KR20210050164A - Ballast Water Treatment System - Google Patents

Abstract

According to an embodiment of the present invention, a ballast water treatment system comprises: a ballast pump for sucking seawater from the sea chest; a seawater treatment unit which filters or sterilizes the seawater transferred by the ballast pump and delivers the seawater to a ballast tank; a ballasting line connected from the sea chest to the ballast tank via the ballast pump and the seawater treatment unit; a deballasting line connected upstream of the ballast pump in the ballasting line from the ballast tank; and a direct discharge line branching from the downstream of the seawater treatment unit in the ballasting line and allowing seawater introduced from the sea chest to be discharged into the sea by bypassing the ballast tank after passing through the seawater treatment unit.

Description

Ballast Water Treatment System

The present invention relates to a ballast water treatment system.

In general, ballast water is seawater that fills the ship's interior to maintain the balance of the ship, and there are various organisms in the ballast water, and most of the organisms are killed because they cannot adapt to the environment of the discharged sea area, but some resistance. This strong species can survive and cause problems that disturb the harbor's own ecosystem.

Accordingly, the International Maritime Organization (IMO) has established an international ballast water management agreement (IMO D2 regulation) that must be discharged after removing and killing organisms at the source through the Ballast Water Management System (BWMS). According to these regulations, the movement of marine organisms contained in ballast water between sea areas is not allowed, and when discharged after movement, it is killed and managed so that the surviving marine organisms in the discharged water reach the standard value or less.

Various treatment devices must be provided in accordance with these IMO regulations, and energy used for killing is reduced by reducing the number of individuals entering the post treatment facility by filtering out large marine organisms that are difficult to kill in the post treatment facility in advance. While mitigating, it is making it possible to satisfy the regulations of IMO.

However, during ballasting operation, untreated water may flow into the ballast tank until preheating of the sterilization lamp to sterilize microorganisms is performed, making it difficult to secure a microbial sterilization rate that satisfies the regulations of IMO. During deballasting, there is a concern that untreated water may leak to the outside of the ballast tank, so improvement is required.

The present invention was created to improve the prior art, and an object of the present invention is to provide a ballast water treatment system capable of preventing untreated water from flowing into and out of the ballast tank.

A ballast water treatment system according to an embodiment of the present invention includes a ballast pump that sucks seawater from a sea chest; A seawater treatment unit for filtering or sterilizing seawater transferred by the ballast pump and transferring it to a ballast tank; A ballasting line connected from the sea chest to the ballast tank via the ballast pump and the seawater treatment unit; A deballasting line connected from the ballast tank to an upstream of the ballast pump from the ballasting line; And a direct discharge line branched from the downstream of the seawater treatment unit in the ballasting line to allow the seawater introduced from the seachest to pass through the seawater treatment unit and then bypass the ballast tank to be discharged to the sea. do.

Specifically, the seawater treatment unit, a filtering unit; And a sterilization unit (UV unit).

Specifically, the ballasting line may be provided with a bypass line bypassing the filtering unit.

Specifically, when ballasting to fill seawater in the ballast tank, seawater flowing from the sea chest through the ballasting line and passing through the seawater treatment unit is delivered to the ballast tank, and deballasting to empty seawater from the ballast tank In this case, seawater introduced into the ballast pump of the ballasting line through the deballasting line may bypass the filtering unit and be discharged to the sea through a sterilization unit.

Specifically, when ballasting is initially operated, seawater that has passed through the seawater treatment unit is discharged to the sea by bypassing the ballast tank, and when deballasting is initially operated, seawater is introduced from the sea chest through the ballasting line. After bypassing the filtering unit and passing through the sterilization unit, it is discharged to the sea, and the initial operation may be a time until preheating of the sterilization lamp of the sterilization unit is completed.

In the ballast water treatment system according to the present invention, depending on whether or not the sterilization unit is preheated, it is possible to form whether or not seawater flows into the ballast tank, and thus prevents the introduction of microorganisms into the ballast tank before the sterilization unit is preheated or the ballast As it can prevent spillage out of the tank, it can satisfy the regulations of IMO.

1 is a view showing the flow of seawater during the initial operation of ballasting before the sterilization unit is preheated in the ballast water treatment system according to an embodiment of the present invention.
2 is a view showing the flow of seawater during ballasting in the ballast water treatment system according to an embodiment of the present invention.
3 is a view showing the flow of seawater during initial operation of deballasting before the sterilization unit is preheated in the ballast water treatment system according to an embodiment of the present invention.
4 is a view showing the flow of seawater during deballasting in the ballast water treatment system according to an embodiment of the present invention.

Objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments associated with the accompanying drawings. In the present specification, in adding reference numerals to elements of each drawing, it should be noted that, even though they are indicated on different drawings, only the same elements are to have the same number as possible. In addition, in describing the present invention, when it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

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

1 is a view showing the flow of seawater during initial operation of ballasting before the sterilization unit is preheated in a ballast water treatment system according to an embodiment of the present invention, and FIG. 2 is a ballast water according to an embodiment of the present invention. It is a diagram showing the flow of seawater during ballasting in the treatment system.

In addition, FIG. 3 is a view showing the flow of seawater during the initial operation of deballasting before the sterilization unit is preheated in the ballast water treatment system according to an embodiment of the present invention. It is a diagram showing the flow of seawater during deballasting in the ballast water treatment system according to the present invention.

1 to 4, a ballast water treatment system 100 according to an embodiment of the present invention includes a ballast pump 130, a seawater treatment unit 140, a ballasting line 150, and a direct discharge line 160. ), a deballasting line 170 may be included.

Here, the ballast water entering the ship is filled in one port, transported to another, and then discharged from a new port. Therefore, the release of marine organisms, etc. contained in ballast water carried from a distant location can be harmful and dangerous to the new environment.

On the other hand, the ballast water treatment system 100 of the present embodiment uses, for example, Sea To Sea (S2S) operation logic, without using a lamp preheating pump, etc., stably securing the lamp preheating time to comply with the IMO regulations. You can achieve a satisfactory biodeath rate.

At this time, the ballast tank 180 is configured to introduce seawater treated through the ballast water treatment system 100. In addition, the ballast tank 180 is a water tank containing ballast water that increases the weight of the ship so that it can be stably sailed, and may be provided in plural at the side of the hull and at the bottom of the ship, and may be provided to communicate with each other. , By increasing the ballast draft, it is possible to increase the terminal compatibility.

Specifically, the ballast pump 130 may suck seawater from the sea chest 110 into the vessel. Here, the sea chest 110 may include an opening formed at the stern or bow of the vessel, so that seawater may flow into the vessel through the sea chest 110.

For example, the ballast pump 130 may be provided between the sea chest 110 and the seawater treatment unit 140 on the ballasting line 150. In addition, the pump 130 may be provided downstream of the strainer 120, so that the organisms in the seawater introduced from the sea chest 110 are primarily filtered, and then the introduced seawater may be supplied to the seawater treatment unit 140. However, the positions of the pump 130 and the strainer 120 are not limited thereto, and a ballast pump 130 may be provided upstream of the strainer 120.

This ballast pump 130 may be performed through a pumping operation when seawater is supplied from the sea chest 110 to the seawater treatment unit 140, and a known mechanism may be applied, and a description thereof will be omitted.

The seawater treatment unit 140 may filter and/or sterilize seawater transferred by the ballast pump 130 and deliver it to the ballast tank 180, and provide a filtering unit 141 and a sterilization unit 142 (UV unit). Can include.

The filtering unit 141 is configured to filter organisms in seawater, and may include, for example, a filtering net, and may be provided upstream of the sterilization unit 142. However, due to the characteristics of the filtering unit 141 that filters foreign substances with the structure of the filtering network, microorganisms smaller than the hole size of the filtering network may pass through the filtering unit 141 as it is. However, even if it passes through the filtering unit 141, microorganisms may be treated through the sterilization unit 142 provided downstream of the filtering unit 141.

In addition, the filtering unit 141 may be provided with a drain line 141A, so that foreign matter filtered by the filtering unit 141 may be discharged to the sea through the drain line 141A. Here, the drain line 141A may be connected to the direct discharge line 160 from the bottom of the filtering unit 141, but unlike this, the drain line 141A does not join the direct discharge line 160 and independently discharges foreign matter. As may be possible, various modifications are possible.

The sterilization unit 142 is a configuration that sterilizes seawater passed through the filtering unit 141, and, for example, a sterilization lamp may be provided. Here, the sterilization lamp may be made of an ultraviolet lamp, and the like, so that microorganisms may be killed through ultraviolet rays.

However, during the initial operation of ballasting (before the preheating of the sterilization lamp), there is a concern that the sterilization lamp does not operate smoothly, that is, the microbes may not be formed in a state where they can be killed until the preheating of the sterilization lamp is completed. Since there is a concern that microorganisms may pass through the seawater treatment unit 140 on the ballasting line 150 as it is, the seawater passing through the seawater treatment unit 140 bypasses the ballast tank 180 during the initial operation of ballasting as will be described later. Thus, it can be prevented from flowing into the ballast tank 180. That is, only seawater that satisfies the killing rate of microorganisms is introduced into the ballast tank 180 through the sterilization unit 142, thereby satisfying the regulations of IMO.

