KR101313625B1 - Ballast water circuit system, and ship having the same - Google Patents

Abstract

Ballast water circulation systems and vessels having the same are disclosed. Ballast water circulation system according to an embodiment of the present invention is a ballast water treatment unit for sterilizing microorganisms contained in the ballast water used for the balance of the ship; Two or more storage tanks for storing sterilized ballast water; A first piping system connected to each of the storage tanks by a first piping line and allowing the ballast water discharged from one or more of the storage tanks to be introduced into the ballast water treatment unit so as to be re-sterilized; And a second piping system connected to the storage tanks by a second piping line and allowing the ship to be balanced by moving the ballast water between the storage tanks.

Description

Ballast water circulation system and vessel equipped with it {BALLAST WATER CIRCUIT SYSTEM, AND SHIP HAVING THE SAME}

The present invention relates to a ballast water circulation system and a vessel having the same.

Ships typically have a storage tank that stores ballast water at the bottom of the ship for stability and balance of the ship. In other words, the vessel takes in a certain amount of seawater when the cargo is not sufficiently loaded and uses the ballast water to maintain the stability and balance of the vessel.

Ballast water can act as a transport channel for harmful aquatic organisms because it is continuously injected and discharged during loading and unloading of cargo on ships. In other words, ballast water contains a variety of micro marine organisms (hereinafter referred to as 'microorganisms'). Therefore, if a vessel inflows seawater from a country or region berthing for use as ballast water, and then moves to another country or region to release seawater, microorganisms mixed in the seawater inflow process may spread to other regions. have.

The movement of these microorganisms can cause severe ecosystem disturbances such as fluctuations in representative species and red tide. To prevent this, the International Maritime Organization (IMO) has concluded a ballast water management agreement that has established discharge standards for ballast water. The ballast water management agreement requires that ballast water be exchanged on the high seas before arriving at its destination, and the main goal is to mandate the installation of ballast water treatment systems for all ships.

Accordingly, a method for effectively removing microorganisms introduced into a storage tank for storing ballast water has been continuously researched and developed. For example, a method of filtering seawater flowing into a storage tank through a filter, removing ultraviolet rays by applying UV treatment, ozone treatment, and chemicals into the introduced seawater is used. Recently, an electrolytic ballast treatment method for converting sodium chloride (NaCl) contained in seawater into sodium hypochlorite (NaOCl) by electrolysis to kill marine microorganisms has been proposed.

1 shows a conventional ballast water treatment system.

Referring to FIG. 1A, the conventional ballast water treatment system 10 introduces seawater (ballast water) into the ballast water treatment unit 30 by means of ballast pumps 22 and 24. At this time, the ballast water treatment system 10 includes valves 11 to 16 for controlling discharge and inflow of the ballast water (fluid), and the valve 11 and the valve 13 are open when the ballast water is introduced. do.

Next, the ballast water treatment unit 30 sterilizes the introduced ballast water. The sterilized ballast water is stored in each storage tank 40.

Referring to Figure 1 (b), when the ship discharges the ballast water, the ballast water stored in each storage tank 40 is discharged outboard by the ballast water pump (22, 24). At this time, the valve 12 and the valve 14 are in an open state.

However, the above-described ballast water treatment system 10 is first sterilized over time, and the likelihood that microorganisms are generated in the ballast water stored in each storage tank 40 is increased. For example, when the sodium chloride contained in the ballast water is converted into sodium hypochlorite by the electric distribution method and stored in each storage tank 40, the sterilizing power is maintained when the residual residual chlorine (TRO) maintains a constant concentration. However, over time, they have a half-life and eventually disappear, increasing the likelihood that microbes will develop in ballast water.

Thus, a need arises for treatment of more effective ballast water.

An embodiment of the present invention is to provide a ballast water circulation system for reducing the likelihood of microbial generation of ballast water and efficient treatment of ballast water by circulating the ballast water stored in the storage tank to be sterilized primarily and resterilized. We want to provide a vessel.

