KR20150022312A - Recirculating Aquaculture System - Google Patents

Abstract

A) a breeding tank in which fish and shellfish are bred; b) a circulation and filtration unit for filtering and circulating the breeding water, comprising: a discharge line for discharging the breeding water in the breeding water tank; a filtration tank for firstly filtering the breeding water supplied from the discharge line; A supply line connected to the purification tank for feeding the water from the flow rate control tank to the breeding tank; and c) an oxygen supply unit for increasing dissolved oxygen in the purification tank A first oxygen generating unit for generating oxygen, and a first dissolving unit for dissolving oxygen supplied from the first oxygen generating unit.

Description

{Recirculating Aquaculture System}

The present invention relates to a circulatory filtration system, and more particularly, to a system for maximizing purification efficiency by circulating filtered water while supplying dissolved oxygen.

Fisheries, represented by fisheries and aquaculture, is a representative primary industry along with the enrichment industry, which is very important in economic and political relations between the country as well as between the countries. Especially, in the modern society where food resources are emerging as economic weapons, the development of fisheries and the development of fisheries and aquaculture technology are becoming more and more necessary.

The aquaculture industry is becoming more and more important in the fisheries industry in terms of maintaining the food of the people by supplying a large amount of fish and shellfish in a stable manner in response to changes in dietary habits while coping with fisheries damage caused by changes in weather patterns and coastal seas. The aquaculture industry is largely classified into a shallow aquaculture industry that artificially breeds marine life in the sea and a marine aquaculture that breeds fishes near rivers and lakes. , Diversification and production of cultivated varieties have been continuously increasing.

However, aquaculture industry in the sea has problems such as shrimp farming due to coastal reclamation and reclamation projects, pollution of coastal fisheries due to inflow of land wastewater and various marine accidents. In order to maintain the fishery environment and increase the fishery area, high-quality aquaculture production was possible. Although the aquaculture can improve the problems of coastal aquaculture due to red tide damage or inflow of pollutants from the land, there is still a limit to be difficult to cope with seasonal changes or changes in water temperature due to abnormal weather, There is a problem in that a lot of energy is consumed for maintenance and self-pollution dissolution.

Another alternative to land-based aquaculture is by recirculating filtration. The circulation filtration method uses biological filtration to separate and remove toxic substances generated in aquaculture through biochemical treatment using microorganisms or bacteria in the breeding water used in a breeding tank of a farm, Method and suspended filtration method.

Circulation filtration by microbial contact has been mainly applied to wastewater treatment devices. However, in the aquaculture industry, the circulation filtration method has had many difficulties in processing the excrements of seafood and the like, Lt; / RTI >

In addition, in the conventional circulation filtration method, air was supplied to the biological filtration tank for the rearing water treatment and an aeration device was installed to energize the flow of the microorganisms and smooth the discharge of the generated pollutants. However, It is difficult to activate biological filtration as well as physical stimulation, and there is a problem that anaerobic bacteria multiply in the filtration tank and the purification efficiency decreases.

Therefore, the circulation filtration method can only be applied to a small scale in the inland water surface, and has a limitation in designing a system suitable for aquaculture using sea water or a large scale.

However, the recirculating filtration mode has many advantages such as high resource utilization, energy saving effect, reduction of destruction of the sea environment, and various risks that may occur in the aquaculture process due to seasonal changes in water temperature or abrupt weather change. It has become an alternative to reduce. Therefore, it is necessary to improve the quality of fish and shellfish through the improvement of the aquaculture industry and cultivation by developing a more stable and highly efficient purification method for breeding water to be suitable for the circulation filtration system.

SUMMARY OF THE INVENTION The present invention has been made in view of the above technical background, and an object of the present invention is to provide a new circulation filtration system which can stably produce high quality seafood.

It is another object of the present invention to provide a culture system in which the purification efficiency is greatly improved by increasing the proportion of dissolved oxygen in the purification process of the breeding water.

It is another object of the present invention to provide a new system capable of supplying oxygen appropriately in the breeding water circulation filtration so as to be suitable for fish culture.

Other objects and technical features of the present invention will be more specifically described in the following detailed description.

In order to accomplish the above object, the present invention provides a method for producing a fish meal, comprising: a) a fish tank for breeding fish and shellfish; b) a circulation and filtration unit for filtering and circulating the breeding water, comprising: a discharge line for discharging the breeding water in the breeding water tank; a filtration tank for firstly filtering the breeding water supplied from the discharge line; A supply line connected to the purification tank for feeding the water from the flow rate control tank to the breeding tank; and c) an oxygen supply unit for increasing dissolved oxygen in the purification tank A first oxygen generating unit for generating oxygen, and a first dissolving unit for dissolving oxygen supplied from the first oxygen generating unit.

Preferably, the first dissolving device receives the feed water supplied to the filtration tank, dissolves oxygen supplied from the first oxygen generation unit, and supplies the oxygen to the filtration tank again.

Preferably, the purification tank includes a carrier to which an aerobic microorganism is attached, and a sterilizing device is added to the flow rate control tank, so that the sterilization process of the purified water purified through the biological process in the purification tank can be performed.

