KR20130102231A - Ship including ballast water treatment system - Google Patents

Abstract

PURPOSE: A ship including a ballast water treatment system is provided to filter seawater flowing into a storage tank using a preprocessing filter and sterilize the filtered seawater using an electrolysis device. CONSTITUTION: A ship (10) including a ballast water treatment system (200) comprises a storage tank (110), an inlet pump (120), a preprocessing filter (130), an electrolysis device (140), a discharge path (153), and a connection path (26). The storage tank stores seawater supplied from the outside therein. The inlet pump is arranged on a seawater inlet path (151) connected to the storage tank. The preprocessing filter is arranged under the inlet pump and filters seawater in the seawater inlet path. The electrolysis device is arranged on a bypass path (152) for bypassing a portion of the seawater to the seawater inlet path and generates chlorine by electrolyzing the seawater. The discharge path discharges the ballast water from the storage tank to the outside.

Description

Ship including ballast water treatment system

The present invention relates to a ship comprising a ballast water treatment system.

As the exchanges between the countries became active, the trade business through ships also developed greatly, so that seawater from other countries was carried on the ship's ballast tanks and affected the marine ecosystem.

Due to these concerns, a treaty was signed to regulate the replacement of ballast water in all ships, requiring the installation of ballast water treatment systems for all new ships starting in 2009 and for all ships by 2015. Therefore, active research activities on ballast water treatment devices are being conducted in various countries around the world.

Embodiments of the present invention seek to provide a vessel comprising a ballast water treatment system configured to effectively treat ballast water.

According to an aspect of the invention, the storage tank capable of storing the sea water supplied from the outside; An inflow pump disposed on an inflow path of seawater flowing into the storage tank from the outside;

A pretreatment filter disposed downstream of the inflow pump and configured to filter organisms of a predetermined size or more contained in the seawater of the inflow path; An electrolytic apparatus disposed on a bypass to bypass a portion of the seawater of the inflow path and return to the inflow path downstream from the pretreatment filter, and generate chlorine by electrolyzing the seawater of the bypass; A discharge path for discharging a ballast from the storage tank to the outside; And a ballast water treatment system including a connection path connecting the inflow passage or the discharge passage to a ballast tank of a ship which is not provided with a ballast water treatment system.

In addition, when the connection passage connects the discharge passage and the ballast tank, the ballast water treated by the pretreatment filter and the electrolytic apparatus may be supplied from the storage tank to the ballast tank.

The apparatus may further include a neutralization unit disposed on a discharge path of seawater discharged from the storage tank to the outside and neutralizing residual chlorine in the seawater stored in the storage tank, wherein the connection path connects the inflow path and the ballast tank. In this case, the ballast water flowing from the ballast tank through the connection path may be neutralized in the neutralization unit and discharged through the discharge path.

In addition, the neutralizing unit may neutralize residual chlorine using at least one of sodium thiosulfate, sodium sulfite, sodium metabisulfite, and sodium acid sulfite.

In addition, the neutralization unit may be less than 0.2ppm concentration of residual chlorine in the sea water discharged to the outside through the end of the discharge path.

In addition, the auxiliary tank is connected to the first branch flow path branched between the pretreatment filter and the inlet pump of the inlet path; And a three-way valve disposed at a branch point of the inflow path with respect to the first branch flow path.

The apparatus may further include an auxiliary pump disposed in a second branch flow path connecting a point between the auxiliary tank and the pretreatment filter of the inflow path and the three-way valve.

According to embodiments of the present invention, the seawater flowing into the storage tank from the outside through the inlet pump is primarily filtered using a pretreatment filter, and secondly, the seawater used as ballast water is sterilized using an electrolytic device. Can be processed effectively.

1 is a view schematically showing a vessel including a ballast water treatment system according to a first embodiment of the present invention,
2 is a view schematically showing a ship including a ballast water treatment system according to a second embodiment of the present invention,
3 is a view schematically showing a ship including a ballast water treatment system according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or corresponding parts throughout the several views, Is omitted.

In addition, with respect to a vessel including a ballast water treatment system according to an embodiment of the present invention, the other components of the known vessel can obscure the subject matter of the present invention, the detailed description will be omitted, the ballast water treatment system Explain.