According to an aspect of the present invention, a ballast water treatment unit for sterilizing microorganisms contained in the ballast water used for the balance of the ship; Two or more storage tanks for storing the sterilized ballast water; A first piping system connected to each of the storage tanks by a first piping line, the ballast water discharged from one or more storage tanks of the storage tanks into the ballast water treatment unit for resterilization; And a second piping system connected to each of the storage tanks by a second piping line and allowing the vessel to be balanced by moving the ballast water between the storage tanks.

The first piping system re-sterilizes a predetermined amount of ballast water discharged from the first storage tank into the second storage tank by re-sterilizing the ballast water treatment unit, and the second piping system is configured to balance the vessel. The ballast water corresponding to the flow rate discharged from the first storage tank may be discharged from the second storage tank and introduced into the first storage tank.

The first piping system is installed in the first piping line and includes a first valve unit for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water, the second piping system is Installed in the second pipe line may include a second valve unit for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water.

The first piping system discharges a predetermined amount of ballast water from the first storage tank by the first valve unit to be resterilized by the ballast water treatment unit to be introduced into the second storage tank, and the second piping The system may discharge the ballast water corresponding to the flow rate discharged from the first storage tank by the second valve unit from the second storage tank to be introduced into the first storage tank.

The second piping system may further include a circulation pump for introducing the ballast water discharged from the second storage tank into the first storage tank to circulate the ballast water.

The second piping line of the second piping system is connected to the first piping line of the first piping system, the second piping system is discharged from the first storage tank and the ballast water re-sterilized by the ballast water treatment unit It may be to be re-introduced into the first storage tank through the second pipe line connected to the first pipe line.

Is installed in one or more of the storage tank, may further include a measuring instrument for measuring one of the concentration of ozone for sterilizing the microorganism, TRO (Total Residual Oxidant) concentration and UV (Ultra Violet) sensitivity.

The first pipe system and the second pipe system may further include a control unit for circulating the ballast water stored in the storage tank to re-sterilize the ballast water and to balance the vessel.

The control unit may be configured to preferentially circulate ballast water in the storage tank having a high possibility of generating microorganisms, so that the resterilization treatment may be performed based on the value measured by the measuring instrument.

The control unit may perform a re-sterilization process for the ballast water respectively stored in the storage tank based on a preset value.

The ballast water circulation system and the ship equipped with the same according to an embodiment of the present invention are primarily sterilized in a storage tank to circulate the stored ballast water, thereby re-sterilizing to reduce the possibility of microorganisms in the ballast water and to effectively treat the ballast water. Can be done.

In addition, the instrument is installed in a storage tank in which ballast water is stored to measure one of ozone concentration, TRO concentration and UV sensitivity to sterilize microorganisms, and based on the measured value, the ballast water stored in the storage tank having high possibility of microorganism generation is measured. By circulating the re-sterilization of ballast water can be improved efficiency of the ballast water treatment.

In addition, by installing an additional piping system in the piping system for sterilizing and storing the existing ballast water to be re-sterilized by the circulation of the ballast water, effective ballast water treatment can be achieved while reducing equipment investment costs. Can be.

1 shows a conventional ballast water treatment system.
2 illustrates a ballast water circulation system according to an embodiment of the present invention.
3 shows a ballast water circulation system according to another embodiment of the present invention.

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

2 illustrates a ballast water circulation system according to an embodiment of the present invention.

Referring to FIG. 2, the ballast water circulation system 100 according to an embodiment of the present invention may include a ballast water treatment unit 120, a storage tank 130, a first piping system 140, and a second piping system 150. Include.

The ballast water treatment unit 120 sterilizes microorganisms contained in the ballast water used for the balance of the ship. In this case, an ultraviolet treatment method, an ozone treatment method, an electrolytic treatment method, and the like may be used, and embodiments of the present invention will be described by taking a ballast water treatment method as an electrolytic method.

The storage tank 130 stores sterilized ballast water. Storage tank 130 may be provided with a measuring instrument 130a for measuring one of the concentration of ozone, TRO concentration and UV sensitivity for sterilizing microorganisms. In this case, the measuring instrument 130a may include a sensor for measuring the concentration, sensitivity, and the like of various substances sterilizing the microorganism.

The first piping system 140 is connected to the storage tank 130 by the first piping line 141 (indicated by a solid line), respectively, and balances the ballast water discharged from one or more storage tanks of the storage tank 130. Inflow to the water treatment unit 120 to be resterilized.

