KR101523515B1 - A operation ship for cage culture - Google Patents

Abstract

The present invention provides a working ship for cage culture to treat a sedimentary material produced when carrying out the cage culture. Especially, the present invention does not treat the sedimentary material in a special place but in a floating fish cage, thereby increasing operational convenience and realizing an economic benefit. According to the present invention, a facility to treat the sedimentary material, which is discharged from the floating fish cage inside a hull, is installed, thereby allowing a stable treatment operation without carrying the collected sedimentary material in the land.

Description

A working ship for cage culture

The present invention relates to a working vessel for use in a cage culture, and more particularly, to a cage used for cage culture, in which sediments occurring in performing cage culture are treated, in particular, The present invention relates to a working vessel for cage culturing which is capable of carrying out work, improving the convenience of work, and realizing economic benefits.

In general, seawater-based aquaculture is largely divided into a marine aquaculture and a marine cage-type, and the above-mentioned marine aquaculture is a method in which a target organism is transferred to a water tank provided on the land to artificially regulate the habitat environment, It is a method in which a target organism is confined by a net in a large space of the sea, and it is easy to process the sea water testis and water, and it is increasingly suitable for mass production.

Such a marine cage style is generally constructed by assembling and installing a wooden foot plate in a lattice shape and binding a plurality of connecting ropes around a farm as described in Korean Patent Registration No. 10-0475500 (name: Cage farm) It is structured to house the target organisms in each culture cell after netting in the culture cell under the square scaffold.

In addition, when the target organism is cultured through the cage culture, various pollutants emitted from the target organism and the food to be fed are submerged and deposited on the bottom of the farm, resulting in contamination through the sediment, The problem is not solved.

Accordingly, periodically, in the cage farm, the operation of collecting the sediments, transporting the collected sediments to another space, and then removing them is carried out.

In Korean Patent Laid-Open No. 10-2010-0097417 (titled "contaminated sediment suction device of fishing ground or farm), as described in the publication, a suction device capable of effectively collecting contaminated sediments of a farm site is known.

That is, the sediment is sucked through the suction device and transported to the treatment site for purification treatment.

However, in the conventional method of treating sediments in the cage farm, the sediment is collected and transported to a separate site provided with the treatment facility, and then the treatment operation is performed, so that the treatment operation is inconvenient, There is an uneconomical problem such as a high cost of processing.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the related art, and it is an object of the present invention to provide a method and apparatus for processing sediments, And to provide a working vessel for caged aquariums that can be processed at a cage farm to improve the convenience of work and realize economic benefits.

In order to accomplish the above object, the present invention provides a working vessel for cage culture, comprising: a hull having a space therein and adapted to run an aquarium; and a sedimentation unit disposed in a space of the hull, And a treatment facility adapted to perform an operation of separating the dehydrating liquid; The treatment facility includes a suction pump for sucking sediments in a cage farm, a separating means for separating the waste and gravel from the sediment supplied through the suction pump, and a sediment An oxidizing and deodorizing means which is supplied with oxidizing and deodorizing means for oxidizing and deodorizing the oxidizing and deodorizing means through the oxidizing and deodorizing means, primary agglomerating means for primary agglomerating by receiving the oxidative deodorization-treated sediments through the oxidizing and deodorizing means, The sludge separated from the sediment is supplied to the secondary sludge collection unit. The sludge separated from the sediment is supplied to the secondary sludge collection unit. A dewatering means for supplying and dehydrating the coagulated sludge through the dewatering means to form a dehydrated cake; And a sterilizing unit adapted to sterilize the treated water supplied with the suspended material through the filtration unit. The sterilizing unit sterilizes the sterilizing unit, .

