KR100549838B1 - Apparatus and Method for Treatment of Ships' Ballast Water - Google Patents

Abstract

The present invention relates to a ballast water treatment apparatus and method of the ship, and is provided with a pretreatment unit for filtering and separating the seawater supplied through the intake line, and is provided with a pump to introduce a portion of the seawater passing through the pretreatment unit. A seawater supply unit is provided to store the seawater passed through the pump and the flow meter, and a generator is provided to electrolyze the seawater supplied from the seawater supply unit to generate sodium hypochlorite, and the sodium hypochlorite generated by the generator Is provided with a storage tank for storing the, a concentration measuring device for measuring the concentration of sodium hypochlorite supplied from the reservoir is provided, and the controlled supply and concentration of sodium hypochlorite through the concentration meter and flow meter to control the supply A seawater conversion unit provided with a sodium chlorate supply unit is provided. Then through the ballast water treatment system to remove various pests contained in the ballast water effectively, so as to be drained to a so as to prevent the destruction or disturbance of marine life.

Marine, ballast water, ballast tanks, sodium hypochlorite

Description

Apparatus and Method for Treatment of Ships' Ballast Water}

1 is a schematic block diagram showing the configuration of a ballast water treatment apparatus according to the present invention,

2 is a schematic configuration diagram showing another embodiment of the present invention;

3 is a schematic diagram showing another embodiment of the present invention;

4 is a schematic configuration diagram of a ballast water treatment apparatus installed with an ultraviolet irradiation unit according to the present invention,

5 is a flow chart showing a processing procedure for removing harmful substances contained in ballast water according to the present invention.

-Explanation of symbols for the main parts of the drawings-

10: pretreatment unit 20: seawater conversion unit

21: pump 22,27: flow meter

23: seawater supply unit 24: generator

25: reservoir 26: concentration meter

28: sodium hypochlorite supply unit 30: ultraviolet irradiation unit

100: intake line 200: ballast tank

300: drainage line

The present invention relates to a ballast water treatment apparatus and method of a ship, in particular, the ballast water of a ship that can effectively remove various harmful substances contained in the ballast water by injecting sodium hypochlorite generated by electrolysis of seawater into the ballast water It relates to a processing apparatus and a method.

In general, cargo ships, which account for more than 80% of the world's cargo, operate with ballast tanks in seawater to ensure efficient operation, balance, and stability of propellers and rudders in the water when there is not enough cargo. In addition, the water loaded in the ballast tank is commonly referred to as ballast water. This ballast water is a heavy load to adjust the draft and trim of the ship, and it functions to maintain the balance and stability of the ship. And the rudder serve as an aid to effectively operate in water.

Such ballast water has been used since the late 1870s when ships started to be built of steel, and some ships use ore or sand as ballast without loading ballast water, but today seawater or fresh water is used as ballast. It is common to do it.

On the other hand, ballast water, which is taken from seawater or fresh water from ports, waterways, and oceans and is loaded into ballast tanks, is usually collected with seawater or freshwater, along with ballast water, and transferred to ballast tanks of ships. The intake and discharge of ballast water may vary depending on the degree of industrial development and the absence of resources, etc. in the country to which the vessel is calling.However, due to the nature of the vessel, the volume of ballast water or bulk carriers In this case, the exporters of raw materials such as oil producing countries or iron ore are more likely to be exposed to various pathogens and foreign marine species parasitic in ballast water than the importing countries. According to data from the International Maritime Organization (IMO), it is estimated that more than 10 billion tons of ballast water is transported annually worldwide.

The biggest problem of the ballast water is that the ballast water is basically used as a medium for spreading foreign marine species, that is, the organisms or pathogens in a specific sea area contained in the ballast water are completely different by the vessel containing the ballast water. It is transported to other seas and causes side effects that disturb the environment and ecosystem of the sea area. Problems caused by cross-border movement of species in the ballast water cause not only ecosystem disturbances but also significant damage to coastal industries and other commercial activities or resources.

The problems caused by ballast water can be listed in terms of destroying or disturbing existing indigenous ecosystems, threatening fisheries and human health by pathogens and toxic organisms, and enormous losses in species removal and other fishery economic aspects. There was a problem that caused damage.

Accordingly, the present invention has been made to solve the above problems, by injecting sodium hypochlorite generated by electrolysis of seawater into the ballast water to remove various harmful substances contained in the ballast water, the ballast water in the drainage process It is an object of the present invention to provide a ballast water treatment apparatus and method for a vessel which can reduce the sodium hypochlorite contained in the drainage to prevent the destruction or disturbance of the marine ecosystem.

