KR101001626B1 - Apparatus and method for treatment of ballast water with membrane - Google Patents

Abstract

The present invention relates to a ballast water treatment apparatus using a separator that can effectively remove microorganisms and other particulate matter contained in the ballast water, and a ballast water treatment method using the same, and a ballast water treatment apparatus using the separator according to the present invention. The water supply pump is provided on one side of the vessel to collect seawater, and the separation membrane for filtering microorganisms and particulates contained in the withdrawn seawater and ballast tank for storing the treated water passed through the separation membrane It is done.

A backwash tank is further provided, and the treated water in the ballast tank is supplied to the backwash tank for backwash water, and the backwash tank supplies backwash water to the separator to remove foreign substances on the separator. Can be.

Ballast Water, Membrane

Description

Apparatus and method for treatment of ballast water with membrane}

The present invention relates to a ballast water treatment apparatus using a separator and a ballast water treatment method using the same, and more particularly, a ballast water treatment apparatus using a separator that can effectively remove microorganisms and other particulate matter contained in the ballast water. And it relates to a ballast water treatment method using the same.

Ballast water is ballast water used as a center of gravity for maintaining the balance of a ship. The ballast water is mainly taken from a port or ocean and loaded into a ballast tank located at the bottom of the ship. The ballast water includes not only sand and mud but also various kinds of marine life.Bastast water is different from the intake area and discharge area as the ship moves, and thus, disturbance of the ecosystem by foreign organisms during discharge of the ballast water. There is a lot of problems that can occur.

Therefore, the microorganisms and the like contained in the ballast water should be effectively treated. Conventional ballast water treatment methods include ozone treatment, ultraviolet treatment, and disinfection methods. Of these, ozone or ultraviolet treatment method has the advantage that it is effective and does not produce dangerous substances, but there is a problem to apply to a large amount of ballast water due to the high treatment cost. In addition, the sterilization method using chlorine is known to be easy to handle and cost-effective, but there are disadvantages in that toxic substances and carcinogens are generated from by-products generated during disinfection.

The present invention has been made to solve the above problems, to provide a ballast water treatment apparatus using a separator that can effectively remove microorganisms and other particulate matter contained in the ballast water, and to provide a ballast water treatment method using the same. The purpose is.

Ballast water treatment apparatus using a separation membrane according to the present invention for achieving the above object is provided on one side of the vessel withdrawal pump, and the separation membrane for filtering microorganisms and particulates contained in the withdrawn seawater and It characterized in that it comprises a ballast tank for storing the treated water passing through the separation membrane.

A backwash tank is further provided, and the treated water in the ballast tank is supplied to the backwash tank for backwash water, and the backwash tank supplies backwash water to the separator to remove foreign substances on the separator. Can be.

In addition, a pretreatment part may be further provided at the front end of the separation membrane, wherein the pretreatment part is configured as a pre-filter and the membrane pore size of the filtration membrane may be larger than the membrane pore size of the separation membrane. The pretreatment unit may be composed of chlorine treatment means or ozone treatment means. A post-treatment part may be further provided at the rear end of the separation membrane, and the post-treatment part may be constituted by chlorine treatment means or ozone treatment means. In addition, the filtration membrane can first remove particulate matter in the sea water to lower the contamination of the separation membrane, chlorine or ozone treatment can effectively remove the microorganisms in a short time is suitable for selective use with the separation membrane.

The separator may be composed of a micro-filtration membrane or an ultra-filtration membrane.

The ballast water treatment method using the separator according to the present invention comprises the steps of collecting seawater, passing the collected seawater through the membrane to filter out the microorganisms and particulates contained in the seawater and the treated water passed through the membrane. And storing in a ballast tank.

The treated water stored in the ballast tank may be further provided with backwash water to the separation membrane to remove foreign substances on the separation membrane, and the pre-treatment unit configured as a filtration membrane or disinfection means before the withdrawn seawater passes through the separation membrane. It may further comprise the step of being processed. In addition, the treated water passing through the separation membrane may further include the step of treating the treated water through a post-treatment unit before being stored in the ballast tank.