The ballasting line 150 is a configuration that provides supply of seawater, and may be connected from the sea chest 110 to the ballast tank 180 via the ballast pump 130 and the seawater treatment unit 140, and a bypass line ( 151).

For example, the ballasting line 150 may be formed of a pipe in which a hollow is formed so that seawater can be passed through the same/similar to the deballasting line 170 and the direct discharge line 160, and the flow rate can be adjusted. A valve (not shown) may be provided, and a paint may be applied to prevent corrosion from seawater or may be made of a material resistant to corrosion.

The ballasting line 150 is bent and bent in consideration of the arrangement of the deballasting line 170 and the direct discharge line 160, as well as the ballast pump 130 and the seawater treatment unit 140 to which the line is connected. And the like can be designed and made.

And even if seawater is introduced through the ballasting line 150, when the ballasting is initially operated, the seawater passing through the seawater treatment unit 140 may be discharged to the sea by bypassing the ballast tank 180, which will be described later. This can be done through line 160.

In addition, the initial operation of ballasting may be a time until the preheating of the sterilization lamp of the sterilization unit 142 is completed, and whether the preheating is completed or not is, for example, the UV output/irradiation amount of the sterilization lamp. The rate may be set to 90% or more, for example, 99.9%) or more, or may be a time until the concentration of microorganisms is detected below a certain level through a detection sensor.

In addition, whether or not the initial operation of ballasting is completed may be accomplished through an illuminance sensor (not shown), for example, an illuminance sensor is provided adjacent to the position of the sterilization unit 142 in the ballasting line 150, When such an illuminance sensor detects the amount of ultraviolet radiation irradiated from the sterilization unit 142 and the amount of ultraviolet radiation is detected in the design range (ultraviolet irradiation amount is 90% or more, for example, 99.9%), it is set as initial operation completion. This can be achieved, but is not limited thereto, and various modifications are possible as whether the completion of the initial operation of ballasting can be set through the microbial sterilization rate through the aforementioned detection sensor.

When the initial operation of ballasting is completed in this way, a ballasting process is performed to fill seawater in the ballast tank 180, and after flowing from the sea chest 110 through the ballasting line 150, the seawater treatment unit 140 is passed. Seawater may be delivered to the ballast tank 180.

That is, during the initial operation of ballasting, seawater is not stored in the ballast tank 180, but the seawater is returned to the sea to achieve only preheating of the sterilization lamp, and a substantial ballasting process is performed only after the preheating of the sterilization unit 142 is completed. A process of storing seawater passing through the seawater treatment unit 140 in the ballast tank 180 may be performed.

In addition, the bypass line 151 of the ballasting line 150 diverges from the ballasting line 150 and then bypasses the filtering unit 141 and joins the ballasting line 150 again, but is not opened during the ballasting process. It is opened during deballasting and can be constructed in a structure through which seawater is passed.

That is, the bypass line 151 is a seawater filtering unit that does not need filtering again because it has already been filtered through the ballasting process when deballasting to empty seawater from the ballast tank 180 through the deballasting line 170 to be described later. It is designed to bypass (141). However, during deballasting, the bypass line 151 may not necessarily be passed, and thus may be moved through the filtering unit 141 during deballasting as shown in FIGS. 3 and 4.

In addition, the seawater bypassing the filtering unit 141 through the bypass line 151 is not limited only during deballasting, and the filtering unit until all preheating of the sterilization lamps of the sterilization unit 142 is completed during ballasting. Various modifications are possible, as may be achieved to bypass (141).

The direct discharge line 160 is configured such that seawater is discharged to the sea without entering the ballast tank 180 during the ballasting and/or deballasting process.

For example, the direct discharge line 160 is branched from the downstream of the seawater treatment unit 140 in the ballasting line 150, and the seawater introduced from the sea chest 110 passes through the seawater treatment unit 140, and then the ballast tank (180) can be bypassed and discharged to the sea.

At this time, passing through the seawater treatment unit 140 and discharging to the sea by bypassing the ballast tank 180, the sterilization unit 142 in the initial ballasting process and the initial deballasting process, as shown in FIGS. 1 and 3 The sterilization lamp is passed through the seawater so that the preheating of the sterilization lamp is performed, but it is to be discharged to the sea after bypassing the ballast tank 180 so that seawater introduced from the sea chest 110 does not flow into the ballast tank 180.

In addition, as shown in FIG. 4, the direct discharge line 160 bypasses the ballast tank 180 so that the ballast water discharged from the ballast tank 180 does not flow back into the ballast tank 180 during the deballasting process. It is intended to be discharged to the sea afterwards.

