JP2018095949A - Ballast water treatment installation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ballast water treatment installation capable of suppressing degradation of performance of microorganism sterilization means due to eluted sacrificial anode.SOLUTION: A ballast water treatment installation including : pipings L1 to L8 through which ballast water is flowed; microorganism sterilization means 3; and a sacrificial anode 6 for suppressing corrosion of the pipings, in which the sacrificial anode 6 is provided on a downstream side of the microorganism sterilization means 3, on an upstream side of the microorganism sterilization means 3, a filter 2 for filtering the ballast water is provided, the piping to which the microorganism sterilization means are further provided with fresh water introducing mean 7 for introducing fresh water, during flow stop of the ballast water, the piping provided with the microorganism sterilization mean 3 is preferably filled with fresh water.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a ballast water treatment apparatus provided with a microorganism killing means.

  A ship such as a tanker usually stores water called ballast water in a ballast tank in order to balance the ship in operation when navigating to a destination again after unloading crude oil or the like. Ballast water is basically taken at the loading port and discharged at the loading port. Therefore, if they are different, plankton and bacterial microorganisms contained in the ballast water will move around the world. Therefore, if ballast water is discharged at a loading port in a different water area from the cargo port, microorganisms in another water area will be released to that port, which may destroy the ecosystem in that water area.

  Therefore, a ballast water treatment apparatus is used to reduce the content of microorganisms contained in the ballast water. For example, the ballast water treatment apparatus described in Patent Document 1 includes ultraviolet treatment means for irradiating ballast water with ultraviolet light as microorganism killing means for killing microorganisms (sterilization treatment).

JP 2006-248510 A

  By the way, the piping through which ballast water circulates in the ship is plated with zinc or the like, but the plating gradually elutes due to corrosion by seawater or dissimilar metal corrosion at the joint with the microorganism killing means. A sacrificial anode (zinc, aluminum, etc.) that suppresses elution of plating may be provided.

  However, in such a configuration, the sacrificial anode that elutes instead of plating adheres to the constituent elements of the microorganism killing means, and there is a possibility that the killing performance of the microorganisms may be reduced.

  This invention is made | formed in view of such a situation, and it aims at providing the ballast water treatment apparatus which can suppress the performance fall of the microorganisms killing means by the eluted sacrificial anode.

  According to the present invention, there is provided a ballast water treatment apparatus including a pipe for circulating ballast water, a microorganism killing means, and a sacrificial anode for suppressing corrosion of the pipe, wherein the sacrificial anode is the microorganism killing means. A ballast water treatment device is provided on the downstream side.

  According to such a configuration, since the sacrificial anode is provided on the downstream side of the microorganism killing means, it is possible to prevent the sacrificial anode from being eluted in the vicinity of the microorganism killing means, and to suppress the performance deterioration of the microorganism killing means. It becomes possible to do.

  Hereinafter, various embodiments of the present invention will be exemplified. The following embodiments can be combined with each other.

  Preferably, a first valve is provided between the microorganism killing means and the sacrificial anode.

  Preferably, control means for controlling the flow of the ballast water and the opening and closing of the valve is provided, and the control means closes the valve when the flow of the ballast water to the microorganism killing means is stopped.

  Preferably, a filter for filtering the ballast water is further provided upstream of the microorganism killing means, and a second valve is provided between the filter and the microorganism killing means.

  Preferably, the apparatus further comprises fresh water introducing means for introducing fresh water into a pipe provided with the microorganism killing means, and the control means connects the pipe provided with the microorganism killing means when the flow of the ballast water is stopped to the fresh water introducing means. Control to fill with fresh water.

  Preferably, the microorganism killing means is an ultraviolet treatment means. Preferably, the microorganism killing means is an electrolytic treatment means.

It is a figure which shows the outline of the ballast water treatment apparatus which concerns on embodiment of this invention. It is explanatory drawing which shows the flow path of a ballast water, (a) shows the flow path at the time of a ballast process, (b) shows the flow path at the time of a deballast process.

  DESCRIPTION OF EMBODIMENTS Embodiments of a ballast water treatment apparatus according to the present invention will be described below with reference to the drawings. Various characteristic items shown in the following embodiments can be combined with each other. The invention is established independently for each feature.

