KR101291353B1 - Water treatment system for ship - Google Patents

Abstract

A water treatment system of a vessel for treating fresh water and ballast water used in a vessel is disclosed. Water treatment system of a ship according to an embodiment of the present invention, the desalination apparatus for producing fresh water from sea water; A seawater supply pipe for supplying seawater from the first corpse to the desalination device; Ballast water storage tanks for storing ballast water; A ballast water supply pipe for supplying ballast water from the second chestast to the ballast water storage tank; Ballast water discharge pipe for discharging the ballast water in the ballast water storage tank to the outside of the ship; And a chlorine neutralizing device for injecting chlorine neutralizer into the seawater supply pipe and the ballast water discharge pipe to neutralize chlorine in the seawater supplied to the desalination device and chlorine in the ballast water discharged to the outside of the ship.

Description

Water treatment system for ship

The present invention relates to a water treatment system of a vessel for treating fresh water and ballast water used in the vessel.

In general, fresh water is used for various purposes in ships, and ballast water is used to maintain the balance of the ship. Since both fresh water and ballast water are obtained by treating seawater, the ship is provided with a water treatment system including a desalination device and a ballast water treatment device.

The desalination apparatus installed in the ship is a device for producing fresh water from seawater, and generally produces fresh water using an evaporator or a membrane.

However, marine organisms in seawater may be attached to seawater pipes and seawater-related equipment to block or corrode pipes, causing failure of the equipment. Accordingly, the vessel is provided with a marine growth prevention system (M.G.P.S.) that prevents the growth of marine life in seawater. In general, two methods may be applied to the marine organism propagation preventing device. The first method is a sterilization method using electrodes. The basic principle is to sterilize the larvae of marine life contained in the seawater while small particles generated by applying current to the copper electrode and the aluminum electrode drifting with the seawater. That is, copper ions (Cu ++) are continuously released from the copper electrode to sterilize marine life. And, in the aluminum electrode rod, aluminum hydroxide (AlOH3) is released and attached to the inside of the pipe and the cooler where corrosion may occur, thereby forming a thin film, so that the larvae of the marine life do not land inside the pipe and the cooler, thereby proliferating the marine life. To block. The second method is to produce chlorine by electrolyzing seawater by a chlorine generating device, and the produced chlorine reacts with seawater to produce sodium hypochlorite to sterilize and remove marine organisms.

The second of the two methods of preventing marine life growth can affect the desalination system. In other words, chlorine produced by electrolyzing seawater may cause corrosion of the desalination device. Therefore, when using the electrolysis-type marine life prevention device, the concentration of chlorine in the seawater should be lowered before supplying the seawater to the desalination device. Needs to be.

In recent years, the installation of ballast water treatment systems has been increasing in ships in accordance with international law on ballast water management to prevent disturbance of marine ecosystems. The device must be installed. The ballast water treatment apparatus has various methods such as ultraviolet sterilization, electrolysis, ozone injection, and deoxygenation treatment. Among them, in the case of using the electrolysis method, chlorine generated by electrolysis of seawater is reacted with seawater to make seawater. It is a method of sterilizing marine microorganisms in. This method is the same principle as the above-mentioned electrolysis marine proliferation prevention system, but in the case of the electrolysis ballast water treatment system, a much higher concentration of chlorine is injected into the seawater in order to satisfy the sterilization standard according to international law. Sterilize microorganisms Therefore, the concentration of residual chlorine is formed in the ballast water, and the residual chlorine naturally disappears after a certain period of time. However, if the residual chlorine is not stored in the ballast water tank for a period of time and is discharged back to the sea within a short time, May cause secondary marine ecosystem destruction. Therefore, the concentration of residual chlorine in the ballast water must be lowered below a certain value before the ballast water is discharged to the sea.

Embodiments of the present invention provide a water treatment system for a vessel configured to reduce the concentration of chlorine in seawater supplied to a desalination apparatus and the residual chlorine concentration in ballast water discharged to the ocean using one chlorine neutralization apparatus.

According to an aspect of the present invention, in the water treatment system of a vessel for treating fresh water and ballast water used in the vessel,

Desalination apparatus for producing fresh water from seawater; Sea water supply pipe for supplying sea water from the first body to the desalination device; Ballast water storage tanks for storing ballast water; A ballast water supply pipe for supplying ballast water from a second bodyast to the ballast water storage tank; A ballast water discharge pipe configured to discharge ballast water in the ballast water storage tank to the sea; And a chlorine neutralization device for injecting chlorine neutralizer into the seawater supply pipe and the ballast water discharge pipe to neutralize chlorine in the seawater supplied to the desalination device and chlorine in the ballast water discharged to the sea. do.

