KR20190018904A - Support platform module, floating garbage blocking system having the same and floating garbage blocking method thereof - Google Patents

Abstract

The present invention relates to a mooring platform module and a marine floating garbage blocking apparatus including the same. The mooring platform module includes: two or more mooring platform modules moored in predetermined areas of the sea and arranged to be separated by a predetermined distance; a blocking shield blocking trash floating on the sea by connecting the adjacent mooring platform modules to each other; and a blocking shield support provided at the predetermined distance along the blocking shield.

Description

Technical Field [0001] The present invention relates to a mooring platform module, a marine floating garbage blocking device, and a marine floating garbage blocking method,

The present invention relates to a mooring platform module and a floating garbage blocking device having the mooring platform module. More particularly, the present invention relates to a floating garbage blocking device used for blocking garbage flowing into the ocean, To a mooring platform module that maximizes the effect of blocking floating garbage, and a floating garbage blocking device having the mooring platform module.

In recent years, the amount of waste floating in the ocean is increasing rapidly, and more than 8 million tonnes of waste per year is flowing into the ocean through rivers. When such marine litter is neglected, it is deposited on the seabed and obstructs propagation and settlement of aquatic organisms. Polymer compounds such as plastics are broken down into fine particles by blue and sunlight, which causes destruction of ecosystem and pollution. In Korea, 180,000 tons of marine litter are generated each year, which is estimated to be less than 30% of the total.

In order to remove the above-mentioned marine debris, interest in marine debris has increased as a result of discussions on the collection and disposal of Great Pacific Garbage Patch using a floating barrier. In Korea, since 2001, the barrier has been used in the Han River, Youngsan River, and Seomjin River basin, but its performance is insufficient.

According to the prior art, the main performance required for the barrier to block the marine floating garbage is the strength against the load caused by the marine / river environment and the floating garbage, and the stability against the position maintenance. However, domestic and foreign major products are focused on 'float collection function' in still water condition.

That is, the prior art products generally do not consider environmental and float loads, and are constructed of a horizontal boom and a flexible mesh structure, failing to meet the required durability at sea and being lost or damaged It is itself a cause of marine pollution.

The boom-type floating waste collection system described above is a cost-benefit ratio, but it is urgent to develop a new type of equipment. Conventionally, the boom type used in Korea has been designed without considering the characteristics of the marine state and the inflow waste, and it has been damaged or lost even in the normal use, and it causes another marine pollution itself.

Conventionally, the trash barrier is a boom type structure, and is vulnerable to marine environment loads such as wave, tidal force, and wind load, and it is difficult to specify the installation position thereof. As a result, ), Installation itself is impossible.

7 (a) shows a state in which the trash shielding film 300 'according to the prior art due to the deterioration of the weather, such as a typhoon, is damaged or damaged, failing to perform a normal function, and causing enormous economic and environmental problems. 7 (b) is a photograph showing the fact that secondary waste is increasing at the same time that marine ecosystem is adversely affected due to the loss of the trash barrier according to the prior art and left in a waste state (10 ') on the surrounding coastal area.

The present invention proposes a floating garbage disconnection device that incorporates marine plant design technology to prevent the spread of marine floating debris, which has recently been increasing, and has a semi-permanent mooring system considering environmental load It is an object of the present invention to provide a floating garbage disposal device having a mooring platform module.

In this case, the mooring platform module has a mooring section and a support structure having a structure that is easy to install and dismantle, a mooring section considering a drifting force due to environmental load and floating garbage, an image measuring the amount of floating garbage A photographing apparatus may be provided.

In order to solve the above problems, the present invention provides a mooring platform moored in a predetermined area of the sea and at least a part of which is exposed above sea level; A connecting portion to which a shield for blocking waste floating in the sea is connected; A mooring unit for mooring the mooring platform at a predetermined position in the sea; A ballast unit for providing buoyancy to the mooring platform; A central control device for controlling the ballast unit; And a power supply unit for supplying power to the central control unit and the ballast unit.

The apparatus may further include a sensing unit for sensing the tension acting on the blocking film by the trash and acquiring the collection amount data of the trash, and a transmission unit for transmitting the collection amount data.

In this case, the mooring platform may further include a photographing device for photographing the sea and acquiring image data, and a transmitting unit for transmitting the image data.