Ballast water treatment apparatus using the separation membrane and the ballast water treatment method using the same according to the present invention has the following effects.

By applying the separation membrane, it is possible to improve the removal efficiency of microorganisms and particulate matter, through which it is possible to minimize problems such as ecosystem disturbance when draining ballast water.

Hereinafter, a ballast water treatment apparatus using a separator and a ballast water treatment method using the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram of a ballast water treatment apparatus using a separator according to an embodiment of the present invention.

As shown in FIG. 1, the ballast water treatment apparatus using the separator 103 according to an exemplary embodiment of the present invention has a large water intake pump 101, a separator 103, a backwash tank 106, and a ballast tank ( 105).

The intake pump 101 is provided on one side of the vessel to take in seawater, and the separation membrane 103 serves to filter microorganisms and particulate matter contained in the withdrawn seawater. In detail, the separation membrane 103 may include a micro-filtration membrane or a nano-filtration membrane. At this time, the membrane pore size (pore size) of the microfiltration membrane or ultrafiltration membrane is preferably designed to be smaller than the size of microorganisms in seawater (for example, Toxigenic V. cholera, E. Coli, Intestinal Enterococci ).

In addition, the ballast tank 105 serves to store the treated water, that is, the ballast water passed through the separation membrane 103. The backwashing tank 106 supplies backwashing water, and removes microorganisms or particulate matter from the surface of the separation membrane 103 or the pores through the backwashing water, and the backwashing tank 106. ) Backwash water may be supplied from the ballast tank (105). Here, the treated water of the ballast tank 105 may be directly supplied to the separation membrane 103 without passing through the backwash tank 106.

Microorganisms or particulate matter filtered on the separator 103 may be removed, and the backwash water of the backwash tank 106 may be supplied from the ballast tank 105.

In addition to the above configuration, the pretreatment unit 102 and the post-treatment unit 104 may be further provided at the front end and the rear end of the separator 103. The pretreatment unit 102 is provided at the front end of the separation membrane 103 to pretreat the seawater collected, it may be composed of a filtration membrane. The filtration membrane constituting the pretreatment unit 102 is to improve the filtration characteristics of the separator 103 by first removing the relatively large particles to reduce the membrane fouling phenomenon of the separator 103. It plays a role of filtering out the larger particulate matter compared to the substance filtered by (103). At this time, the membrane pore size of the filtration membrane preferably has a size of 0.1 ~ 5㎛.

The post-processing unit 104 is provided at the rear end of the separation membrane 103 and serves to disinfect the treated water passing through the separation membrane 103. The aftertreatment unit 104 may be composed of disinfection means such as chlorine treatment means or ozone treatment means, through which the microorganisms present in the treated water can be disinfected with chlorine or ozone. Meanwhile, in the above-described embodiment, the pretreatment unit 102 is configured as a filtration membrane, but the pretreatment unit 102 may be configured as disinfection means such as chlorine treatment means or ozone treatment means.

The ballast water treatment apparatus using the separator 103 according to an embodiment of the present invention has been described above. Hereinafter, the ballast water treatment method according to an embodiment of the present invention will be described. 2 is a flowchart illustrating a ballast water treatment method according to an embodiment of the present invention.

First, as shown in FIG. 2, the seawater is withdrawn through the intake pump 101 (S201). Subsequently, the withdrawn seawater passes through the separator 103, through which the microorganisms and particulate matter contained in the seawater are filtered (S203). At this time, when the pretreatment unit 102 is provided at the front end of the separation membrane 103, the seawater withdrawn is subjected to a pretreatment process by the pretreatment unit 102 (S202).

