KR20190070152A - Method for Management of Fish-raising Farm Using Nano-bubble and Micro-bubble - Google Patents

Abstract

The present invention relates to a method for managing a fish farm using nanobubbles and microbubbles, and more specifically, to a method for managing a fish farm using nanobubbles and microbubbles, which selectively supplies microbubbles and nanobubbles in a fish farm to supply oxygen in a high concentration and at the same time, floats feed stacked on the bottom surface to increase usability of the feed and improves water quality by removing contaminants. To this end, the present invention comprises the steps of: supplying nanobubbles in 50-5,000 nm in a fish farm for a predetermined time; supplying microbubbles in 6-500 μm for a predetermined time after supplying of nanobubbles; and removing floated contaminants on a surface of the fish farm using a scraper means after supplying of microbubbles. After removing contaminants, the steps are repeated. In addition, another embodiment of the present invention comprises a growth managing step of repeating a step of supplying microbubbles in 6-500 μm for each set time during the step of supplying nanobubbles in 50-5,000 nm in the fish farm; and a contaminant removing step of performing for each set time during the growth managing step, supplying microbubbles in 6-500 μm to float precipitated sedimentation on the bottom surface, and removing the sedimentation. After the contaminant removing step is performed, the growth managing step is re-performed.

Description

[0001] The present invention relates to a nano-bubble and micro-bubble method,

The present invention relates to a method for managing a farm site using nano bubbles and micro bubbles. More particularly, the present invention relates to a method for managing a farm site using nano bubbles and micro bubbles. More particularly, the present invention provides microbubbles and nano bubbles selectively in a farm, And to a method for managing aquaculture using nano bubbles and microbubbles capable of improving water quality through removal of contaminants.

In general, seawater-based aquaculture can be broadly divided into aquaculture tank type and marine cage type.

The land aquaculture is a method of cultivating the organism by artificially controlling the habitat by moving the organism to the aquarium of the land, and the sea caged aquaculture is a method of harvesting the organism by netting in a large space of the sea.

Unlike marine aquaculture farming, marine aquaculture farming does not require the exchange of seawater, and it has been gradually increasing due to the advantage of mass production of fish. In these marine cage cultures, feeding is generally done by the person spraying the feed directly from the sea by spraying or dumping.

Around the cage farms, eutrophication due to aquaculture feed (fish food), fecal matter from the fishes of the target fish and body and nitrogen and phosphorus from the carcass are serious, and the bottom layer of the cage farm forms an anoxic layer, In addition to causing toxic gases, microorganisms in these eutrophicated sediments can degrade ecosystems by depleting dissolved oxygen in the water or making them very low in concentration, making it difficult for other benthic animals to consume oxygen.

1 is a perspective view showing a conventional cage farm.

Referring to FIG. 1, a conventional cage culture farm 10 is constructed such that a passage formed in a lattice form using a support bar 1 is connected in a state of buoyancy by a plurality of floats 2, A net 3 is installed on the passageway, and a conventional foot plate is installed on the passageway.

Conventional cage farms constructed in this way are designed to house fish and shrimp in their nets 3 and do not have separate devices for purifying seafood excrement and remaining aquaculture, There is a problem that the feed is sedimented and accumulated and the water is contaminated.

If the water is contaminated by the accumulated fish and shrimp such as fish and shellfish excrements and the remaining aquaculture feed, the health condition of the fish or shellfish becomes worse, or if it is severe, it causes great financial damage to the crayfish farmers.

In the case of the conventional cage culture farm, since a net having a closed chamber structure is usually installed, the dissolved oxygen amount in the water is greatly lowered, which causes not only a great obstacle to fish and shrimp growth, There is a problem that causes a great deal of damage to farmers.

In addition to the environmental problems of the breeding environment in the aquaculture farm, various problems arise due to feeding. Such feeding problems are caused by feeding the fish and shrimp in the farm, Because the diets could not be distributed evenly, the food intake of the fish and shellfish was not constant, the growth was not good, the waste of the feed was wasted, and financial problems were caused by the overwork of labor expenses.

In order to solve such a problem, Korean Patent Registration No. 20-0297876 has developed a "feeding device for a cage farm" in which feed can be uniformly distributed in all corners.

By using the feeding device, it is possible to reduce the loss of the feed due to the direct feeding of the feed by the person, and it is possible to spray the feed at every corner, and the growth condition of the fish and shellfish is relatively good. In addition, the automation system operation by the timer solved the financial problem due to overpayment of personnel expenses.

Nevertheless, even if the feed is evenly distributed, if the rate at which the feed sinks from the water is faster than the rate at which the fishermen eat the feed (F), then the fish and shellfish will overtake the feed that is settling in the water while eating the feed (F) As shown in Fig.