At this time, the first pipe system 140 is installed in the first pipe line 141 and includes a first valve unit (143, 144) for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water. Can be. That is, the first valve units 143 and 144 may be installed in the first pipe line 141 to discharge a predetermined amount of ballast water from each storage tank 130 or to introduce a predetermined amount of ballast water into each storage tank 130. have.

The first piping system 140 may be applied to the piping system configuration of the ballast water treatment system 10 of FIG. 1 described above as it is. That is, by installing an additional second piping system 150 to be described later in the piping system for sterilizing and storing the ballast water to be re-sterilized by circulation of the ballast water, thereby reducing the capital investment cost effectively Ballast water treatment can be achieved.

The second piping system 150 is connected to the storage tank 130 by the second piping line 151 (indicated by the dashed lines), respectively, and the balance of the ship is made by moving the ballast water between each storage tank 130. To lose.

To this end, the second piping system 150 is installed in the second piping line 151 and includes a second valve unit (153, 154) for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water. can do. That is, the second valve units 153 and 154 may be installed in the second pipe line 151 to discharge a predetermined amount of ballast water from each storage tank 130 or to introduce a predetermined amount of ballast water into each storage tank 130. have.

The first valve units 143 and 144 and the second valve units 153 and 154 may include a flow meter (not shown) for measuring the discharge and inflow amount of the fluid, a direction change valve (not shown) and a flow control valve for changing the direction of the fluid. (Not shown) and the like.

In addition, the second piping system 150 may provide a circulation pump 155 for circulating the ballast water between the storage tanks 130. In this case, the second piping system 150 may allow the ballast water to be moved between the storage tanks 130 by the circulation pump 155 to maintain the equilibrium of the ship.

Meanwhile, the operation of the ballast water circulation system 100 will be described. First, the seawater (ballast water) introduced into the ballast water treatment unit 120 by the ballast water pumps 102 and 103 is primarily formed by the ballast water treatment unit 120. It is sterilized and stored in each storage tank 130.

Although not shown here for convenience of description, the ballast water circulation system 100 includes a controller (not shown) for monitoring and controlling each component of the ballast water circulation system 100. The controller (not shown) is configured by the first piping system 140 and the second piping system 150 based on at least one of a preset value and a value measured by the measuring device 130a installed in the storage tank 130. By circulating the ballast water stored in the storage tank 130 to re-sterilize the ballast water and to balance the vessel.

That is, the controller (not shown) may perform the resterilization process for the ballast water stored in each storage tank 130 sequentially based on a preset value.

In addition, the control unit (not shown) may be configured to circulate the ballast water of the first storage tank 131 having a high possibility of microorganisms to be re-sterilized, for example, based on a result of comparing the TRO concentration with a reference value. have.

To this end, the first piping system 140 discharges a predetermined amount of ballast water from the first storage tank 131 under the control of a controller (not shown) and re-sterilizes the ballast water treatment unit 120. At this time, a predetermined amount of ballast water is discharged from the first storage tank 131 by the first valve unit 144 and flows into the ballast water treatment unit 120.

Then, the first piping system 140 introduces the resterilized ballast water into the second storage tank 132. Here, the ballast water re-sterilized by the one valve unit 143 flows into the second storage tank 132. In this process, the valve 14 and the valve 15 are opened.

At this time, the second piping system 150 discharges the flow rate corresponding to the ballast water discharged from the first storage tank 131 from the second storage tank 132 to balance the ship to the first storage tank 131. Inflow. Here, the second valve unit 153 discharges the flow rate corresponding to the ballast water discharged from the first storage tank 131 from the second storage tank 132. The second valve unit 154 controls the moving direction of the ballast water discharged from the second storage tank 132 and flows it into the first storage tank 131.

Here, the circulation pump 155 provided in the second piping system 150 is interposed between the second valve unit 153 and the second valve unit 154 to discharge the ballast water discharged from the second storage tank 132. Inflow to the storage tank 131 may be a circulation of the ballast water.

The ballast water resterilization treatment method using the ballast water circulation may be made by the ballast water circulation system 100 of FIG. 3 to be described later. In FIG. 3, overlapping descriptions of the components described above with reference to FIG. 2 will be omitted.

