KR20160060367A - Ballast Water Treatment System on Ship and Method Thereof - Google Patents

Abstract

The present invention relates to a ballast water treatment system on a ship and a method thereof and, more specifically, relates to a ballast water treatment system on a ship and a method thereof, which are able to sterilize ballast water of the ship with a supercritical fluid, to let the supercritical fluid completely destroy microorganisms, bacteria, or the like, and to immediately discharge the ballast water to the sea without a separate treatment. That is, the present invention can meet the regulations on discharge of ballast water to the sea without discharging a chemical solvent to the sea and without causing a disturbance in the ecosystem. Supercritical fluid has a high sterilizing effect and no toxicity, and does not remain. Thus, it can minimize the impact on the environment. According to the present invention, provided are a ballast water treatment system on a ship, comprising: a filter unit to filter out foreign substances in ballast water; and a supercritical fluid reaction unit to make the ballast water filtered by the filter unit into a supercritical status and to kill microorganisms in the filtered ballast water, and a method thereof.

Description

Technical Field [0001] The present invention relates to a ballast water treatment system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for treating a ballast water of a ship, and more particularly, to a system and a method for treating a ballast water of a ship for treating microorganisms and the like in the ballast water in a supercritical state.

Ballast water is stored in the ballast tank installed inside the vessel to maintain the balance of the vessel. That is, the amount of the ballast water in the ballast tank is controlled according to the cargo load and the load capacity to minimize the rise of the center of gravity.

Here, the ballast water usually pumps and drains the surrounding seawater or fresh water. At this time, in the process of introducing the ballast water into the ballast tank of the ship, various foreign substances mixed in the port or the surrounding sea, such as gravel, sand, mud, inorganic substances such as seaweed, plankton, . Therefore, the voluntary discharge of ballast water from ships moving in various regions may cause ecosystem disturbance and adversely affect the environment. Accordingly, the International Maritime Organization (IMO) has mandated the installation of a ballast water treatment system on ships.

Conventionally used ballast water treatment technology is a sterilization method using UV (Ultraviolet). The seawater or fresh water flowing into the ballast tank installed in the ship using the pump is physically filtered through the filter installed at the rear end of the pump. Then, microorganisms, bacteria, etc. in the seawater or fresh water are sterilized through the UV treatment system.

Such a method of treating a ballast water using UV is advantageous in that it is cost-effective, eco-friendly, and easy to use. However, UV does not sustain the effect of sterilization, so that when ballast water is discharged outside the hull, ballast water should be installed once more through the UV treatment system. In addition, UV has a disadvantage that the sterilizing effect is poor for opaque organic substances.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a system and method for treating a ballast water using a supercritical fluid which has a high germicidal effect and can minimize an environmental impact.

According to an aspect of the present invention, there is provided a ballast water treatment system for a ship, comprising: a filter unit for filtering foreign matter in ballast water; And a supercritical fluid reaction unit for converting the ballast water filtered in the filter unit into a supercritical state and sterilizing the microorganisms in the filtered ballast water.

Preferably, the supercritical fluid reaction unit comprises: a fluid cylinder storing a fluid for reacting with the filtered ballast water; A high pressure vessel for supplying fluid from the fluid cylinder and sterilizing the microorganisms in the filtered ballast water; A pump for supplying fluid from the fluid cylinder to the high pressure vessel; And a heater for heating the high-pressure vessel.

Preferably, the fluid may be carbon dioxide (CO ₂ ) or nitrogen (N ₂ ).

Advantageously, the high pressure vessel is capable of bringing the fluid and filtered ballast water supplied from the fluid cylinder into a supercritical state, in a pressurized and heated state.

Preferably, it may further comprise a supply pump for supplying ballast water from the sea to the filter unit.

According to another aspect of the present invention, there is provided a method for treating a ballast water of a ship, comprising: a foreign matter filtering step in the ballast water; And a supercritical fluid reaction step of reacting the filtered ballast water and the fluid in a supercritical state to sterilize the microorganisms in the ballast water.

Advantageously, said supercritical fluid reaction step can produce a supercritical fluid in a pressurized and heated high pressure vessel to sterilize the microorganism.