The present invention for achieving the above object is provided with a pre-treatment unit for filtering and separating the sea water supplied through the intake line, a pump is provided to introduce a portion of the sea water passed through the pre-treatment unit, the pump And a seawater supply unit configured to store the seawater passing through the flowmeter, and a generator configured to electrolyze the seawater supplied from the seawater supply unit to generate sodium hypochlorite, and to store the sodium hypochlorite generated in the generator. A storage tank is provided, the concentration meter is provided to measure the concentration of sodium hypochlorite supplied from the reservoir, the sodium hypochlorite supply to control and supply the supply amount and concentration of sodium hypochlorite through the concentration meter and flow meter Characterized in that the seawater conversion unit is provided with an additional The.

On the other hand, the ballast water treatment method according to the invention, the intake step of introducing the seawater into the vessel through the intake line; A pretreatment step of filtering and separating the seawater supplied through the intake line; A pumping step of introducing a part of the seawater that has passed through the pretreatment step; A measuring and storing step of measuring an amount of seawater withdrawn through the pumping step; Sodium hypochlorite production step of electrolyzing the seawater to produce sodium hypochlorite; A storage and measuring step of measuring the concentration of sodium hypochlorite supplied while storing sodium hypochlorite generated through the sodium hypochlorite generation step; Sodium hypochlorite supplying step of controlling the amount and concentration of the sodium hypochlorite to be injected into the ballast water; It characterized in that it comprises a drainage step of draining the sodium hypochlorite contained in the ballast water to the outside of the ship.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram showing a configuration of a ballast water treatment apparatus according to the present invention, Figure 2 is a schematic configuration diagram showing another embodiment of the present invention, Figure 3 is another embodiment of the present invention 4 is a schematic configuration diagram, and FIG. 4 is a schematic configuration diagram of a ballast water treatment apparatus in which an ultraviolet ray irradiation unit is installed according to the present invention, and FIG. 5 is a processing sequence for removing harmful substances contained in ballast water according to the present invention. Is a flow chart showing.

The present invention, in the ballast water treatment apparatus to remove the harmful substances of the ballast water stored in the ballast tank 200 provided between the intake line 100 and the drain line 300, the ballast water treatment apparatus,

A pretreatment unit 10 is provided to filter and separate the seawater supplied through the intake line 100, and a pump 21 is provided to introduce a portion of the seawater that has passed through the pretreatment unit 10. A seawater supply unit 23 is provided to store the seawater passing through the pump 21 and the flowmeter 22 of the seawater. The seawater supplied from the seawater supply unit 23 is electrolyzed to generate sodium hypochlorite. The generator 24 is provided, the reservoir 25 is provided to store the sodium hypochlorite generated by the generator 24, the concentration to measure the concentration of sodium hypochlorite supplied from the reservoir 25 A seawater conversion unit 20 having a measuring device 26 is provided with a sodium hypochlorite supply unit 28 which controls and supplies a supply amount and a concentration of sodium hypochlorite which has passed through the concentration measuring unit 26 and the flow meter 27. Come up with Lose.

Here, the sodium hypochlorite supply unit 28 includes a concentration controller for the concentration control of sodium hypochlorite and a pump for the supply of sodium hypochlorite, the seawater conversion unit 20 is a separate for operation of each device Naturally, the power supply can be connected.

In addition, by providing an ultraviolet irradiation unit 30 to irradiate ultraviolet rays to the ballast water drained through the drain line 300 can be configured to shorten the reduction time of the sodium hypochlorite.

Hereinafter, the operation of the present invention will be described in detail.

According to the present invention, as shown in Figure 1, the seawater taken into the vessel through the intake line 100 is introduced through the pump 21, the amount of seawater flowing through the flow meter 22 is measured A predetermined amount is stored in the seawater supply unit 23.

Since sea water supplied from the water supply part 23 there is sent to electrolysis to the generator 24 to produce the same procedure as set forth, when the seawater electrolysis main component of sodium chloride (NaCl), sodium ion (Na ⁺⁾ and decomposed with water (H ₂ O) is a hydrogen ion and hydroxyl groups (OH ^{-) -} chloride (Cl) is decomposed into. Then, sodium ions and hydroxyl groups meet to form sodium hydroxide (NaOH), and chlorine ions (Cl ⁻ ) are attached thereto to form sodium hypochlorite (NaOCl) and stored in the storage tank 25.

Thereafter, sodium hypochlorite supplied from the reservoir 25 is adjusted to an appropriate concentration through the sodium hypochlorite supply part 28 and injected into the water intake line 100.

Accordingly, due to the chemical properties of the sodium hypochlorite which is injected into the intake line 100 and mixed with the ballast water, various harmful substances contained in the ballast water are stored in the ballast tank 200.