As described above, the pretreatment unit 102 may be constituted by a filtration membrane or a disinfection means, and in the case of the filtration membrane, a particulate material of a large unit included in the seawater withdrawn, for example, a particle having a size of 0.1 to 5 μm. And disinfection means such as chlorine treatment means or ozone treatment means serves to disinfect the microorganisms contained in the withdrawn seawater.

On the other hand, the treated water filtered by the separation membrane 103 is stored in the ballast tank 105 (S205). At this time, the post-treatment unit 104 may be further provided at the rear end of the separation membrane 103. In this case, the post-treatment unit 104 is composed of disinfection means such as chlorine treatment means or ozone treatment means and the post-treatment unit ( The disinfection process for the treated water may further proceed by 104) (S204).

In the state where the treated water is stored in the ballast tank 105, a part of the treated part is supplied to the backwashing tank 106 for the purpose of backwashing water, and the backwashing water in the backwashing tank 106 is separated from the separator ( The foreign substance supplied to 103 and filtered on the separator 103 is removed (S206).

3 and 4 show the results of applying the ballast water treatment method using a separator according to an embodiment of the present invention, specifically showing the treatment results for the seawater of Pyeongtaek Port, Gyeonggi-do. As shown in FIG. 3 and FIG. 4, when only the filtration membrane is used, it can be seen that a large amount of particles, that is, particulate matter, is detected in the seawater passing through the filtration membrane. It can be seen that the amount of particles is significantly reduced.

1 is a block diagram of a ballast water treatment apparatus using a separator according to an embodiment of the present invention.

2 is a flow chart for explaining the ballast water treatment method according to an embodiment of the present invention.

Figure 3 and Figure 4 shows the result of applying the ballast water treatment method using a separator according to an embodiment of the present invention.

Description of the main parts of the drawing

101: intake pump 102: pretreatment unit

103: separator 104: post-treatment unit

105: ballast tank 106: backwash tank

Claims (16)

A water intake pump provided on one side of the ship to take sea water; Separation membrane for filtering microorganisms and particulate matter contained in the withdrawn sea water; And It includes a ballast tank for storing the treated water passed through the separation membrane, Is equipped with a backwash tank, The treated water in the ballast tank is supplied to the backwash tank for backwash water, and the backwash tank supplies backwash water to the separator to remove foreign substances on the separator, A pretreatment part is further provided at the front end of the separation membrane, and the pretreatment part is composed of a filtration membrane. The membrane pore size of the filtration membrane is ballast water treatment apparatus using a separation membrane, characterized in that larger than the membrane pore size of the separation membrane. delete delete delete delete The ballast water treatment apparatus according to claim 1, wherein the pretreatment unit comprises a chlorine treatment means or an ozone treatment means. The apparatus of claim 1, wherein a post-treatment unit is further provided at a rear end of the separation membrane. 8. The ballast water treatment apparatus according to claim 7, wherein the aftertreatment unit comprises a chlorine treatment means or an ozone treatment means. The apparatus of claim 1, wherein the separator comprises a micro-filtration membrane or a nano-filtration membrane. Withdrawing sea water; Filtering the microorganisms and particulate matter contained in the seawater by passing the collected seawater through a membrane; And It comprises the step of storing the treated water passing through the membrane in the ballast tank, The treated water stored in the ballast tank is further provided to the separator as a backwash water to remove the foreign matter on the separator is made, Before the withdrawn seawater passes through the separator, Further comprising the step of being processed by a pretreatment unit consisting of a filtration membrane or disinfection means, The membrane diameter of the filtration membrane is ballast water treatment method using a separation membrane, characterized in that larger than the membrane pore diameter of the separation membrane. delete delete delete The method of claim 10, wherein before the treated water that has passed through the separator is stored in the ballast tank, Ballast water treatment method using a separator characterized in that it further comprises the step of treating the treated water through a post-treatment unit. 15. The method of claim 14, wherein the aftertreatment unit comprises a chlorine treatment means or an ozone treatment means. The method of claim 10, wherein the separation membrane is composed of a micro-filtration membrane or a nano-filtration membrane.

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