Preferably, after the supercritical fluid reaction step, the supercritical fluid and the ballast water may be separated into a fluid and a treated ballast water by discharging and depressurizing the high pressure vessel, and then discharged.

According to another aspect of the present invention, there is provided a ballast water treatment system for a ship, comprising a ballast water and a mixture of carbon dioxide (CO ₂ ) or a mixture of ballast water and nitrogen (N ₂ ) The ballast water treatment system of the present invention is characterized in that the microorganisms in the vessel are sterilized.

According to the present invention, a ballast water treatment system and method of a ship makes the ballast water into a supercritical state to completely destroy and sterilize microorganisms and bacteria in the ballast water, thereby discharging the ballast water directly to the sea without any treatment . That is, it is possible to satisfy the sea water discharge regulations of the ballast water without causing ecosystem disturbance without releasing the chemical solvent to the sea.

In addition, the system and method for treating ballast water using a supercritical fluid according to the present invention has a high sterilizing effect, and has no toxicity or persistence, thereby minimizing environmental impacts.

In particular, when carbon dioxide is used as a supercritical fluid, it is relatively inexpensive, non-flammable, easy to handle, and has an effect of sterilization irrespective of the substance to be extracted, that is, the color or phase of the microorganism.

Fig. 1 schematically shows a ballast water treatment system for a ship according to the present invention.

In order to fully understand the operational advantages of the present invention and the objects attained by the practice of the present invention, reference should be made to the accompanying drawings, which illustrate preferred embodiments of the present invention, and to the contents of the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. The same reference numerals in the drawings denote like elements throughout the drawings.

1 is a schematic view showing a system for processing a ballast water of a ship according to the present invention. 1, the ballast water treatment system for a ship according to the present invention comprises a filter unit 10 for filtering foreign matters in the ballast water and a ballast water tank 10 for filtering the ballast water filtered in the filter unit 10 into a supercritical state, There is provided a supercritical fluid reaction unit 60 for sterilizing microorganisms in water.

The ballast water supplied from the sea via the supply pump 50 is primarily filtered through the filter unit 10. [ A plurality of the filter units 10 may be installed according to their performance and effects, but two filter units 10 are preferably installed to filter the ballast water.

The ballast water, which is physically separated from the foreign matter through the filter unit 10, is supplied to the high-pressure vessel 20. The high-pressure vessel 20 filled with a certain amount of ballast water is sealed by a valve provided in the high-pressure vessel 20. [ The pump 40 is used to supply the fluid stored in the fluid cylinder 30 to the fully sealed high pressure vessel 20.

The fluid may be carbon dioxide (CO ₂ ) or nitrogen (N ₂ ), but is not limited thereto, and any fluid that can reach the supercritical state by pressurization and heating can be applied to the present invention. For example, when carbon dioxide is applied, supercritical carbon dioxide is an eco-friendly solvent that is relatively inexpensive, easy to handle due to its non-flammability, low self-toxicity, low reactivity and no residual. In this embodiment, carbon dioxide (CO ₂ ) will be described as an example.

After the filtered ballast water is supplied, carbon dioxide stored in the fluid cylinder 30 is continuously introduced into the sealed high pressure vessel 20 by using the pump 40, so that the high pressure vessel 20 is in a high pressure state. The amount of carbon dioxide supplied may be adjusted according to the amount of ballast water supplied to the high pressure vessel 20, and the mixture is injected until the mixture of the supplied ballast water and carbon dioxide reaches a critical pressure or more. The high-pressure vessel 20 which has reached the critical pressure is heated by a heater (not shown) surrounding the high-pressure vessel 20 to a temperature higher than the critical temperature, and the ballast water and carbon dioxide supplied to the high- To reach the state.

The supercritical state means that liquid and gas exist separately, but when the pressure exceeds the critical pressure and the critical temperature, the distinction between the liquid phase and the gas phase becomes ambiguous and the liquid state and the gas state, which exist in one single phase, . At this time, the fluid reaching the supercritical state is as light as a gas and diffuses well, and has high solubility like liquid. The properties of these supercritical fluids are mainly used in extraction processes. For example, if carbon dioxide having a critical temperature of about 31 ° C and a critical pressure of about 73.8atm is brought to a supercritical state by increasing the supercritical carbon dioxide to a critical temperature and a supercritical pressure, supercritical carbon dioxide is passed through the substance to be extracted, It penetrates into holes and dissolves only the desired ingredients.