Further, the image photographing apparatus may be provided on the mooring platform.

The mooring unit may include at least one mooring anchor fixed at a predetermined position of the seabed and a mooring line connecting the mooring anchor and the mooring platform.

The power unit may be composed of a battery or a marine renewable energy generator including at least one of a solar generator, a wave generator, a tidal generator, a seawater temperature difference generator, and a small wind turbine generator.

The mooring platform may be provided with a cathodic protection system that is made of a corrosion-resistant material by seawater, coated with a corrosion-preventing liquid, or prevented from corrosion by seawater.

Further, in order to solve the above problems, the present invention provides a mooring platform module according to any one of claims 1 to 7, wherein the mooring platform module moored in a predetermined region of the sea and spaced apart by a predetermined distance. A blocking membrane that connects the neighboring mooring platform modules to each other to block waste floating in the sea; And a shielding support supporting member provided at a predetermined distance along the shielding film.

In this case, a waste sensing unit may be further provided for sensing floating waste flowing into the sea.

The garbage sensing unit may be installed on the land adjacent to the sea where the mooring platform module or the floating garbage is introduced.

Here, the garbage sensing unit is provided in the mooring platform module to capture image data to acquire image data, a transmitting unit to transmit the image data, and a display unit to display or store the image data transmitted from the mooring platform module The central control unit may be further provided.

According to another aspect of the present invention, there is provided a marine floating garbage blocking method for blocking marine floating garbage, comprising the steps of: providing a mooring platform module according to any one of claims 1 to 8, Spaced apart from each other by a predetermined distance; Sensing floating waste; And installing a shielding membrane when the floating garbage is sensed.

In addition, in the step of installing the barrier film, the barrier film may be installed to connect neighboring mooring platform modules to each other.

The method may further include detecting whether the floating garbage collected by the barrier is fully loaded, and collecting and discarding the floating garbage when the floating garbage is full.

In this case, if the floating waste is not detected, the step of disassembling the blocking film may further include disassembling the blocking film.

According to the floating garbage blocking device of the present invention, a new technical solution of the floating garbage blocking film can be presented.

Looking at the recent situation, it is taking a great deal of money to collect garbage from the island due to the spread of marine litter. Therefore, according to the present invention, it is possible to collect the garbage before the floating garbage spreads to the shore, thereby reducing the garbage collection and disposal cost in the book area.

In addition, it will be possible to develop overseas markets for Southeast Asian countries, which are located in the migration route of the typhoon in summer as well as in Korea where a large scale aquaculture using straw buoy is developed.

Furthermore, it is possible to reduce the economic damage of the marine industry and marine industry due to marine floating waste, and it is possible to reduce the maintenance cost by significantly reducing the possibility of breakage of the barrier structure caused by weather deterioration.

In addition, by preventing the spread of marine floating garbage, it can contribute positively to conservation of marine environment such as preservation of aquatic ecosystem and prevention of environmental pollution.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a floating garbage disposal apparatus according to an embodiment of the present invention;
FIG. 2 illustrates a mooring platform module according to an embodiment of the present invention; FIG.
3 is a schematic view showing a floating garbage disposal apparatus according to another embodiment of the present invention,
Figure 4 illustrates a mooring platform module according to another embodiment of the present invention;
FIG. 5 is a flowchart illustrating a marine floating garbage disposal method according to an embodiment of the present invention;
FIG. 6 is a flowchart illustrating a marine floating garbage disposal method according to another embodiment of the present invention. FIG.
7 is a view showing a floating garbage disconnection apparatus according to the prior art.

Hereinafter, embodiments disclosed in this specification will be described in detail with reference to the accompanying drawings. In this specification, the same or similar reference numerals are given to the same or similar components in different embodiments, and the description thereof is replaced with the first explanation. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. In addition, it should be noted that the attached drawings are only for easy understanding of the embodiments disclosed in the present specification, and should not be construed as limiting the technical idea disclosed in the present specification by the attached drawings.

FIG. 1 is a schematic view showing a state in which a floating garbage disconnection device 1000 according to the present invention is installed on the sea.