1. Configuration of Ballast Water Treatment Device FIG. 1 is a schematic diagram illustrating a configuration of a ballast water treatment device according to this embodiment. As shown in FIG. 1, the ballast water treatment apparatus of this embodiment includes a pump 1 that takes inboard water such as seawater from the sea chest SC into the ship and pumps it as ballast water, and includes a filter for filtering the ballast water. A ballast water filtration device 2, an ultraviolet reactor 3 as one of the microorganism killing means, a ballast tank 4 for storing ballast water, and a control means for controlling each process of the ballast water treatment apparatus 5 and a sacrificial anode 6.

  Here, the ultraviolet reactor 3 has an ultraviolet lamp (not shown) covered with a transparent quartz protective tube, and sterilizes microorganisms by irradiating the ballast water with ultraviolet rays by the ultraviolet lamp. is there.

  The sacrificial anode 6 is a highly ionized metal (for example, Al, Zn, Mg, etc.) provided to prevent corrosion of piping in a corrosive environment through which seawater or the like circulates, and tends to ionize with the piping. By using the height of the pipe, the pipes are ionized instead of being ionized to prevent corrosion of the pipes.

  In this specification, “ballast water” is introduced (inflow) into the ballast water filtration device 2 before being introduced (inflow) into the ballast tank 4 or after being discharged (outflow) from the ballast tank 4. ) Before or after being discharged (outflow) from the ballast water filtration device 2, and before being introduced (inflow) into the ultraviolet reactor 3 or after being discharged (outflow) from the ultraviolet reactor 3, All the water taken into the ship is expressed as “ballast water”, which includes seawater, fresh water, brackish water, and the like.

  Moreover, the ballast water treatment apparatus according to the present embodiment includes a plurality of lines L1 to L8 that circulate the respective components. The “line” is a general term for lines formed by piping and capable of flowing fluid such as flow paths, paths, and pipelines.

  Specifically, as shown in FIG. 1, the line L1 is a line connecting the sea chest SC and the pump 1, and includes an on-off valve V1. The line L2 is a line connecting the pump 1 and the ballast water filtration device 2, and the line L3 is a line connecting the ballast water filtration device 2 and the ultraviolet reactor 3. The line L3 includes an on-off valve V2 as a second valve, and fresh water introducing means 7 is connected to the downstream side of the on-off valve V2. The line L4 is a line connecting the ultraviolet reactor 3 and the outboard discharge port DP for discharging the ballast water to the outside of the ship. The on-off valve V3, the sacrificial anode 6 and the on-off valve V4 as the first valve are arranged in this order. Prepare. Note that the lines L1 to L4 are also called a main pipe connecting the sea chest SC and the outboard discharge port DP together.

  Next, the line L5 is a line that has one end connected to the line L2 and the other end connected to the line L3 at a position between the ballast water filtration device 2 and the on-off valve V2 to bypass the ballast water filtration device 2. And has an on-off valve V5. The line L6 is connected to the line L4 at one end between the sacrificial anode 6 and the on-off valve V4, and connected to the ballast tank 4 at the other end to connect the ultraviolet reactor 3 and the ballast tank 4, It has a valve V6. The line L7 has one end connected to the line L6 at a position between the on-off valve V6 and the ballast tank 4, and the other end connected to the line L1 at a position between the on-off valve V1 and the pump 1. And a line connecting the pump 1, and has an on-off valve V7.

  Moreover, in this embodiment, the ballast water filtration apparatus 2 is provided with a filter cleaning means (not shown) for cleaning the filter during the filtration process, and discharges the cleaning sewage discharged by the filter cleaning means to the outside of the ship. The line L8 to be connected is connected. The line L8 is provided with an on-off valve V8.

  The control means 5 performs flooding (ballast processing) control to the ballast tank 4 and drainage (deballast processing) control from the ballast tank 4 and the like. These controls are performed by controlling the opening and closing of the pump 1 and the on-off valves V1 to V8 described above.

2. Operation of Ballast Water Treatment Device Next, the operation of the ballast water treatment device of the present embodiment configured as described above will be described. FIG. 2A and FIG. 2B show paths through which ballast water flows during ballast operation (flooding) and deballast operation (drainage) of the ballast water treatment apparatus according to the present embodiment.