3 shows a ballast water circulation system according to another embodiment of the present invention.

Referring to FIG. 3, the ballast water circulation system 100 according to another embodiment of the present invention may include a portion of the piping line 151a of the second piping line 151 of the second piping system 150 of FIG. 2. It extends and is connected to the 1 piping line 141 of the first piping system 140.

Accordingly, the second piping system 150 discharges the ballast water discharged from the first storage tank 131 and re-sterilized by the ballast water treatment unit 120 to the first piping line 141 of the first piping system 140. Re-flow into the first storage tank 131 by the second pipe line 151 connected to the balance of the ship is made.

Here, the ballast water of a predetermined amount is discharged from the first storage tank 131 by the first valve unit 144 of the first piping system 140 and flows into the ballast water treatment unit 120. The ballast water resterilized by the ballast water treatment unit 120 is reflowed into the first storage tank 131 by the second valve unit 153. In this process, the valve 14 and the valve 15 are opened.

The foregoing has shown and described specific embodiments. However, the present invention is not limited to the above embodiments, and those skilled in the art may make various changes without departing from the spirit of the technical idea of the invention as set forth in the claims below. .

120: ballast water treatment unit 130: storage tank
140: first piping system 141: first piping line
143,144: first valve unit 150: second piping system
151: second piping line 153, 154: second valve unit
155: circulation pump

Claims (11)

Ballast water treatment unit for sterilizing microorganisms contained in the ballast water used for the balance of the ship;
Two or more storage tanks for storing the sterilized ballast water;
A first piping system connected to each of the storage tanks by a first piping line, the ballast water discharged from one or more storage tanks of the storage tanks into the ballast water treatment unit for resterilization; And
A second piping system connected to each of the storage tanks by a second piping line and allowing the ship to be balanced by moving the ballast water between the storage tanks;
The second piping line of the second piping system is connected to the first piping line of the first piping system, the second piping system is discharged from the first storage tank and the ballast water re-sterilized by the ballast water treatment unit Ballast water circulation system characterized in that to be re-introduced into the first storage tank through the second pipe line connected to the first pipe line. The method of claim 1,
The first piping system re-sterilizes a predetermined amount of ballast water discharged from the first storage tank into the second storage tank by re-sterilizing by the ballast water treatment unit,
The second piping system is to discharge the ballast water corresponding to the flow rate discharged from the first storage tank for the balance of the vessel from the second storage tank to flow into the first storage tank, characterized in that system. 3. The method of claim 2,
The first piping system is installed in the first pipe line and includes a first valve unit for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water,
The second pipe system is installed in the second pipe line and the ballast water circulation system including a second valve unit for measuring and controlling the discharge and inflow of the ballast water, or to change the direction of movement of the ballast water. The method of claim 3,
The first piping system discharges a predetermined amount of ballast water from the first storage tank by the first valve unit to be resterilized by the ballast water treatment unit to be introduced into the second storage tank, and the second piping The system is to discharge the ballast water corresponding to the flow rate discharged from the first storage tank by the second valve unit from the second storage tank to be introduced into the first storage tank. 5. The method of claim 4,
The second piping system further comprises a circulating pump for introducing the ballast water discharged from the second storage tank into the first storage tank to circulate the ballast water. delete The method of claim 1,
A ballast water circulation system installed in at least one of the storage tanks, further comprising a meter for measuring one of the concentration of ozone for sterilizing the microorganism, Total Residual Oxidant (TRO) concentration and UV (Ultra Violet) sensitivity. The method of claim 7, wherein
And a control unit configured to circulate the ballast water stored in the storage tank by the first pipe system and the second pipe system to perform the resterilization of the ballast water and to balance the vessel. 9. The method of claim 8,
The control unit is a ballast water circulation system characterized in that the re-sterilization treatment is performed by preferentially circulating the ballast water of the storage tank having a high probability of microorganisms based on the value measured by the measuring instrument. 9. The method of claim 8,
The control unit is a ballast water circulation system characterized in that the re-sterilization process for each ballast water stored in the storage tank based on a predetermined value sequentially. Ship having a ballast water circulation system according to any one of claims 1 to 5 and 7 to 10.

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