1 is a view schematically showing a vessel including a ballast water treatment system according to a first embodiment of the present invention. Referring to FIG. 1, the ballast water treatment system 100 according to the first embodiment includes a storage tank 110, an inflow pump 120, a pretreatment filter 130, and an electrolysis device 140. The ballast water treatment system 100 filters the seawater flowing into the storage tank 110 from the outside through the inflow pump 120 primarily using the pretreatment filter 130, and secondly, the electrolytic apparatus ( 140) can be effectively sterilized using seawater as ballast water.

The storage tank 110 receives and stores seawater from the outside. Seawater supplied to the storage tank 110 may be supplied from the surrounding sea of the ballast water treatment system 100. In this case, the seawater supplied to the storage tank 110 may be introduced through a sea chest 12 provided in the hull 11. The sea chest 12 is connected to the inflow passage 151 of the seawater flowing into the storage tank 110. The seawater stored in the storage tank 110 may be used as the ballast water of another vessel 20.

An inflow pump 120 is disposed on the inflow path 151. The inflow pump 120 pumps external seawater to the storage tank 110 through the sichester 12.

Downstream of the inlet pump 120 is a pretreatment filter 130. The pretreatment filter 130 may filter organisms of a predetermined size or more. In this case, the pretreatment filter 130 may filter the organism having a size of 50 micrometers or more.

Downstream of the pretreatment filter 130, a bypass 152 is formed to bypass a portion of the seawater of the inlet 151 and return to the inlet 151 again. An electrolysis device 140 is disposed in the bypass circuit 152. The electrolytic device 140 generates chlorine by electrolyzing the seawater of the bypass 152. Chlorine produced by the electrolytic device 140 is introduced into the inlet 151 through the bypass 152. In this case, organisms included in seawater passing through the pretreatment filter 130 to the storage tank 110 side are disinfected by chlorine generated by the electrolytic device 140.

Hereinafter, an operation and use example of the ballast water treatment system 100 according to the first embodiment will be described with reference to FIG. 1.

The ballast water treatment system 100 according to the first embodiment may treat the seawater to be used as the ballast water in a vessel 20 that does not have a separate ballast water treatment system.

More specifically, the seawater to be used as the ballast water is introduced through the sea chest 12 of the hull 11 in which the ballast water treatment system 100 is disposed. In this case, the inflow pump 120 disposed on the inflow path 151 pumps the seawater outside the hull 11 to the storage tank 110. Seawater introduced into the inlet 151 moves to the storage tank 110 through the inlet 151.

Seawater moving through the inlet 151 is filtered by the pretreatment filter 130. In this case, the pretreatment filter 130 filters out organisms having a predetermined size, for example, a size of 50 micrometers or more.

The seawater filtered by the pretreatment filter 130 is disinfected by chlorine generated by the electrolytic device 140. Chlorine produced by the electrolytic device 140 is introduced into the inlet 151 through the bypass 152.

The seawater stored in the storage tank 110 is supplied as ballast water to other vessels 20 that do not include a separate ballast water treatment system through a discharge path 153 included in the ballast water treatment system 100. . In this case, the connection passage 26 connected to the ballast tank 22 of the other vessel 20 and the discharge passage 153 connected to the storage tank 110 may be interconnected, and the seawater of the storage tank 110 may have different vessels. 20 may be supplied to the ballast tank 22.

In this case, a discharge pump (not shown) may be disposed on the discharge 153.

As described above, according to the first embodiment, the seawater filtered and disinfected by the ballast water treatment system 100 is supplied to the ballast tank 22 of the other vessel 20 so that the other vessel 20 receives the uncontaminated ballast water. It can be used, and after use, it can be discharged into the sea, thereby effectively preventing the destruction of the ecosystem by seawater in other regions.

According to the first embodiment, the ballast water treatment system 100 has been described as being applied to the vessel 10, but this is only an example, and the ballast water treatment system may be disposed on land, such as a harbor.