  First, during the ballast operation shown in FIG. 2 (a), the control means 5 opens the on-off valves V1, V2, V3, V6, V8, closes the on-off valves V4, V5, V7, starts the pump 1, Energize the UV lamp. When the pump 1 is started, water outside the ship (seawater or the like) is taken from the sea chest SC and is passed through the lines L1 and L2 to the ballast water filtration device 2. The ballast water passed through the ballast water filtering device 2 is filtered by the filter and then flows to the ultraviolet reactor 3 through the line L3. Here, a part of the ballast water that has flowed into the ballast water filtration device 2 by the filter washing means of the ballast water filtration device 2 described above is discharged outside the ship through the line L8 as sewage for filter washing. The ballast water passing through the ultraviolet reactor 3 is irradiated with ultraviolet rays by an ultraviolet lamp to be sterilized. The sterilized ballast water passes through a part of the line L4 and the line L6 and is sent to the ballast tank 4.

  On the other hand, at the time of the deballast operation shown in FIG. 2B, the on-off valves V7, V5, V2, V3, V4 are opened, the on-off valves V1, V6, V8 are closed, the pump 1 is started, and the ultraviolet lamp is energized. When the pump 1 is started, the water in the ballast tank 4 flows to the ultraviolet reactor 3 through the line L7, part of the line L1, part of the line L5, part of the line L3, and then through the line L4 to the outboard discharge port. It is discharged from the DP to the outside of the ship. The ballast water in the ballast tank 4 discharged out of the ship does not pass through the ballast water filtration device 2 and is bypassed by the line L5. The ballast water in the ballast tank 4 has already been filtered once during the above-described ballast treatment. It is because it is going.

  In addition, after the remaining amount of ballast water in the ballast tank 4 decreases, the on-off valve V1 is opened so that the pump 1 does not cause cavitation, and the ballast water in the ballast tank 4 is discharged together with the water taken from outside the ship. It is preferable to drain. In this case, the on-off valve V3 may be closed, the on-off valve V6 may be opened, and the drainage may be performed after performing the filtration process by the ballast water filtration device 2.

  Then, after the above ballast operation or deballast operation is completed, the control means 5 stops the pump 1 to stop the flow of ballast water, introduces fresh water into the line L3 by the fresh water introduction means 7, The on-off valve V2 and the on-off valve V3 are closed to control the ultraviolet reactor 3 to be filled with fresh water.

3. Effects According to the embodiment described above, the following effects can be achieved.
(A) During ballast operation and deballast operation, since ballast water such as seawater circulates in the pipe forming the flow path, the pipe is placed in a corrosive environment. However, in the ballast water treatment apparatus of this embodiment, Since the sacrificial anode 6 is provided in the path, the sacrificial anode 6 is ionized to suppress corrosion of the pipe and the plating applied to the pipe.
(B) Since the ultraviolet reactor 3 formed of SUS or the like is provided in the flow path, there is a possibility that foreign metal corrosion may occur due to the joining of the pipe and the ultraviolet reactor 3, but the sacrificial anode 6 is disposed after the ultraviolet reactor 3. By providing it adjacent to the flow side, it is possible to suppress the elution of piping due to the corrosion of different metals.
(C) In both the ballast operation and the deballast operation, the sacrificial anode 6 is positioned downstream of the ultraviolet reactor 3 as indicated by an arrow A1 in FIG. 2A and an arrow A2 in FIG. Since it is arranged, it is possible to prevent the metal (zinc, aluminum, etc.) eluted from the sacrificial anode 6 from flowing into the ultraviolet reactor 3 and adhering to the protective tube of the ultraviolet lamp to prevent the ultraviolet irradiation from being hindered. It has become.
(D) Since the control means 5 controls the ultraviolet reactor 3 to be filled with clean water after completion of the ballast operation or deballast operation, the ultraviolet reactor 3 is separated from the pipes around the ultraviolet reactor 3 and the sacrificial anode 6 for elution. It is possible to prevent the deposited metal from adhering to the quartz protective tube of the ultraviolet reactor 3 and hindering the ultraviolet irradiation by the ultraviolet lamp. Further, the ultraviolet lamp can be cooled by filling the ultraviolet reactor 3 with clean water.