The chlorine neutralizing device and the seawater supply pipe are connected by a first chlorinating agent injection pipe, and the chlorine neutralizing device and the ballast water discharge pipe are connected by a second chlorinating agent injection pipe, and the seawater supply pipe includes chlorine in seawater. A first concentration sensor for measuring the concentration of is installed, the ballast water discharge pipe is provided with a second concentration sensor for measuring the concentration of chlorine in the ballast water, the first chlorinating agent injection pipe is injected into the sea water supply pipe A first control valve for adjusting the injection amount of the chlorine neutralizer is installed, the second chlorinating agent inlet pipe is provided with a second control valve for adjusting the injection amount of the chlorine neutralizer injected into the ballast water discharge pipe, the first and And a control device for respectively controlling the first and second control valves based on the concentration of chlorine measured by a second concentration sensor. All.

In addition, the control device may be installed in the chlorine neutralization device.

In addition, the marine life proliferation prevention device for electrolyzing the seawater supplied from the first bust to produce chlorine, and injecting the produced chlorine into the first bust to prevent the growth of marine life in sea water; It can be provided.

The apparatus may further include a ballast water treatment apparatus for producing chlorine by electrolyzing the seawater supplied from the second chest, and injecting the produced chlorine into the ballast water supply pipe to sterilize marine microorganisms in seawater. .

According to the water treatment system of a ship according to an embodiment of the present invention, by using one chlorine neutralizing device to neutralize the chlorine in the seawater supplied to the desalination device and the residual chlorine in the ballast water discharged to the sea to the concentration of each chlorine It can be lowered below a certain value. Accordingly, there is no need to install a separate chlorine neutralizer for the treatment of the seawater supplied to the desalination device of the ship's water treatment system and the ballast water discharged to the sea from the ballast water storage tank, thereby reducing equipment installation costs. have.

1 is a block diagram showing a water treatment system of a ship according to an embodiment of the present invention.

Hereinafter, a water treatment system of a ship according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing a water treatment system of a ship according to an embodiment of the present invention.

Referring to FIG. 1, a water treatment system of a ship according to an embodiment of the present invention refers to a system for treating fresh water and ballast water used in a ship, and a desalination apparatus 110 for producing fresh water from sea water. A ballast water storage tank 120 for storing ballast water, and a chlorine neutralizing device for neutralizing chlorine in the seawater supplied to the desalination device 110 and chlorine in the ballast water discharged from the ballast water storage tank 120 to the sea. And 150.

The desalination apparatus 110 is a device for producing fresh water by treating seawater supplied from a first sea chest 101 of a vessel through a seawater supply pipe 112, and generally using two methods. Fresh water will be produced. In the first method, an evaporator is used to produce fresh water by evaporating seawater using hot steam or waste heat in a vacuum chamber and cooling the evaporated water vapor again. The second method is a membrane method, in which seawater is passed through the membrane using a high pressure pump to remove fresh salts to produce fresh water. For this, various configurations are well known, and thus a detailed description thereof will be omitted.

Freshwater produced by the desalination apparatus 110 is stored in the freshwater storage tank 116 through the freshwater supply pipe 114. Freshwater stored in the freshwater storage tank 116 is used as a variety of living water, such as drinking water, shower and kitchen for the crew, it is also used as technical water (technical water) required for mechanical devices such as boiler water.

The ship receives seawater through the first chest 101 and uses seawater as cooling water for cooling the equipment installed in the vessel. However, marine organisms in the seawater may be attached to the seawater pipes and seawater-related equipment to block or corrode the pipes and cause a breakdown in the equipment. Marine Growth Prevention System (MGPS) 130 is provided. The marine organism proliferation preventing device 130 has two methods as described above, but in the water treatment system according to an embodiment of the present invention, chlorine is produced by electrolyzing seawater, and the chlorine thus produced reacts with seawater. Marine hypothesis (130) is used to prevent the growth of marine organisms by generating hypochlorite to sterilize and remove marine organisms.