2 is a view schematically showing a ship including a ballast water treatment system according to a second embodiment of the present invention. 2, the ballast water treatment system 200 according to the second embodiment includes a storage tank 110, an inflow pump 120, a pretreatment filter 130, an electrolytic device 140, and a neutralization unit. 160.

Hereinafter, referring to FIG. 2, the ballast water treatment system 200 according to the second embodiment will be described based on differences from the ballast water treatment system 100 according to the first embodiment, and the same reference numerals are used. The description of the configuration is omitted.

The storage tank 110 receives and stores seawater from the outside. In this case, the storage tank 110 may receive and store seawater that has been used as ballast water in another vessel 20 outside. When the connecting passage 26 connected to the ballast tank 22 of the other vessel 20 and the inflow passage 151 connected to the storage tank 110 are interconnected, the seawater of the ballast tank 22 of the other vessel 20 is connected. It may be supplied to the storage tank 110.

Seawater is filtered by the pretreatment filter 130 and sterilized by the chlorine produced by the electrolytic device 140 in the course of moving from the ballast tank 22 of the other vessel 20 to the storage tank 110.

The ballast water treatment system 200 according to the present embodiment may further include a neutralization unit 160 for neutralizing residual chlorine contained in seawater discharged from the storage tank 110 to the outside. The seawater stored in the storage tank 110 contains residual chlorine. When the residual chlorine concentration of the seawater stored in the storage tank 110 is high, the seawater discharged from the storage tank 110 may destroy the ecosystem of the discharged sea. Therefore, it is necessary to lower the residual chlorine concentration of the seawater discharged from the storage tank 110 to an appropriate level.

The neutralization unit 160 neutralizes residual chlorine in the seawater discharged from the storage tank 110 to the outside. The neutralization unit 160 may neutralize residual chlorine using at least one of sodium thiosulfate, sodium sulfite, sodium metabisulfite, and sodium acid sulfite.

The neutralization unit 160 may allow the concentration of residual chlorine in the seawater discharged to the outside through the end of the discharge path 152 to be less than 0.2 ppm.

A discharge pump (not shown) for pumping seawater may be disposed on the discharge path 152.

Hereinafter, an example of operation and use of the ballast water treatment system 200 according to the second embodiment will be described with reference to FIG. 2.

The ballast water treatment system 200 according to the second embodiment may process the ballast water used in the vessel 20 that does not have a separate ballast water treatment system.

In more detail, seawater, which has been used as ballast water of another vessel 20, is introduced into the storage tank 110 through the connection path 26 and the inflow path 151. In this case, another vessel 20 is located adjacent to the vessel 10 including the ballast water treatment system 200 according to the second embodiment.

An inflow pump 120 disposed on the inflow path 151 pumps seawater from the ballast tank 22 of another vessel 20 to the storage tank 110. Seawater introduced into the inlet 151 moves to the storage tank 110 through the inlet 151.

Seawater moving through the inlet 151 is filtered by the pretreatment filter 130. The seawater filtered by the pretreatment filter 130 is disinfected by chlorine generated by the electrolytic device 140. Chlorine produced by the electrolytic device 140 is introduced into the inlet 151 through the bypass 152.

The sea water stored in the storage tank 110 is discharged to the sea outside the hull 110 through the discharge passage 153. In this case, the neutralization unit 160 disposed on the discharge path 153 neutralizes the residual chlorine contained in the seawater to lower the concentration of the residual chlorine to an appropriate level or less.

As described above, according to the second embodiment, the seawater used as the ballast water in the other vessel 20 is filtered and disinfected by the ballast water treatment system 200 and discharged into the sea outside the hull 11, whereby the other vessel 20 The seawater, which was used as ballast water in Korea, can be effectively treated and discharged into the sea, thereby effectively preventing the destruction of ecosystems caused by seawater in other regions.

In addition, by neutralizing the residual chlorine contained in the filtered and disinfected seawater to be discharged to the outside can also prevent ecosystem destruction of the discharge water.

3 is a view schematically showing a ship including a ballast water treatment system according to a third embodiment of the present invention. 3 shows a ballast water treatment system 300 according to a third embodiment applied to a ship. Referring to FIG. 3, the ballast water treatment system 300 according to the third embodiment includes a storage tank 110, an inflow pump 120, a pretreatment filter 130, an electrolytic device 140, and a neutralization unit. 160, an auxiliary tank 170, and a three-way valve 180.