The working vessel for cage culturing according to the present invention as described above is provided with a facility for treating the deposit discharged from the cage farm in the inside of the hull so that the processing can be performed stably without transporting the collected deposit to the land So that the convenience of the work can be improved and the economic benefit can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic perspective view showing a working vessel for cage culturing according to an embodiment of the present invention. Fig.
Fig. 2 is a schematic frontal view showing a working vessel for cage culture according to the embodiment. Fig.
Fig. 3 is a schematic view showing an example of a processing facility applied to a working vessel for cage culture according to the present embodiment; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, with reference to the accompanying drawings, a working vessel for cage culture according to a preferred embodiment of the present invention will be described in detail.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 3 are views showing a working vessel for cage culturing according to an embodiment of the present invention. The working vessel for cage culture 1 according to the present embodiment has a space portion inside, And a treatment facility 3 provided in a space portion of the hull 2 for performing sedimentation treatment on the sediments of the cage farm to separate and treat the sludge and the dewatered liquid .

That is, the water is run through the hull 2 to move to a cage farm established on the sea, and a pollutant removal operation is performed in a form environment such as sterilizing filtration processing of the sediments occurring in the cage farm in the moved place .

As a result, it is possible to perform the processing operation stably in the sea without transporting the collected sediment to the land, thereby improving the convenience of the operation and realizing the economic profit.

In the above, the hull 2 can be operated through the power means provided therein, and can be operated through a separate tugboat.

The sediment supplied to the treatment facility 3 may be introduced into the hull 2 through a suction device provided therein or may be dredged at the bottom of a cage farm through a separate suction dredger, The dredged material can be sucked through a discharge pipe provided in the hull, and the dredged material can be supplied and selected.

In the above, when the sediment is supplied through the pipeline, the risk to the target organism grown in the cage farm can be minimized. Can be preferably applied.

In the cage culture working vessel 1 according to the present embodiment thus configured, the treatment facility 3 preferably has a suction pump 10 for sucking sediments of the cage farm.

That is, the suction hose connected to the inlet port of the suction pump 10 is positioned to the lower part of the cage farm to suck up the sediment.

The treatment facility 3 has a separating means 20 for separating waste and gravel from the sediment supplied through the suction pump 10.

That is, in the sediment that is sucked through the suction pump 10, foreign substances larger than the sludge, such as rubbish and gravel, such as oysters and corrugations, are filtered out.

In this case, the separating means 20 may be a drum screen device or a screen cone bare device, and the hull 2 and a device suited to the working environment may be selected and applied.

In this case, the sand components mixed in the sediments damage various kinds of pumps and agitator devices constituting the treatment facility 3, so that it is preferable to separate the fine sand components in order to remove them. In this case, It is most preferable to apply the ciclon filter 21 to separate the fine sand components.

The treatment facility 3 has an oxidative and deodorizing means 30 for supplying and removing oxidized and deodorized sediments separated from the garbage and gravel through the separating means 20.

That is, the organic matter such as feed accumulated in the lower part of the cage culture farm contains harmful gas such as hydrogen sulfide and melcapane produced by the anaerobic fermentation for a long period of time in the sediment from which the foreign substance is separated through the separating means 20 .

The harmful gas is scattered into the air by the inhalation process, causing a bad odor at the work site, and is removed through the oxidative deodorization means (30).

The oxidizing and deodorizing means 30 oxidizes and oxidizes toxic substances such as hydrogen sulfide and melc captain, which are the main causes of odor, by utilizing the strong oxidation reaction of sodium hypochlorite produced during the electric reaction of sodium chloride (NaCl) contained in seawater To minimize the generation of odor, and to provide an electric reaction tank for facilitating the bactericidal action of the pathogenic microorganisms due to the high energy between the electrodes, which are issued during the electrolysis.

The treatment facility 3 has a primary agglomeration means 40 for primary agglomeration by receiving the sediment subjected to oxidative deodorization through the oxidative / deodorizing means 30.

That is, in order to easily precipitate a large amount of suspended solids that are mixed at the time of inhalation of the sediments in real time in a limited space, the suspended solids are aggregated using an organic coagulant which is harmless to seafood, and the suspended solids are easily removed in the following precipitation process Primary aggregation.

It is preferable that the primary agglomerating means 40 has an agglomeration reaction tank in which the flocculant supplied from the flocculant tank 41 is dissolved in the solution of the dissolving tank 42 so as to agglomerate the suspended solids Do.

The treatment facility 3 has a sedimentation means 50 for separating the treated water and the sludge by a sedimentation treatment in which sediments suspended in the sediment are coagulated through the primary aggregation means 40 .

