is disposed between the ultraviolet lamp disposed at the lowermost end and the seawater inlet,
Said body extending in a direction perpendicular to said ground,
Wherein the seawater inlet port is formed in the vicinity of one end on the ground side of the body,
The seawater outlet is formed near the opposite end of the one end of the body,
Wherein the body is cylindrical and the plurality of ultraviolet lamps are disposed at different heights between the seawater inlet and the seawater outlet.
delete delete delete The method according to claim 1,
Wherein the predetermined pressure or more is 7 bar or more.

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