 Hereinafter, the ballast water treatment system 300 according to the third embodiment will be described with reference to FIG. 3 with the differences from the ballast water treatment systems 100 and 200 according to the first and second embodiments. Description of the same configuration using reference numerals is omitted.

According to the third embodiment, the auxiliary tank 170 is connected with the first branch flow path 154 branched at a point between the pretreatment filter 130 and the inflow pump 120 of the inflow path 151. The auxiliary tank 170 is used to store excess seawater when the seawater exceeding the capacity of the storage tank 110 flows into the inflow path 151.

For example, when the storage tank 110 is filled with seawater, the seawater pumped by the inflow pump 120 moves to the auxiliary tank 170 side. In this case, seawater does not move to the storage tank 110 side.

To this end, a three-way valve 180 may be disposed at a branch point of the inflow passage 151 with respect to the first branch flow passage 154. The three-way valve 180 selectively moves the seawater pumped by the inflow pump 120 to the storage tank 110 or the auxiliary tank 170.

The seawater stored in the auxiliary tank 170 moves to the pretreatment filter 130 disposed on the inflow path 151 through the second branch flow path 155 when the storage tank 110 has a margin. The second branch flow path 155 connects a point between the pretreatment filter 130 and the three-way valve 180 of the inflow path 151. An auxiliary pump 190 may be disposed in the second branch flow path 155. The auxiliary pump 190 pumps the seawater stored in the auxiliary tank 170 to move to the pretreatment filter 130 disposed on the inlet 151.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

110: storage tank
120: inlet pump
130: pretreatment filter
140: electrolytic device

Claims (7)

A storage tank capable of storing sea water from the outside;
An inflow pump disposed on an inflow path of seawater flowing into the storage tank from the outside;
A pretreatment filter disposed downstream of the inflow pump and configured to filter organisms of a predetermined size or more contained in the seawater of the inflow path;
An electrolytic apparatus disposed on a bypass to bypass a portion of the seawater of the inflow path and return to the inflow path downstream from the pretreatment filter, and generate chlorine by electrolyzing the seawater of the bypass;
A discharge path for discharging a ballast from the storage tank to the outside; And
And a connection passage connecting the inflow passage or the discharge passage to a ballast tank of an adjacent vessel not provided with a ballast water treatment system.
Vessels containing ballast water treatment systems.
The method of claim 1,
When the connecting passage connects the discharge passage and the ballast tank,
The ballast water treated by the pretreatment filter and the electrolytic device is supplied from the storage tank to the ballast tank.
Vessels containing ballast water treatment systems. The method of claim 1,
It further comprises a neutralization unit disposed on the discharge path of the seawater discharged to the outside from the storage tank, and neutralizing the residual chlorine of the seawater stored in the storage tank,
When the connection path connects the inflow path and the ballast tank, the ballast water flowing from the ballast tank through the connection path is neutralized in the neutralization unit and discharged through the discharge path.
Vessels containing ballast water treatment systems.
The method of claim 3,
The neutralizing unit is used to neutralize residual chlorine using at least one of sodium thiosulfate, sodium sulfite, sodium metabisulfite, and sodium acid sulfite.
Vessels containing ballast water treatment systems.
The method of claim 2,
The neutralizing unit is to reduce the concentration of residual chlorine in the sea water discharged to the outside through the end of the discharge path to less than 0.2ppm
Vessels containing ballast water treatment systems. 6. The method according to any one of claims 1 to 5,
An auxiliary tank connected to a first branch flow path branched at a point between the pretreatment filter of the inflow path and the inflow pump; And
And a three-way valve disposed at a branch point of the inflow passage with respect to the first branch flow passage.
Vessels containing ballast water treatment systems.
The method according to claim 6,
And an auxiliary pump disposed in a second branch flow path connecting a point between the auxiliary tank and the pretreatment filter of the inflow path and the three-way valve.
Vessels containing ballast water treatment systems.

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