That is, through the settling means 50, the sludge is separated into the lower part and the treated water is separated into upper part and filtered.

The sedimenting means 50 includes a primary sedimentation tank 51 which receives the sediment supplied from the first aggregation means 40 and sets sludge therein and a primary sedimentation tank 51 through which the primary sedimentation It is preferable to have a second settling tank 52 that receives the sediment and performs second settling.

Accordingly, the sediment from which the suspended flocculant in the primary flocculating means 30 is removed contains a small amount of micro floc which is mostly flocculated, sedimented and removed in the primary settling tank 51, The treated water passes through the secondary settling tank 52 and the suspended material is treated to 30 ppm or less which is below the treated water discharge standard.

In the above-described primary settling tank and secondary settling tank, it is preferable that a dehydrating belt press apparatus or a centrifugal separating apparatus for removing water from sediments and sludge is disposed to facilitate the separation of water, It is most preferable that the dewatering belt press apparatus is applied based on the characteristics.

The treatment facility 3 may further include secondary agglomerating means 60 for secondary agglomerating the suspended solids by receiving the sludge separated from the sediments via the sedimenting means 50.

That is, the settled sludge settled on the bottom of the primary settling tank and the secondary settling tank is transferred to the secondary flocculating means 60 for the next dewatering process by a separate transfer pump, and is then secondarily flocculated.

The secondary agglomerating means 60 has an agglomeration reaction tank in which a flocculant supplied from the flocculant tank 62 is dissolved in a solution of the dissolving tank 61 and agglomerates the suspended solids desirable.

The treatment facility 3 has a dehydrating means 70 for supplying and dehydrating the sludge agglomerated through the secondary agglomeration means 60 to form a dehydrated cake.

That is, the sludge secondary agglomerated through the secondary agglomeration means 60 is supplied and dehydrated to a moisture content of less than 50%.

The dewatering cake generated at this time is transferred to a separate carrier via a separate conveying element (for example, a conveyor belt), and is separately treated as a landfill or the like at a separate place.

The treatment facility 3 has filtration means 80 for filtering the remaining suspended solids by receiving the treated water separated from the sediment through the sedimentation means 50.

That is, the suspended solids that have not been treated in the treated water separated from the sludge through the settling means 50 are removed and then discharged to the outside.

In the above, it is preferable that the treated water that has been filtered through the filtration means 80 and then discharged to the ocean is sterilized through the sterilization means 90 intended to be sterilized.

That is, even if suspended solids contained in the treated water are treated below the emission standard, sediment contaminants that are inhaled have a large amount of pathogenic microorganisms due to decay of organic matter at the bottom of the farm for years, Since the water is discharged to the surroundings, the treated water discharged after filtration is treated so as to be discharged after sterilizing the pathogenic microorganisms.

In the above, the sterilizing unit 90 is preferably, but not limited to, an ultraviolet sterilizer.

In the cage culture working ship 1 according to the present embodiment, an automatic control valve is provided between the means and the means, and a sensor necessary for controlling each means (for example, a level sensor, A sensor for sensing a water quality and a sensor for sensing a water quality).

In addition, a central control unit including a PLC (Programmable Logic Controller) or an MCU (Micro Processor Control Unit) having a control program for interlocking the valves and the sensors to prevent overflow may automatically And can be designed to be manually controlled or controlled according to the demands of the customers.

It is preferable to include a control means incorporating a control program interlocked with a detection sensor installed in each of the means, and it is preferable that a self-diagnosis function for checking whether or not the machines normally operate is provided in each means, And means for displaying on the display panel when an abnormality occurs in one means.

In addition, it is preferable to provide a feed back system configured to stop the discharge of treated water and to reprocess the treated water by re-feeding the treated water when an abnormality occurs in the means during the treatment work of the sediments.

The operation and effect of the above-described working vessel for caged aquarium according to the present embodiment will be described in detail as follows.

When the sediment of the cage farm is to be treated, the hull 2 is first transported to the cage farm where it is desired to work.

At this time, the hull 2 is transported through a separate tugboat or a power means provided therein. After the cowhide farm is moved to the cage farm, the sediment of the cage farm is sucked through the suction pump 10 To the separating means (20).