In addition, the present invention is also directed to a fuel cell system comprising a second oxygen generating unit for generating oxygen in addition to the oxygen supplying unit described above, and a second dissolving unit for dissolving oxygen generated in the second oxygen generating unit to the breeding water supplied through the supply line .

According to the present invention, it is possible to greatly improve the purification efficiency in the breeding water purification using the microorganisms, and also to supply the oxygen for the breeding of fish and shellfishes, so that the fish and shellfish culture of high quality is possible.

In addition, according to the present invention, the purification efficiency can be reduced to reduce the size of the septic tank, thereby reducing the size of the disinfection facility and optimizing the size of the entire aquaculture system, thereby enhancing the economical efficiency of the aquaculture industry.

In addition, due to the expansion of the aquaculture system by circulation filtration system, it is possible to stabilize the aquaculture system by coping with seasonal changes in water temperature and water temperature, and greatly reduce the energy consumption required in the aquaculture process, thereby enhancing the competitiveness of the aquaculture industry.

In addition, it is possible to significantly reduce the pollution of the sea due to the continuous wastewater generated from the coastal farms, thereby minimizing the environmental destruction caused by the aquaculture and changing the location of the farm to the inland area And can greatly improve the location conditions of aquaculture.

1 is a schematic diagram of a circulation filtration system according to an embodiment of the present invention;
2 is an enlarged view showing the oxygen supply unit
Figure 3 is a schematic diagram of a circulation filtration system in accordance with another embodiment of the present invention;
4 is an enlarged view showing the oxygen supply portion of the supply line
FIG. 5 is a graph showing a water circulation filtration process

The present invention proposes a new aquaculture system for the production of high quality aquaculture products while saving the energy consumed in the aquaculture process by recycling the water in the aquaculture production on the land using seawater.

Specifically, the aquaculture system of the present invention first filters the water drained from the aquaculture tank, and supplies oxygen to the dissolution apparatus so that the dissolved oxygen is supersaturated, and the bottom of the septic tank filled with the aerobic microorganism- After the breeding water was purified in the septic tank, the breeding water introduced into the flow control tank was sterilized by a sterilizing device, and then the breeding water was circulated to the breeding water tank again, and an oxygen dissolving device was added to the feed line By enriching the dissolved oxygen, it is possible to produce high quality fish and shellfish in high quality breeding water.

1 is a schematic diagram showing the configuration of a preferred embodiment of the aquaculture system 100 of the present invention. The system includes a plurality of breeding tanks 110a, 110b, and 110c for breeding fish and shellfish, and a circulation and filtration unit for filtering and circulating the breeding water. The filtration and purification unit 120 and the breeding water in the breeding tank are discharged A supply line 140 for supplying the breeding water from the flow rate control tank to the breeding water tank, and an oxygen supply unit 150 for increasing dissolved oxygen in the purification tank.

In the process of breeding fish and shellfish, the rearing water in the rearing tank accumulates the excrement and feed, and the contaminated water is transferred to the circulating filter through the discharge line to be filtered and purified. The purified feed water is fed back to each breeding tank through the feed line. The feed line may be provided with a valve 146 which interrupts the feedwater flow of the individual line supplying the feed water to the pump 142, the distributor 144 and the breeding tank. Although not shown, a pump may be installed in the discharge line to facilitate delivery of the breeding water, and a valve may be further provided to control the flow of the breeding water delivered to the circulation filtration unit. The number and type of discharge lines, the number and type of supply lines may vary depending on the number and arrangement of the breeding tanks in the aquaculture system.

In the present invention, the filtration and purification unit may include a filtration tank 122 for primarily filtering the breeding water supplied from the discharge line, a purification tank 123 connected to the filtration tank for biologically purifying the breeding water, And a flow rate regulating tank 124 for regulating the flow rate. Filtration tanks, for example, can remove floating or settled contaminants in breeding water by physical filtration using membranes. In addition, the septic tank contains microorganisms, and the microorganisms can purify the water by a biochemical action of decomposing organic matter in the water. In order to improve the purification efficiency, it is preferable that the purification tank includes, for example, a carrier to which an aerobic microorganism is attached. The flow control tank serves as a buffer to keep the entire flow rate uniform before circulating the purified water through the purification tank to the breeding tank through the feed line. The flow control tank is provided with a sterilizing device to perform a biological process It is possible to carry out the sterilization process of the purified water.

In the aquaculture system of the present invention, an oxygen supply unit is provided in the septic tank to increase dissolved oxygen. The oxygen supplying unit includes a first oxygen generating unit 152 for generating oxygen and a first dissolving unit 154 for dissolving oxygen supplied from the first oxygen generating unit. Oxygen supplied in the gaseous state from the oxygen generating unit is dissolved through the dissolving unit and supplied to the purification tank in a liquid state, so that the dissolved oxygen (DO) of the purification tank can be rapidly increased and thus the activity of the microorganism can be actively maintained.