Since the direct discharge line 160 is not individually provided for each process of ballasting and deballasting, it has a structure that is provided integrally, so that the line can be simplified.

The deballasting line 170 is a configuration for achieving deballasting, and may be connected to the upstream of the ballast pump 130 in the ballasting line 150 from the ballast tank 180. Accordingly, each process of ballasting and deballasting may be achieved through one ballast pump 130.

And, as shown in FIG. 4, when deballasting to empty seawater from the ballast tank 180, the seawater introduced into the ballast pump 130 of the ballasting line 150 through the deballasting line 170 is filtered. By bypassing the unit 141 and passing through the sterilization unit 142 may be discharged to the sea.

However, bypassing the filtering unit 141 is to bypass the filtering unit 141 because it is filtered through the filtering unit 141 during ballasting, as mentioned above, and does not need to be filtered again, so do not bypass the filtering unit 141. Various modifications are possible as may be passed through the sterilization unit 142 via the filtering unit 141 without.

On the other hand, before deballasting to empty seawater from the ballast tank 180, the same/similar to preheating the sterilization unit 142 during ballasting, even when deballasting is achieved, within the ballast tank 180 It is necessary to kill microorganisms/bacteria, etc. that may occur again.

Therefore, as shown in FIG. 3, during the initial operation of deballasting (before the sterilization unit 142 is preheated), the seawater introduced into the ship from the sea chest 110 achieves preheating of the sterilization unit 142. To achieve a means for, when seawater flows from the sea chest 110 through the ballasting line 150, it may be discharged to the sea after bypassing the filtering unit 141 and passing through the sterilization unit 142. At this time, bypassing the filtering unit 141 is because seawater is introduced and discharged in the same port, and there is no concern that environmental problems may occur when living organisms are discharged.

As described above, in this embodiment, depending on whether the sterilization unit 142 is preheated, that is, before the preheating of the sterilization unit 142 is performed, seawater is not introduced into the ballast tank 180 of the ship and is discharged back to the sea, After the preheating of the sterilization unit 142 is completed, the microorganisms are sterilized through the sterilization unit 142 and then flow into the ballast tank 180 or a deballasting process is performed from the ballast tank 180 so that the ballast water is discharged to the sea. As described above, it is possible to sufficiently secure the preheating time of the ballast tank 180 even in environments such as low turbidity, so that untreated water can be prevented from flowing into the ballast tank 180 and out of the ballast tank 180. In addition, it can satisfy the regulations of IMO.

Although the present invention has been described in detail through specific examples, this is for describing the present invention in detail, and the present invention is not limited thereto, It would be clear that the transformation or improvement is possible.

All simple modifications to changes of the present invention belong to the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100: ballast water treatment system 110: sea chest
120: strainer 130: ballast pump
140: seawater treatment unit 141: filtering unit
142: sterilization unit 150: ballasting line
151: bypass line 160: direct discharge line
170: deballasting line 180: ballast tank

Claims (5)

A ballast pump that sucks seawater from the sea chest;
A seawater treatment unit for filtering or sterilizing seawater transferred by the ballast pump and transferring it to a ballast tank;
A ballasting line connected from the sea chest to the ballast tank via the ballast pump and the seawater treatment unit;
A deballasting line connected from the ballast tank to an upstream of the ballast pump from the ballasting line; And
It characterized in that it comprises a direct discharge line branching from the downstream of the seawater treatment unit in the ballasting line, and bypassing the ballast tank after passing through the seawater treatment unit and discharging the seawater into the sea. Ballast water treatment system. The method of claim 1, wherein the seawater treatment unit,
Filtering unit; And
Ballast water treatment system comprising a sterilization unit (UV unit). The method of claim 2, wherein the ballasting line,
Ballast water treatment system, characterized in that a bypass line to bypass the filtering unit is provided. The method of claim 2,
When ballasting to fill seawater in the ballast tank,
Seawater introduced from the sea chest through the ballasting line and passed through the seawater treatment unit is delivered to the ballast tank,
When deballasting to empty seawater from the ballast tank,
The ballast water treatment system, characterized in that the seawater introduced into the ballast pump of the ballasting line through the deballasting line bypasses the filtering unit and is discharged to the sea through a sterilization unit. The method of claim 2,
During the initial operation of ballasting,
Seawater passing through the seawater treatment unit is discharged to the sea by bypassing the ballast tank,
During the initial operation of deballasting,
Seawater flows from the sea chest through the ballasting line, bypasses the filtering unit, passes through the sterilization unit, and is discharged to the sea,
The initial operation,
Ballast water treatment system, characterized in that the time until the preheating of the sterilization lamp of the sterilization unit is completed.

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