Referring to FIG. 1, the floating garbage dismounting apparatus 1000 includes two or more mooring platform modules 100 that are moored in a predetermined region of the sea and are spaced apart from each other by a predetermined distance, A shielding film 300 for shielding the garbage 10 floated in the sea by being connected to the shielding film support 300 and a shielding film support 200 provided at a predetermined distance along the shielding film 300.

Each mooring platform module 100 is configured to moor at a predetermined position in the sea.

In this case, a garbage sensing unit may be provided to sense floating garbage flowing into the sea. The garbage sensing unit may be installed on the land side where the floating garbage flows into the sea, or may be provided in the mooring platform module 100 as described later, or may further utilize artificial satellites (shot images).

The garbage sensing unit may be constituted by, for example, a video photographing device or a radar detector.

The embodiment shown in FIG. 1 shows an example in which a radar is used as an example of the garbage sensing unit 1400, but is not limited thereto.

The trash sensing unit 1400 determines whether floating trash is present in the sea, and the trash can 300 is installed.

When a certain amount of floating garbage is detected through the garbage sensing unit 1400, a barrier 300 and a barrier support 200 are installed between a plurality of mooring platform modules 100 pivoting in the sea, Can be performed.

The method of installing the shielding film 300 and the shielding membrane support 200 may be such that a shielding film or the like is installed in the mooring platform module 100 so as to be installed automatically.

Meanwhile, in the floating garbage disposal apparatus 1000 according to the present invention, a system for mooring at a predetermined position in the sea is adopted instead of a blocking apparatus floating in the sea as in the prior art, It is possible to obtain an effect of providing a shielding film.

For example, in order to block floating waste flowing into the ocean from a river or the like, the mooring platform module 100 is installed in a region where the downstream of the stream is connected to the ocean, effectively discharging the floating waste, .

FIG. 2 is a view showing a mooring platform module 100 included in the floating garbage interrupter 1000 according to the present invention.

Referring to FIG. 2, the mooring platform module 100 includes a mooring platform 120 moored in a predetermined area of the sea and exposed at least a part of the mooring platform on the sea surface, and a shielding film 300 blocking the floating wastes A ballast unit 170 for providing buoyancy to the mooring platform 120, a ballast unit 170 for moving the ballast unit 170 to a predetermined position, And a power supply unit 130 for supplying power to the central control unit 190 and the ballast unit 170. [

The mooring platform 120 may be formed to extend in a direction perpendicular to the sea surface as shown in the figure so that at least a part of the mooring platform 120 is not locked. At this time, the mooring platform 120 is arranged to moor in the sea. The height H of the sea surface 500 at which the mooring platform 120 is locked is changed according to the mooring position of the mooring platform 120 and may have a height of approximately 15 m to 50 m, for example.

The mooring platform 120 is made of carbon fiber reinforced plastic (CFRP), or made of steel or the like, and then coated with a corrosion inhibitor . In addition, a cathodic protection system is installed to prevent corrosion, and corrosion of the mooring platform is prevented in advance.

The mooring platform 120 has a connecting portion 160 to which the blocking membrane 300 can be connected, and can have a cylindrical pipe shape elongated in the vertical direction as shown in the figure. Therefore, the upper end of the mooring platform 120 may protrude from the sea surface, and the lower end of the mooring platform 120 may be disposed to be submerged in the sea surface.

On the other hand, the mooring part 140 is configured to moor the mooring platform 120 at a predetermined position in the sea.

In this case, the mooring unit 140 includes at least one mooring anchor 150 fixed at a predetermined position of the seabed 600, a mooring line 141 connecting the mooring anchor 150 and the mooring platform 120 .

The mooring anchor 150 may be fixed to the seabed 600 or the rock bed of the sea bed, and may be made of concrete or steel. In this case, the mooring anchor 150 can be firmly fixed to the seabed so that the mooring platform 120 does not float away from a predetermined position.

At least one mooring anchor 150 may be installed. It is preferable that at least two mooring anchors 150 are installed so that the mooring area of the mooring platform 120 does not become too wide, preferably four as shown in FIG. 1 Do. This is because the range of the mooring area of the mooring platform 120 becomes wider as the number of the mooring anchor 150 becomes smaller.

The mooring platform 120 is provided with a fixing portion 122 such as a fairlead or a hook and the mooring line 141 connects the fixing portion 122 and the mooring anchor 150, The mooring platform 120 is connected to the mooring anchor 150 and is moored.