The microorganisms in the septic tank consume a large amount of oxygen in the decomposition process of organic matter. When the oxygen is not sufficiently supplied to the septic tank, anaerobic bacteria multiply in the septic tank and harmful metabolites (H ₂ S, CH ₄ , organic acid, etc.) The cleaning efficiency is rapidly lowered. In the present invention, by supplying oxygen into the purification tank in a state dissolved in a liquid, the dissolved oxygen concentration in the purification tank can be rapidly increased and the dissolved oxygen concentration can be maintained at a certain level or higher even in the continuous purification activity of the microorganism.

In the present invention, it is preferable that the oxygen supply unit supplies dissolved oxygen to the breeding water flowing into the purification tank from the filtration tank. For example, as shown in FIG. 2, the first dissolving apparatus 154 receives the breeding water supplied to the filtration tank through the outflow line 155a by operating the pump 156, 152 and then fed back to the filtration tank through the inflow line 155b. The breeding water firstly filtered in the filtration tank increases the dissolved oxygen through the oxygen supply unit and flows into the purification tank through the filtration tank outlet 122a. Through this breeding water flow, it is possible to supply the breeding water with increased dissolved oxygen in the septic tank more smoothly, and thus the microbial activity in the septic tank becomes active and the biological filtration efficiency is greatly improved.

In the present invention, the apparatus for dissolving gaseous oxygen in a liquid is not particularly limited. For example, the apparatus for dissolving gaseous oxygen in the liquid may be a dissolution apparatus according to the Japanese Patent No. 10-0881868 or 10-1135079 developed by the inventor of the present invention. Can be used.

The aquaculture system of the present invention may further include a second oxygen supplier 160 as shown in FIG. 3, in addition to the oxygen supplier 150 described above. The second oxygen supplying unit includes a second oxygen generating unit 162 for generating oxygen, a second dissolving unit 164 for dissolving the oxygen generated in the second oxygen generating unit to the breeding water delivered through the supply line, . The second oxygen supply unit further increases the dissolved oxygen of the breeding water that has undergone the filtration and purification process, thereby enabling the breeding of fish and shellfish cultured in the breeding aquarium to be active and to provide a quality culture.

4 shows the second oxygen supply unit 160 in detail. The supply line is connected to the flow rate adjusting tank 124 and the pump 166 is operated through the outflow line 165a. The oxygen supplied from the second oxygen generator 162 is dissolved in the second dissolver 164 and supplied to the individual lines of the supply line through the inflow line 165b. A valve 167 may be provided to individually isolate the flow of breeding water being delivered to the individual lines of the feed line through the second oxygen feed.

FIG. 5 shows the purification process of the breeding water in the aquaculture system according to the present invention. After the breeding water is discharged from the breeding water tank (step S110), primary filtration is performed in the filtration tank (step S120) After filtration (step S130), breeding water is supplied again to the breeding tank through the supply line (step S140). In this process, the breeding water having increased dissolved oxygen is supplied from the filtration tank to the septic tank (Step S210). In addition, the dissolved oxygen can be secondarily supplied to the breeding water after the purification process (Step 220).

This process is performed cyclically, and it is possible to control the circulation of the breeding water as needed or it can be repeatedly performed at intervals of time. In addition to being able to easily clean contaminated water in the breeding of seafood using seawater, it is also possible to prevent contaminated seawater from being discharged into the sea and to prevent the occurrence of marine pollution, Can be prevented from being used.

The form system proposed in the present invention can be equally applied to the sea water form as well as the inland water form.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modified, modified, or improved.

100: aquaculture system 110a, 110b, 110c:
120: Filtration and purification unit 122: Filtration tank
123: Septic tank 124: Flow control tank
130: discharge line 140: supply line
142: pump 144: dispenser
146: valve 150: first oxygen supply
152: first oxygen generator 154: first dissolver
156: pump 160: second oxygen supply
162: second oxygen generator 164: second dissolver
166: Pump 167: Valve

Claims (5)

a) a tank for breeding fish and shellfish,
b) a circulation filtration unit for filtering and circulating the breeding water,
A discharge line for discharging the breeding water in the breeding tank,
A filtration tank for primarily filtering the feed water supplied from the discharge line,
A purification tank connected to the filtration tank for biologically purifying the breeding water,
A flow control tank connected to the septic tank,
A supply line for supplying the breeding water from the flow rate adjusting tank to the breeding water tank,
c) an oxygen supply for increasing dissolved oxygen in the septic tank,
A first oxygen generator for generating oxygen,
And a first dissolving apparatus for dissolving oxygen supplied from the first oxygen generating unit
Circulation filtration system.
The method according to claim 1,
Wherein the first dissolving device receives the feed water supplied to the filtration tank and dissolves oxygen supplied from the first oxygen generation unit and then supplies the dissolved oxygen to the filtration tank.
The method according to claim 1,
Wherein the flow control tank is provided with a sterilizing device.
The method according to claim 1,
Further comprising a second dissolving unit for dissolving and supplying oxygen generated in the second oxygen generating unit to the breeding water transferred through the supply line, Form system.
The method according to claim 1,
Wherein the purification tank includes a carrier to which an aerobic microorganism is attached.

Images