Thereafter, the sodium hypochlorite contained in the ballast water in the ballast tank 200 is reduced to sodium chloride by a natural reducing property after a predetermined time elapses and is converted into natural seawater, and the natural seawater is drained. It is discharged to the outside of the ship through 300.

On the other hand, as shown in Figure 4, in the process of draining the ballast water in the ballast tank 200, ultraviolet rays are irradiated through the ultraviolet irradiation unit 30 installed in the drainage line 300, having an insecticidal and sterilizing effect Sodium hypochlorite (NaOCl) has a property that is rapidly converted to sodium chloride (NaCl) when exposed to sunlight or ultraviolet rays, the ballast drained to the drain line 300 by the ultraviolet rays irradiated from the ultraviolet irradiation unit 20 Sodium hypochlorite in water is reduced and discharged more quickly to natural sea water.

Therefore, the sodium hypochlorite may be naturally reduced and discharged in consideration of the type of ship, the route, and the sailing time, and may be additionally reduced and discharged by additionally installing the ultraviolet irradiation unit 30.

Meanwhile, in the above-described embodiment, the case where the seawater conversion unit 20 is connected to the intake line 100 has been described. However, as shown in FIGS. 2 to 3, the seawater conversion unit 20 uses the ballast tank 200. Or of course, it can be carried out by connecting to the drainage line 300, the operation principle is the same as described above, so a detailed description will be omitted.

And, if the treatment method for removing the harmful substances contained in the ballast water with reference to Figure 5, the seawater is withdrawn through the intake line (100) (S1), by filtering and separating the intake water is unnecessary First filtering the material (S2), and then introducing a portion of the withdrawn seawater (S3) to measure and store the amount of seawater withdrawn (S4); By electrolyzing the seawater withdrawn to produce sodium hypochlorite (S5), by storing the sodium hypochlorite and measuring the concentration of sodium hypochlorite supplied (S6), by controlling the supply amount and concentration of the sodium hypochlorite Inject into ballast water (S7). Thereafter, the sodium hypochlorite contained in the ballast water through the drainage line 300 may be reduced and drained to the outside of the ship (S8), thereby removing the harmful substances contained in the ballast water.

As described above, according to the present invention, sodium hypochlorite generated by electrolysis of seawater is injected into the ballast water to remove various harmful substances contained in the ballast water, and during the draining process, sodium hypochlorite contained in the ballast water is removed. It is configured to reduce the drainage, it is possible to effectively remove the cost effective compared to the conventional ballast water removal device and method, as well as to prevent the destruction or disturbance of marine ecosystems.

Claims (6)

To filter and separate the seawater supplied through the intake line 100 to remove the harmful substances of the ballast water stored in the ballast tank 200 provided between the intake line 100 and the drain line 300 with sodium hypochlorite. In the ballast water treatment apparatus provided with a pretreatment unit 10, A pump 21 is provided to introduce a portion of the seawater that has passed through the pretreatment unit 10, and a seawater supply unit 23 configured to store the seawater passing through the pump 21 and the flow meter 22 is provided. And, the generator 24 is provided to generate sodium hypochlorite by electrolyzing the seawater supplied from the seawater supply unit 23, the reservoir 25 to store the sodium hypochlorite generated in the generator 24 Is provided, the concentration meter 26 is provided to measure the concentration of sodium hypochlorite supplied from the reservoir 25, the supply amount and concentration of sodium hypochlorite passed through the concentration meter 26 and the flow meter 27 The seawater conversion unit 20 is provided with a sodium hypochlorite supply unit 28 to control and supply the UV irradiation unit 30 to irradiate ultraviolet rays to the ballast water drained through the drain line 300. Go Ballast water treatment apparatus for a ship, characterized in that provided. In the ballast water treatment method to remove the harmful substances of the ballast water stored in the ballast tank 200 provided between the intake line 100 and the drain line 300, Water intake step (S1) for introducing sea water into the vessel through the intake line; A pretreatment step (S2) of filtering and separating the seawater supplied through the intake line (100); A pumping step (S3) for introducing a portion of the seawater passed through the pretreatment step (S2); A measurement and storage step (S4) of measuring the amount of seawater taken through the pumping step (S3); Generating sodium hypochlorite by electrolyzing the seawater to produce sodium hypochlorite (S5); A storage and measuring step (S6) of storing sodium hypochlorite generated through the sodium hypochlorite generation step (S4) and measuring the concentration of sodium hypochlorite supplied; Sodium hypochlorite supplying step of controlling the supply amount and concentration of the sodium hypochlorite to be injected into the ballast water (S7); Ballast water treatment method of the ship comprising a drainage step (S8) for reducing the sodium hypochlorite contained in the ballast water to drain to the outside of the ship. delete delete delete delete

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