In addition, fish and shellfish eat wells that settle down in the water, but because the feeds (F) that are stacked on the bottom of the water have a habit of not eating well, a lot of feed is stacked on the bottom of the water, And there is a problem that the quality of water is contaminated and it is not possible to provide high quality fish and shellfish to people.

Therefore, it is urgently needed to improve the farming environment of fishes and shrimps in the farm, and to improve the feeding efficiency of feed (F).

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a microbubble and a nano bubble selectively in a farm to supply high concentration of oxygen, And it is an object of the present invention to provide a method for managing a farm site using nano bubbles and micro bubbles capable of improving water quality by removing contaminants such as impurities.

The present invention has the following features in order to achieve the above object.

The present invention provides a method for producing nanobubbles, comprising: supplying nano bubbles having a size of 50 to 5000 nm for a certain period of time in a farm; Supplying a micro bubble having a size of 6 to 500 mu m for a predetermined time after supplying the nano bubble; And removing contaminants floating on the surface of the farm through scraper means installed on the upper side of the farm after the microbubble supply, wherein the steps are repeated after removing the contaminants.

In another embodiment of the present invention, the step of supplying microbubbles having a size of 6 to 500 mu m is repeated during the step of feeding nano bubbles having a size of 50 to 5000 nm in the farm, And a contaminant removal step of performing microbubbles of 6 to 500 mu m in size and settling time to flocculate sediments settled on the bottom surface and removing the settled material, Is performed again.

Here, the contaminant removing step may include a step of supplying a micro bubble having a size of 6 to 500 mu m for a predetermined period of time, and a step of removing contaminants floating on the surface of the farm through a scraper after the micro bubble is supplied.

In addition, when the bottom of the farm is the soil, aerobic microorganisms are activated by oxygen supply through the nano bubbles, thereby removing contaminants from the soil, thereby improving water quality.

According to the present invention, by controlling the supply of the nano bubbles and the supply of the micro bubbles according to the setting, it becomes possible to activate the water quality in the farm through the supply of the nano bubbles and to supply oxygen at a high concentration, It is possible to re-supply and remove various impurities or contaminants.

1 is a view showing a conventional farm.
2 is a view showing a feeding process of a conventional farm.
3 is a flowchart illustrating a process of a farm management method according to an embodiment of the present invention.
4 is a flowchart illustrating a process of a farm management method according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

First, the terminology used in the present application is used only to describe a specific embodiment, and is not intended to limit the present invention, and the singular expressions may include plural expressions unless the context clearly indicates otherwise. Also, in this application, the terms "comprise", "having", and the like are intended to specify that there are stated features, integers, steps, operations, elements, parts or combinations thereof, But do not preclude the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

3 is a flowchart illustrating a process of a farm management method according to an embodiment of the present invention.

Referring to the drawings, a method of managing a farm in accordance with an embodiment of the present invention includes: (a) supplying nano bubbles having a size of 50 to 5000 nm for a predetermined period of time in a farm; (Step S20) of supplying the microbubbles of the size of microbubbles and step (S30) of removing contaminants floating on the surface of the farm through the scraper after the microbubbles are supplied. .

In step S10, the nano bubbles are supplied in the form of ultra fine nano bubbles having a size of 50 to 5000 nm. The supply of nano bubbles destroys hydrogen bonds between the water molecules in the farm, And the fine bubbles are present in the water for a long time, so it is possible to supply a high concentration of oxygen in the water to provide a good growth environment for fish and shrimp such as fish and shrimp in a farm.

In addition, these nano bubbles are able to supply oxygen into the soil when the bottom of the farm is in the soil through the Brownian motion, so that the activity of the aerobic microorganisms can be further activated by increasing the oxygen concentration in the soil, Material removal becomes more favorable.

In addition, after the microbubbles are supplied for a predetermined time, the microbubbles are supplied in accordance with the control (S20). Such microbubbles are bubbles having a size of 6 to 500 mu m.

At this time, if it is supplied to the bottom side at the time of feeding, impurities or pollutants on the bottom surface are hit and raised together. If microbubbles are continuously supplied, impurities or contaminants can be raised to the surface of water in a farm.

In the step S20 of supplying the micro bubbles, the micro bubbles are continuously supplied to the bottom surface side for a predetermined period of time, thereby raising various contaminants deposited on the bottom surface.

Meanwhile, after the micro bubble is supplied, the step of removing the contaminants floating through the scraper means is performed (S30). The scraper means can be applied to the present invention as long as it is a means for removing suspended contaminants.

For example, in the case of a farm having a rectangular shape, the floating material can be moved and collected by a scraper having a length from one side to the other side, and a rotating type scraper having a plurality of rotating blades can be rotated, The floating material collected from the rotation center to the other end side may be moved and the final collected object may be configured to be collected on the end side.