Specifically, the marine life growth prevention device 130, the chlorine generating device 134 to electrolyze the seawater supplied from the first body 101 through the seawater inlet pipe 132 to produce chlorine By injecting the chlorine thus produced into the first body 101 through the chlorine inlet tube 136, it has a configuration to prevent the growth of marine life in the sea water as described above. In this case, the concentration of chlorine injected into the seawater inside the first body 101 through the chlorine injection tube 136 is generally about 0.5 ppm, and may be injected at a higher concentration in some cases. The chlorine generator 134 is known in a variety of configurations, a detailed description thereof will be omitted.

However, the chlorine component injected into the first body 101 may be introduced into the desalination apparatus 110 through the seawater supply pipe 112 together with the seawater to cause corrosion of the desalination apparatus 110. Therefore, it is necessary to lower the concentration of chlorine in the seawater to a predetermined value or less before supplying the seawater to the desalination device 110. For this purpose, the chlorine neutralization device 150 is used. This will be described in detail later.

The ballast water storage tank 120 stores ballast water used in a ship, and the ballast water is transferred from the second chest 102 to the ballast water storage tank 120 through the ballast water supply pipe 122. Supplied. The ballast water in the ballast water storage tank 120 is discharged to the sea outside the vessel through the ballast water discharge pipe 124 as needed.

The vessel is provided with a ballast water treatment system 140 to prevent disturbance of the marine ecosystem. The ballast water treatment device 140 has various methods as described above, but in the water treatment system according to an embodiment of the present invention, chlorine generated by electrolyzing seawater is reacted with seawater to sterilize marine microorganisms in the seawater. Ballast water treatment apparatus 140 is used.

In detail, the ballast water treatment device 140 may produce chlorine by electrolyzing the seawater supplied from the second chest 102 through the seawater inlet pipe 142 in the chlorine generator 144. The produced chlorine is injected into the ballast water supply pipe 122 through the chlorine injection pipe 146 to sterilize marine microorganisms in seawater used as ballast water. At this time, the concentration of chlorine injected into the ballast water in the ballast water supply pipe 122 through the chlorine inlet pipe 146 is about 5ppm to about 10ppm.

As described above, the concentration of chlorine is formed in the ballast water in order to satisfy the sterilization standard according to the international law, but the chlorine naturally disappears after a certain period of time, but in the ballast water storage tank 120 for a certain period of time. If not stored and discharged back to sea in a short time, it can cause secondary marine ecosystem destruction by residual chlorine. Therefore, when the ballast water is discharged to the sea, it is necessary to lower the concentration of residual chlorine in the ballast water to a predetermined value or less. For this purpose, the chlorine neutralizing device 150 is used.

The chlorine neutralizing device 150 injects chlorine neutralizer into the seawater supply pipe 112 and the ballast water discharge pipe 124 to supply the desalination device 110 with the chlorine in the seawater and the ballast water storage tank 120. By neutralizing the chlorine in the ballast water discharged to the sea from), it serves to lower the concentration of each chlorine below a certain value.

In the embodiment of the present invention, the chlorine neutralizing device 150 and the seawater supply pipe 112 is connected by a first chlorine neutralizer injection pipe 151, the chlorine neutralizing device 150 and the ballast water discharge pipe ( 124 is connected by a second chlorinating agent injection tube 152.

In addition, the seawater supply pipe 112 is provided with a first concentration sensor 161 for measuring the concentration of chlorine in the seawater supplied to the desalination device 110, the first chlorine neutralizer injection pipe 151 is the seawater supply pipe The first control valve 162 may be installed to adjust the injection amount of the chlorinated neutralizer injected into the inside.

In addition, the ballast water discharge pipe 124 is provided with a second concentration sensor 163 for measuring the concentration of chlorine in the ballast water discharged from the ballast water storage tank 120 to the sea, the second chlorine neutralizer injection pipe ( 152 may be provided with a second control valve 164 for adjusting the injection amount of the chlorine neutralizer injected into the ballast water discharge pipe (124).

In addition, a control device for controlling the first control valve 162 and the second control valve 164 based on the concentration of chlorine measured by the first concentration sensor 161 and the second concentration sensor 163, respectively. 160 may be further provided, the control device 160 may be installed in the chlorine neutralization device (150).