That is, sediments sucked by the suction pump, which is selected from among a hydraulic pump, an air pump, and an electric motor pump, are normally sucked in an amount of about 10 to 15% Such as oysters, corrugations and gravel, which are contained in the filtrate.

In this case, a small amount of sand component exists in the sediments passing through the separating means 20, and it is preferable to remove the sand through the ciclon filter 21 or the like in order to separate and remove the sand components present in trace amounts in the sediments .

As described above, the sediments from which waste, gravel and the like are separated are sterilized by the oxidative / deodorizing means 30, so that in the electric reaction tank constituting the oxidative / deodorizing means 30, The effect of direct oxidization by electron exchange and indirect oxidization by active oxygen such as active hydroxyl group generated by electrodes and oxidative action of organic phosphorus, organic nitrogen, COD, And minute suspended matters such as oxidized organic matter are collected by the aluminum ion component generated by electrolysis in the electrode made of aluminum at the time of electrical reaction of the electric reaction tank to form fine flocs.

The method of purifying suspended solids by an electric reaction tank has an electrolytic sterilizing effect and a potential difference of oxidation and reduction generated between electrodes is 700 mV to 2,700 mV , The microbial cell membranes such as Escherichia coli are disrupted to sterilize harmful microorganisms present in the treatment process.

The sediment that has been sterilized by the oxidizing and deodorizing means 30 is agglomerated through the primary agglomerating means 40 and the sludge and the treated water are separated through the sedimenting means 50, , Is purified and discharged through the filtration means (80), and the treated water is discharged in a clear state of less than 20 ppm of the discharge standard SS.

In addition, in order to sterilize the microorganisms generated by the anaerobic fermentation in the sediments and the pathogenic microorganisms caused by the decay, the microorganisms are sterilized through the sterilizing unit 90. At this time, The harmful bacteria which may be present in the treated water are sterilized through ultraviolet sterilizing apparatus using ultraviolet rays having the strongest effect of 253.7 wavelength or various conventional sterilizing apparatus, and then discharged into the ocean.

Meanwhile, the sludge separated from the sediment through the sedimenting means (50) is agglomerated through the secondary agglomerating means (60), and then dehydrated through the dehydrating means (70) into the dehydrating cake.

The dewatered cake generated at this time is transferred to a separate carrier and processed separately such as landfill in a separate place.

As described above, the working vessel for cage culturing according to the present embodiment is provided with a facility for treating the sediments discharged from the cage farm in the inside of the hull, so that the processing can be performed stably without transporting the collected sediment to the land As a result, it is a technical feature to improve the convenience of work and realize economical benefits.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention as defined by the appended claims and their equivalents. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: Working vessel 2: Hull
3: Treatment facility 10: Suction pump
20: separating means 30: oxidizing and deodorizing means
40: primary aggregation means 50: sedimentation means
60: secondary agglomerating means 70: dehydrating means
80: Filtration means 90: Sterilization means

Claims (1)

And a treatment facility provided in a space portion of the hull to perform a treatment for separating the sludge and the dewatered liquid by sedimentation of sediments in the cage farms;
The above-
A suction pump for sucking sediments of the cage farm; separation means for separating the waste and gravel from the sediment supplied through the suction pump;
Oxidizing and deodorizing means for oxidizing and deodorizing the sediments separated from the garbage and gravel through the separating means;
Primary agglomerating means for primary agglomeration by receiving the oxidative deodorization-treated sediment through the oxidative deodorizing means;
A sedimenting means for separating the treated water and the sludge by performing a sedimentation treatment by supplying the flocculated sediment from the sediment through the primary agglomeration means;
A secondary agglomerating means for secondary agglomerating the suspended solids by receiving the sludge separated from the sediment through the sedimenting means;
A dewatering means for supplying and dewatering the flocculated sludge through the secondary flocculation means to form a dewatered cake;
A filtration means for filtering the remaining suspended solids by receiving the treated water separated from the sediment through the sedimentation means;
And sterilizing means for sterilizing the treated water supplied with the suspended water through the filtration means.

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