The mooring line 141 may be appropriately determined depending on the load applied thereto, and may be composed of, for example, a steel wire or a steel chain. Even in this case, it can be manufactured by coating with a corrosion inhibitor to prevent corrosion caused by seawater.

Meanwhile, the connection method of the mooring line 141 may be appropriately selected, including a catenary mooring method having a relatively long length or a semi-taut method having a relatively short length.

Meanwhile, the mooring platform 120 may include a ballast unit 170 that provides predetermined buoyancy.

The ballast unit 170 may be configured to provide buoyancy to the mooring platform 120 to adjust the length of the mooring platform 170 immersed in the seawater. For example, the ballast unit 170 includes a ballast tank 171 into which ballast water is introduced and stored, an inlet valve 176 selectively opened and closed to allow the ballast water to flow into the ballast tank 171, An outflow valve 174 selectively opened and closed to allow the ballast water to flow out, and a pump 172 for performing inflow and outflow of the ballast water.

Thus, the central control unit 190 controls the ballast unit 170 to provide buoyancy to the mooring platform 120 as appropriate. Specifically, the inflow valve 176 may be opened and the pump 172 may be driven to introduce the ballast water into the ballast tank 171. In addition, the outflow valve 174 may be opened and the pump 172 may be driven to drain the ballast water from the ballast tank 171.

The mooring platform 120 may include a power supply unit 130 for supplying power to various electronic equipment including the central control unit 190, the ballast unit 170, and the like.

The power supply unit 130 may be installed in the mooring platform 120 to supply power to various electronic equipment without being affected by seawater.

The power supply unit 130 may include a battery or the like to supply power through the battery. However, when the power supply unit 130 is constituted by a battery or the like, it is inconvenient to replace the battery after a predetermined period of use. Particularly, since the mooring platform 120 is installed so as to moor at sea, such a replacement operation can be very difficult and time-consuming. Also, during the replacement of the battery, various electronic devices of the mooring platform module 100 may not operate and it may be difficult to effectively collect the floating garbage.

In the present invention, in order to solve such a problem, when the power source unit 130 is constructed, a power source unit can be constituted by a renewable energy generator that can be developed at sea. The power generator 130 may include a generator using renewable energy that can be utilized in the sea, although it is shown in the form of a solar generator using the solar collector 132. For example, the power source unit 130 may be a marine renewable energy generator including at least one of a solar generator, a wave generator, a tidal generator, a seawater temperature difference generator, and a small wind turbine generator.

In this case, work for replacing / replacing the power source unit is reduced, maintenance is simple, and renewable energy is used, which is advantageous in that it can be used semi-permanently.

Also, although not shown in the drawing, the power supply unit 130 can receive power from the land. For example, the power unit 130 may receive power through a submarine or maritime cable (not shown) connected to the land.

Meanwhile, when the blocking membrane 300 is connected to the connection unit 160 provided on the mooring platform 120, the floating waste collected by the blocking membrane 300 gradually increases and can be loaded. In this case, it is necessary to collect and remove floating waste collected by the blocking film 300. And a sensing unit 165 for sensing whether the floating garbage is fully loaded when the floating garbage is collected by the barrier film 300. [

For example, the sensing unit 165 may acquire the collection amount data of the floating garbage by sensing a tension acting on the blocking film 300 generated by the floating garbage. In this case, the collection amount data may be transmitted to the operator via the transmission unit 112. [

Accordingly, the operator can analyze the collection amount data transmitted through the transmission unit 112 to determine whether the floating garbage is full, and dispatch a ship or the like when the floating garbage is full. On the other hand, such floating waste judgment can be performed automatically through a central control device or the like. For example, the tension data transmitted through the transmission unit 112 may be compared with a predetermined threshold value to determine that the floating garbage is full when the threshold value is equal to or higher than the threshold value, and utilized as a calling signal of a ship or the like.

Although not shown in the drawings, the upper part of the mooring platform 100 may include a lighting device for navigating night voyages.