Therefore, when the high-pressure vessel 20 is above a predetermined pressure and temperature, the carbon dioxide and ballast water become supercritical, and supercritical carbon dioxide acts like a solvent to dissolve the effective components in the microorganisms contained in the ballast water, Can be destroyed. The components constituting the microorganisms in the ballast water dissolve in the supercritical carbon dioxide, thereby losing the original shape of the microorganism, and sterilization is performed.

The critical pressure and the critical temperature at which the carbon dioxide and the ballast water reach the supercritical state may be determined according to the mixing ratio of the carbon dioxide and the ballast water supplied to the high pressure vessel 20. [

In addition, when supercritical carbon dioxide is used, a mixture of supercritical carbon dioxide and supercritical carbon dioxide supplied to the high-pressure vessel 20 may be weakly acidic to change the acidity thereof, resulting in microbial destruction.

The supercritical fluid causes complete destruction of microorganisms and bacteria, so that when the ballast water is discharged to the sea, it can be discharged without any additional treatment.

After a predetermined time has elapsed so that the ballast water and carbon dioxide which have reached the supercritical state can sufficiently react with each other in the high pressure vessel 20, the temperature of the high pressure vessel 20 is lowered and the valve is opened to gradually reduce the pressure. Then, the carbon dioxide and the ballast water return to their original state from the supercritical state, and the carbon dioxide and the ballast water are separated. At this time, since the carbon dioxide is discharged from the high-pressure vessel 20 without remaining in the ballast water, no additional treatment facility is required.

The carbon dioxide discharged after the reaction in the high-pressure vessel 20 can be released into the atmosphere or recycled to the fluid cylinder 30.

The treated ballast water discharged after the reaction in the high pressure vessel (20) is stored in the ballast tank. The stored ballast water may be freely discharged at any time, anywhere, in a completely sterilized state of the microorganisms.

Therefore, according to the system and method for treating a ballast water of a ship according to the present invention, by applying a supercritical fluid in the ballast water treatment of a ship, it is possible to sterilize the ballast water, Without releasing the chemical solvent of the ecosystem to the sea.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

1: Ship's ballast water treatment system
10: Filter unit
20: High pressure booster
30: Fluid cylinder
40: pump
50: Feed pump
60: supercritical fluid reaction unit

Claims (9)

As a ballast water treatment system of a ship,
A filter unit for filtering foreign matter in the ballast water; And
And a supercritical fluid reaction unit that sterilizes the microorganisms in the filtered ballast water by making the ballast water filtered in the filter unit into a supercritical state. The method according to claim 1,
The supercritical fluid reaction unit
A fluid cylinder for storing a fluid to be reacted with the filtered ballast water;
A high pressure vessel for supplying fluid from the fluid cylinder and sterilizing the microorganisms in the filtered ballast water;
A pump for supplying fluid from the fluid cylinder to the high pressure vessel; And
And a heater for heating the high-pressure vessel. The method of claim 2,
The fluid
(CO ₂ ) or nitrogen (N ₂ ). The method of claim 2,
The high-
In a pressurized and heated state, the fluid supplied from the fluid cylinder and the filtered ballast water into a supercritical state. The method according to claim 1,
Further comprising a supply pump for supplying ballast water from the sea to the filter unit. A method of treating ballast water of a ship,
A foreign matter filtering step in the ballast water; And
And a supercritical fluid reaction step of sterilizing the microorganisms in the ballast water by reacting the filtered ballast water and the fluid in a supercritical state. The method of claim 6,
The supercritical fluid reaction step
Wherein the supercritical fluid is produced in a pressurized and heated high-pressure vessel to sterilize the microorganisms. The method of claim 6,
After the supercritical fluid reaction step
Wherein the supercritical fluid and the ballast water are separated into a fluid and a treated ballast water by discharging and depressurizing the high pressure vessel, and then discharged. As a ballast water treatment system of a ship,
Wherein a mixture of ballast water and carbon dioxide (CO ₂ ) or a mixture of ballast water and nitrogen (N ₂ ) is made into a supercritical state to sterilize the microorganisms in the ballast water.

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