In the step of removing the contaminants (S30), it is preferable that the supply of the microbubbles is performed to some extent in the course of continuously performing the microbubbles, and then the microbubbles are performed after the suspended substances are generated.

That is, when the supply of bubbles is stopped, the suspended contaminants settle down to the lower side, so that it is more efficient that the contaminant removal step is performed during the microbubble supply process.

As described above, according to the embodiment of the present invention, nano bubbles are supplied to improve the growth environment by supplying high-concentration oxygen to the soil in the water and bottom of the farm, and by supplying microbubbles according to the set time, By eliminating various pollutants, various problems caused by pollutants are improved, so that the commerciality of fish and shrimp in fish farms can be further improved.

4 is a flowchart illustrating a process of a farm management method according to another embodiment of the present invention.

Referring to the drawings, a farm management method according to an embodiment of the present invention includes a step of feeding a micro bubble having a size of 6 to 500 袖 m at a set time during a step of feeding a nano bubble having a size of 50 to 5000 nm into a farm, (S200), which is carried out at each set time during the growth management step (S100) and during the growth management step (S100), in which microbubbles having a size of 6 to 500 mu m are supplied to float the sediment- .

In the growth management step S100, a step of supplying a nano bubble S110 and a step of supplying a micro bubble S120 are sequentially performed. In the nano bubble supplying step S110, as in the above- Increase oxygen concentration of water in the farm to improve the growth environment and induce soil purification through aerobicization of the soil when the soil is in the bottom.

In step S120, microbubbles are supplied to the microbubbles in step S100. In step S100, microbubbles are supplied to the bottom surface of the microbubbles. It is possible to minimize the amount of feed that is settled and discarded and to prevent various kinds of water pollution caused by the settled feed in advance.

In addition, the microbubble feeding may be performed at the time of feeding the feed so that the feed rate is lowered after the feeding of the feed, or the feed is continuously placed on the surface or the middle area of the water in the farm without sedimentation.

It goes without saying that the supply time and the number of repetitions of the nano bubble supply step S110 and the micro bubble supply step S120 may be applied according to the setting.

The pollutant removal step S200 is performed according to the set time after the growth management step S100 is performed. The pollutant removal step S200 includes a step of removing the pollutant from the bottom surface To remove contaminants by floating them.

That is, the pollutant removal step (S200) may include a step S210 of supplying a micro bubble having a size of 6 to 500 mu m for a predetermined period of time, a step of removing contaminants floating on the surface of the farm through the scraper after the micro bubble is supplied The microbubble supply step S210 and the pollutant removal step S220 are the same as the microbubble supply step S20 and the pollutant removal step S30 of the embodiment described above, Omit it.

As described above, in the farm management method according to the present embodiment, high-concentration oxygen is supplied to the soil in the water and bottom of the farm through the supply of nano bubbles in the growth management step (S100) to improve the growth environment, Feeding the sedimented feed by feeding to the bottom side can increase the usability of the feed and prevent the water pollution caused by the alteration of the feed in advance.

In addition, by supplying micro bubbles in the contaminant removing step (S200), various kinds of contaminants precipitated on the bottom surface are removed, thereby improving various problems caused by pollutants, thereby improving the merchantability of fish and shrimp in the farm .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention .

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (5)

(S10) of supplying nano bubbles having a size of 50 to 5000 nm for a certain period of time within the farm;
A step (S20) of supplying a micro bubble having a size of 6 to 500 mu m for a certain period of time after the supply of the nano bubbles;
(S30) of removing contaminants floating on the surface of the farm through the scraper means after the microbubble is supplied,
Wherein the step of repeating the above steps is repeated after removing contaminants.
(S100) in which microbubbles having a size of 6 to 500 mu m are supplied for each set time during the step of supplying nano bubbles having a size of 50 to 5000 nm in the farm,
A contaminant removal step S200 of performing microbubbles of 6 to 500 mu m in size during the growth management step S100 and floating the settled material on the bottom surface and removing the settled material, ,
(S100) is performed again after the pollutant removal step (S200) is performed.
3. The method of claim 2,
The contaminant removal step (S200)
A step S210 of supplying a micro bubble having a size of 6 to 500 mu m for a predetermined time,
And removing the contaminants floating on the surface of the farm through the scraper after the microbubble is supplied (S220).
3. The method according to claim 1 or 2,
Wherein the bottom surface of the farm is made of concrete or soil.
5. The method of claim 4,
Wherein the aerobic microorganisms are activated by oxygen supply through the nano bubbles when the bottom surface of the farm is a soil, and the contaminants are removed from the soil to improve the quality of the aquaculture.

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