4). Modification The ballast water treatment apparatus according to the present invention can also be implemented in the following embodiments.
-In above-mentioned embodiment, although the ballast water treatment apparatus was provided with the ballast water filtration apparatus 2, it may have only the ultraviolet reactor 3, and may have the other apparatus which purifies ballast water.
In the embodiment described above, the control means 5 controls to fill only the ultraviolet reactor 3 with clean water when the circulation of the ballast water is stopped. However, the control means 5 may control to fill the ballast water filtration device 2 and the pipe with clean water. .
In the above-described embodiment, only the control for passing the ballast water filtration device 2 and the ultraviolet reactor 3 to treat the ballast water during the ballast water treatment has been described. However, depending on the state of the ballast water, the ballast water filtration is performed. It is also possible to perform only one of the apparatus 2 and the ultraviolet reactor 3. In this regard, when only the ballast water filtration device 2 is treated, a line (not shown) for bypassing the ultraviolet reactor 3 is separately provided in the ballast water treatment device, and the control means 5 includes the on-off valve V2 and the on-off valve V3. Is closed to stop the flow of ballast water to the ultraviolet reactor 3, and fresh water is introduced into the line L3 by the fresh water introduction means 7, so that the ultraviolet reactor 3 is filled with fresh water.

  In the above-described embodiment, the example in which the ultraviolet reactor 3 (ultraviolet treatment means) is used as the microorganism killing means for killing the microorganisms has been described. However, an electrolytic treatment means may be used as the microorganism killing means. This is the scope of application of the present invention. Here, the electrolytic treatment means includes, for example, an electrode in a chamber through which the ballast water is circulated, and electrolyzes the ballast water so that it can be sterilized from sodium chloride (NaCl) contained in the ballast water. By generating sodium chlorate, microorganisms contained in the poured ballast water are killed.

  In the ballast water treatment apparatus using such electrolytic treatment means, by providing the sacrificial anode 6 in order to prevent corrosion of the piping, the components of the sacrificial anode eluted from the sacrificial anode 6 adhere to the electrolytic electrode, There is a risk that it will not be possible to demonstrate the correct performance. However, in the present invention, by providing the sacrificial anode 6 on the downstream side of the ultraviolet reactor 3, it is possible to suppress the metal (zinc, aluminum, etc.) eluted from the sacrificial anode 6 from adhering to the electrolytic electrode. In addition, after the treatment of the ballast water, the electrolytic electrode and the sacrificial anode 6 are separated by controlling the chamber of the electrolytic treatment means to be filled with clean water, thereby further suppressing the adhesion of the metal to the electrolytic electrode. Can do.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and can be implemented in various forms. In particular, a part of the order related to the upstream and downstream sides of the on-off valve and the pump may be changed within the equivalent range of the invention, or a new line, on-off valve, pump, and the like may be added.

1: pump 2: ballast water filtration device 3: ultraviolet reactor (ultraviolet treatment means, microorganism killing means)
4: Ballast tank 5: Control means 6: Sacrificial anode 7: Fresh water introduction means L1-L8: Line DP: Outboard discharge port SC: Sea chest V1-V8: Open / close valve

Claims (7)

A ballast water treatment apparatus comprising a pipe for circulating ballast water, a microorganism killing means, and a sacrificial anode for suppressing corrosion of the pipe,
The ballast water treatment apparatus, wherein the sacrificial anode is provided downstream of the microorganism killing means.   The ballast water treatment apparatus according to claim 1, wherein a first valve is provided between the microorganism killing means and the sacrificial anode.   The ballast according to claim 2, further comprising control means for controlling the flow of the ballast water and the opening and closing of the valve, the control means closing the valve when the flow of the ballast water to the microorganism killing means is stopped. Water treatment equipment.   The ballast water treatment apparatus according to claim 3, further comprising a filter that filters the ballast water upstream of the microorganism killing means, and a second valve is provided between the filter and the microorganism killing means. .   The apparatus further comprises a fresh water introducing means for introducing fresh water into a pipe provided with the microorganism killing means, and the control means uses the fresh water introducing means to clean the pipe provided with the microorganism killing means when the circulation of the ballast water is stopped. The ballast water treatment apparatus according to claim 4, which is controlled to satisfy the condition.   The ballast water treatment apparatus according to any one of claims 1 to 5, wherein the microorganism killing means is an ultraviolet treatment means.   The ballast water treatment apparatus according to any one of claims 1 to 5, wherein the microorganism killing means is an electrolytic treatment means.