FIG. 3 is a schematic view illustrating a floating garbage disposal apparatus 1000 according to another embodiment of the present invention, and FIG. 4 illustrates a mooring platform module 100 according to another embodiment of the present invention. 3 and 4 are different from the above-described embodiment in that the aforementioned garbage sensing unit is provided in the mooring platform module 100. [ Hereinafter, differences will be mainly described.

Referring to FIG. 3, the mooring platform module 100 is configured to moor at a predetermined position in the sea, and is configured to acquire image data by taking an image of the sea, and to transmit the image data.

The image data acquired by the mooring platform module 100 is transmitted to a central control device 400 located on a land or a ship. In this case, the central control unit 400 may display or store the image data.

4, the garbage sensing unit of the embodiment shown in FIG. 4 may be provided in the mooring platform 120 to capture image data and acquire image data The image capturing apparatus 110 may be an image capturing apparatus.

The image data obtained by the image photographing apparatus 110 may be transmitted to the central control unit 400 through the transmission unit 112 described above.

The image capturing apparatus 110 may capture at least one of image data and image data. For example, the image capturing apparatus 110 may be at least one of cctv (closed circuit television) for capturing real time moving images or camera module for capturing still images.

In this case, the image capturing apparatus 110 may have a structure capable of preventing the infiltration of seawater, or may be provided with an image capturing unit capable of image capturing in consideration of the fact that the image capturing apparatus 110 is installed in the sea. At this time, the power supply unit 130 may supply power to the image capturing apparatus 110. [ Since the elements having the same numbers as those in FIG. 2 have already been described above, repetitive description will be omitted.

Hereinafter, a method for collecting floating garbage by installing the floating garbage disposal apparatus 1000 having the above-described configuration will be described.

5 is a flowchart illustrating a method of installing and operating a floating garbage disposal apparatus 1000 according to an embodiment of the present invention.

Referring to FIG. 5, the method for installing the floating garbage dismounting apparatus 1000 includes installing at least two mooring platform modules 100 at predetermined distances in a predetermined region of the sea (S410), detecting the floating garbage (S420), and installing the shielding film 300 when the floating garbage is detected (S430).

First, the mooring platform module 100 is installed in an area where the downstream of the river is connected to the ocean to block floating waste flowing into the ocean from a river or the like.

In this case, the mooring platform module 100 may be installed at least two or more of the mooring platform modules 300 so that the mooring platform 300 can be installed as described later. It can be installed at an appropriate distance.

 When the image data of the sea is acquired through the image photographing apparatus 110 of the mooring platform module 100, the image data is transmitted to the central control apparatus 400 installed on the land, . In this case, the transmitting unit 112 of the mooring platform module 100 transmits the sensing information in real time using mobile communication, satellite communication, short distance communication, or the like.

When the image data is transmitted to the central control unit 400, it is determined whether floating waste is present at the sea. This determination operation is performed by the operator checking the image displayed on the display unit of the central control unit 400 or automatically determining the image displayed on the display unit of the central control unit 400 through the image analysis apparatus or the like .

When the floating garbage (10) is detected, a blocking film (300) is installed.

In this case, the shielding film 300 and the shielding membrane support 200 can be installed between the mooring flat modules 100 by dispatching a shielding line or the like.

The blocking membrane 300 is installed to connect the mooring platform modules 100 to each other. At this time, the barrier layer 300 may be formed of a steel wire or a mesh connected to a wire frame.

In this case, since the load is applied to the blocking film 300 by the floating waste 10, the blocking film support 200 can be installed to increase the rigidity of the blocking film 300.

The barrier support 200 is a structure installed together with the barrier layer 300 when the barrier layer 300 is installed to support the weight of the barrier layer 300 and prevent the barrier layer from sagging due to its own weight. The barrier support 200 is a structure similar to the mooring platform module 100 (SPAR type, long cylindrical structure) and is a structure for minimizing the vertical motion due to external force.

The barrier support 200 may be spaced a predetermined distance along the barrier layer 300. The barrier support 200 may be made of steel or fiber reinforced plastics (FRP).

As described above, when the blocking membrane 300 is installed, the blocking membrane 300 can prevent the floating waste 10 from flowing into the ocean.

6 is a flowchart illustrating a method of installing and operating a floating garbage disconnection device 1000 according to another embodiment of the present invention.