In detail, the control device 160 continuously monitors the concentration of chlorine in the seawater measured by the first concentration sensor 161 and based on the measured concentration of the chlorine, the first control valve 162. By controlling the amount of chlorine neutralizer injected into the seawater supply pipe 112, the concentration of chlorine in the seawater supplied to the desalination apparatus 110 can be lowered to a reference value, that is, 0.01 ppm or less. In addition, the control device 160 continuously monitors the concentration of chlorine in the ballast water measured by the second concentration sensor 163 and based on the measured concentration of the chlorine, the second regulating valve 164. By controlling the amount of chlorine neutralizer injected into the ballast water discharge pipe 124, the concentration of residual chlorine in the ballast water discharged to the sea from the ballast water storage tank 120 to lower the reference value, that is, less than 0.02ppm Can be.

As described above, according to the water treatment system of the ship according to the embodiment of the present invention, from the chlorine and ballast water storage tank 120 in the seawater supplied to the desalination device 110 using only one chlorine neutralization device 150 It is possible to neutralize the residual chlorine in the ballast water discharged to the sea to lower the concentration of each chlorine below a certain value. Accordingly, it is not necessary to install a separate chlorine neutralization device 150 for the treatment of seawater supplied to the desalination device 110 of the water treatment system of the ship and the ballast water discharged to the sea from the ballast water storage tank 120. Thus, the equipment installation cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of protection of the present invention should be defined by the appended claims.

101 ... The First Chestist 102 ... The Second Chestist
110 Desalination System 112 Seawater Supply Pipe
114 Freshwater Supply Pipe 116 Freshwater Storage Tank
120 ... ballast water storage tanks 122 ... ballast water supply lines
124 ... ballast water discharge pipe 130 ... marine life prevention device
132,142 Seawater inlet pipe 134,144 Chlorine generator
136,146 Chlorine infusion tube 140 Ballast water treatment unit
Chlorine neutralizer 151
152 ... 2nd chlorinated neutralizer injection pipe 160 ... control device
161,163 ... Concentration sensor 162,164 ... Control valve

Claims (5)

In the water treatment system of the ship to treat fresh water and ballast water used in the ship,
Desalination apparatus for producing fresh water from seawater;
Sea water supply pipe for supplying sea water from the first body to the desalination device;
Ballast water storage tanks for storing ballast water;
A ballast water supply pipe for supplying ballast water from a second bodyast to the ballast water storage tank;
A ballast water treatment device for producing chlorine by electrolyzing the seawater supplied from the second strait, and injecting the produced chlorine into the ballast water supply pipe to sterilize marine microorganisms in seawater;
A ballast water discharge pipe configured to discharge ballast water in the ballast water storage tank to the sea; And
A chlorine neutralization device for neutralizing chlorine in the seawater supplied to the desalination device and chlorine in the ballast water discharged to the sea by injecting a chlorine neutralizer into the seawater supply pipe and the ballast water discharge pipe; system. The method of claim 1,
The chlorine neutralizing device and the seawater supply pipe are connected by a first chlorine neutralizer injection pipe, the chlorine neutralizing device and the ballast water discharge pipe is connected by a second chlorine neutralizer injection pipe,
The seawater supply pipe is provided with a first concentration sensor for measuring the concentration of chlorine in the seawater, the ballast water discharge pipe is provided with a second concentration sensor for measuring the concentration of chlorine in the ballast water,
The first chlorine neutralizer injection pipe is provided with a first control valve for adjusting the injection amount of the chlorine neutralizer injected into the seawater supply pipe, the second chlorine neutralizer injection pipe is injected amount of the chlorine neutralizer injected into the ballast water discharge pipe A second control valve is installed to adjust the
And a control device for controlling the first and second control valves respectively based on the concentrations of chlorine measured by the first and second concentration sensors. The method of claim 2,
The control device is a water treatment system of a ship, characterized in that installed in the chlorine neutralization device. In the water treatment system of the ship to treat fresh water and ballast water used in the ship,
Desalination apparatus for producing fresh water from seawater;
An apparatus for preventing the proliferation of marine organisms which electrolyzes the seawater supplied from the first corpse to produce chlorine, and injects the produced chlorine into the first corpse to prevent the growth of marine organisms in the seawater;
A seawater supply pipe for supplying seawater from the first corpse to the desalination device;
Ballast water storage tanks for storing ballast water;
A ballast water supply pipe for supplying ballast water from a second bodyast to the ballast water storage tank;
A ballast water discharge pipe configured to discharge ballast water in the ballast water storage tank to the sea; And
A chlorine neutralization device for neutralizing chlorine in the seawater supplied to the desalination device and chlorine in the ballast water discharged to the sea by injecting a chlorine neutralizer into the seawater supply pipe and the ballast water discharge pipe; system. delete

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