Referring to FIG. 6, the step of installing the mooring platform module 100 (S410), detecting the floating waste (S420) and installing the barrier (S430) is similar to the embodiment described above.

In this case, when the floating garbage collection device 1000 collects the floating garbage, it is possible to detect whether the floating garbage 10 collected by the blocking film 300 is fully loaded (S440).

As described above, the mooring platform 120 may include a sensing unit 165 capable of sensing a tension acting on the blocking film 300 generated by the floating waste.

Accordingly, the collection amount data sensed by the sensing unit 165 is transmitted through the transmission unit 112, and the collection amount data may be compared with a threshold value to determine whether the floating waste is full.

When the floating garbage (10) is full, the floating garbage (10) can be collected (S450) by dispatching a ship or the like.

If the floating garbage 10 is not detected by the garbage sensing unit, the barrier film 300 is disassembled (S470). If the blocking film 300 is continuously installed while the floating waste 10 is not present, the lifetime of the blocking film 300 can be shortened, and furthermore, the blocking film 300 can be damaged or damaged to be. In addition, since it may interfere with the operation of the ship, the maritime installation of the barrier is aimed to be installed for a minimum period of time, if necessary.

The present invention may be embodied in various forms without departing from the scope of the invention. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100 .. Mooring Platform Module
200 .. barrier shield support
300 .. The barrier
1000 .. Floating garbage breaker

Claims (15)

A mooring platform moored in a predetermined region of the sea and at least partially exposed to sea level;
A connecting portion to which a shield for blocking waste floating in the sea is connected;
A mooring unit for mooring the mooring platform at a predetermined position in the sea;
A ballast unit for providing buoyancy to the mooring platform;
A central control device for controlling the ballast unit; And
And a power unit for supplying power to the central control unit and the ballast unit. The method according to claim 1,
A sensing unit for sensing the tension acting on the blocking membrane by the trash and obtaining the collection amount data of the trash, and a transmission unit for transmitting the collection amount data. The method according to claim 1,
The mooring platform module according to claim 1, further comprising: an image capturing device provided in the mooring platform to capture image data to acquire image data; and a transmitting unit to transmit the image data. The method of claim 3,
Wherein the image capturing device is provided at an upper portion of the mooring platform. The method according to claim 1,
The mooring portion
At least one mooring anchor fixed at a predetermined position of the seabed;
And a mooring line connecting the mooring anchor and the mooring platform. The method according to claim 1,
Wherein the power unit is comprised of a battery or a marine renewable energy generator comprising at least one of a solar generator, a wave generator, a tidal generator, a seawater temperature difference generator, and a small wind generator. The method according to claim 1,
Wherein the mooring platform comprises a cathodic protection system that is fabricated from a corrosion resistant material by seawater, coated with a corrosion inhibitor, or prevented from corrosion by seawater. A mooring platform module according to any one of claims 1 to 7, wherein the mooring platform module is moored in a predetermined region of the sea and is spaced apart by a predetermined distance.
A blocking membrane that connects the neighboring mooring platform modules to each other to block waste floating in the sea; And
And a shielding membrane support member provided at a predetermined distance along the shielding membrane. 9. The method of claim 8,
Further comprising a garbage sensing unit for sensing floating garbage flowing into the sea. 10. The method of claim 9,
Wherein the garbage sensing unit is installed on a land adjacent to the sea where the mooring platform module or the floating garbage is introduced. 11. The method of claim 10,
The garbage sensing unit
And a central control unit for displaying or storing the image data transmitted from the mooring platform module is further provided to the mooring platform module, Wherein the flue gas blocking device comprises: A marine floating garbage blocking method for blocking marine floating garbage,
Installing two or more mooring platform modules according to any one of claims 1 to 8 at a predetermined distance in a predetermined region of the sea;
Sensing floating waste;
And installing a blocking membrane when the floating garbage is detected. 13. The method of claim 12,
In the step of installing the blocking film,
Wherein the blocking membrane is installed to connect adjacent mooring platform modules to each other. 13. The method of claim 12,
The method of claim 1, further comprising the steps of: detecting whether the floating garbage collected by the barrier is fully loaded; and collecting the floating garbage when the floating garbage is full. 13. The method of claim 12,
Further comprising the step of disassembling the floating membrane when the floating sludge is not detected.

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