KR101444206B1 - Multi -process system for aquaculture waste water with package type bio-filter - Google Patents

Abstract

The present invention relates to an integrated system for treating breeding water from a raising farm, wherein breeding water discharged from a raising water tank of a raising farm can be filtered. More specifically, multiple package-type biofilters having microorganisms culturing filtrates inserted therein are installed in a filtering water tank to be capable of being attached and detached. A sterilizing and vortex precipitating tank is disposed in a position before the filtering water tank, wherein breeding water is sterilized, solids are firstly precipitated, and the solids are secondly and thirdly precipitated by means of a vortex and an ascending and descending water flow. The solids are additionally precipitated in a discharging water tank for discharging final treated water from the filtering water tank. The breeding water can be efficiently treated in an integral and advanced mode. Each of the biofilters is easily separated so that the filtrates can be rapidly and easily washed and replaced. The package-type filtrates separated from the biofilters can be fed in a raising water tank for other marine products, if needed. Accordingly, several sorts of organic materials and culturing microorganisms adhered on the filtrates can be utilized as feeds, and cleaning is performed so that the filtrates can be re-mounted. Even when the organic materials adhered on the package-type filtrates are re-utilized as fertilizers and the like, the package-type filtrates are dipped in fresh water so that desalting can be easily performed. Consequently, filtering functions are improved, and useful components collected during a filtering process can be economically recycled.

Description

[0001] The present invention relates to a multi-processing system for aquaculture waste water with a package type bio-filter having a packaged bio-

The present invention is characterized in that a plurality of packaged biofilters in which a filter medium for culturing microorganisms is inserted is detachably installed in a filtration pumping tank and sterilization of breeding water and primary precipitation of solids, Disinfection and vortex settling tank for performing the second and third settling of the solid matter by the downward water flow and the additional settling of the solid matter in the discharge water tank of the final treated water through the filtration pumping tank are performed, The present invention relates to a complex water treatment system for aquaculture water having a packaged bio-filter capable of economically recycling useful solid components collected through an efficient complex treatment and filtration of the water for breeding.

Generally, in the aquaculture farms, a relatively large amount of fish is cultivated at a high density based on a limited space and water quantity. As a result, not only a variety of solids such as feed residue and fish excrement, Protein as an organic matter, fat component and ash are accumulated in the breeding water very quickly and the breeding water is contaminated.

Therefore, it is necessary to maintain the water quality of the breeding water at a certain level through the filtration treatment of the breeding water, and to prevent the water pollution in the adjacent rivers and the coastal waters due to the breeding water discharged from the aquaculture farm. And a biological filtration system for removing ammonia and nitrogen components contained in the breeding water by a microorganism is installed in the aquaculture farm.

As described above, the conventional water treatment system used in the aquaculture field is a system in which a filter medium (nonwoven fabric, sponge, sand, etc.) or a pellet filter (particle filter) , And the filtration medium in which the microorganisms have been cultured is also generally dispersed in the form of plastic particles in the water of the biological filtration tank.

Therefore, if the filter medium is used for a certain period of time to perform filtration of the farm water (drainage water), and then the filter medium is cleaned for reuse of the filter medium, or when the filter medium is replaced with a new filter medium, In addition to the separation and treatment of very difficult filter media under uneconomical conditions for discharging most of the water, there is also a problem in that filtration efficiency is lowered due to removal of useful microbial components contained in the filter medium.

In particular, the conventional water treatment system used in the aquaculture farm is to perform only the physical filtration treatment of the solid material contained in the breeding water and the biological filtration treatment of the breeding water. In this filtration tank, the sludge together with water, Has not been effective in terms of recycling components collected in the form of other uses.

In other words, assuming that 30-40% of the 100,000 ton / year compounded feed used in the aquaculture farm in Korea is contained in the form of a solid in the farm drainage, the amount of sludge Although the total amount reaches about 40 ~ 40 thousand tons per year, the feed residue and the fish excrement contained in the effluent are collected and disposed of in the solid filtration tank, while the ammonia and other nitrogen compounds generated in the fish metabolic process are mixed with fine solids It is collected and discarded in biofilter after treatment such as sedimentation method or foam float separation.

However, the above-mentioned solids such as feed residue and various organic substances in the breeding water are useful sources of microorganisms and bacteria necessary for the biological filtration treatment of the breeding water, and other species such as shrimp, sea cucumbers or lobsters other than fish (Heterogeneous) species can be fully utilized as a feed for aquatic organisms. Desalination treatment of sludge-type collection can be recycled as a good organic fertilizer, but the collection components in the farm drainage water reaching 3-40,000 tons per year can not be recycled Most of them are discharged to rivers or the sea, which causes secondary environmental pollution.

The most fundamental cause of the above-mentioned situation is that the useful components contained in the breeding water are effectively collected in the filtration process of the breeding water, and there is no way to easily recycle the same. Also, the seawater sludge collected from the filtration tank In case of recycling as fertilizer, it is necessary to carry out a severe desalination treatment of seawater sludge with high salt content, which is an uneconomical factor that the cost burden due to the desalination treatment of seawater sludge becomes greater than the advantage of recycling of seawater sludge The practical recycling of seawater sludge is also very difficult.

Registered Utility Model No. 20-0227408 of Republic of Korea (Announcement date: June 15, 2001) Korea Registered Utility Model No. 20-0218725 (Date of Publication: 04/02/2001)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a biofilter comprising a plurality of packaged biofilters in which a filter medium for culturing microorganisms is inserted, Disinfection of water and primary sedimentation of solids and disinfection and eddy-current sedimentation to perform secondary sedimentation of solids by vortexing and ascending and descending water are arranged, and even in the discharge water tank of the final treated water after filtration, By allowing additional sedimentation to be carried out, it is possible to efficiently combine the altitude treatment of the breeding water discharged from the aquaculture tank of the farm, and to easily separate each biofilter so that the washing or replacement of the filter medium can be carried out very quickly and easily And, if necessary, separate the filter media from the biofilter into other aquatic life forms By putting it into a water tank, it is possible to utilize various organic matter and cultured microorganisms attached to the filter medium as food. In this process, cleaning for re-mounting of the filter medium is performed, and when organic matter attached to the filter medium is recycled as fertilizer, A complex water treatment system for aquaculture water containing a packaged biofilter capable of economically recycling the useful components collected in the filtration process while improving the filtration performance by facilitating the desalination treatment by immersing in fresh water The technical problem is to provide.

According to an aspect of the present invention, there is provided a water treatment system including a sterilization settling tank for supplying breeding water in a state in which ozone gas is mixed through a feeding water supply pipe, a vortex settling tank connected to the sterilization settling tank by an inflow pipe, A filtration pumping tank connected to the vortex settling tank by an upflow induction pipe and having a plurality of packaged biofilters arranged vertically with a predetermined interval therebetween, And a treatment water discharge pipe connected to the discharge water storage tank in a state of having a valve mechanism, wherein the sterilization sedimentation tank, the vortex sedimentation tank, the filtration pumping tank, and the discharge water storage tank And a funnel-shaped sedimentation port is provided in the lower part, respectively, And a drain pipe having a valve mechanism is connected to the lower end of the port. The falling induction pipe extends downward from the vortex settling tank and is connected to the settling port of the filtration amphibious tank. The vortex settler is connected to the sterilization settling tank A float chamber communicating with the bottom side precipitation port in a state that the bottom surface is open and connected to the float chamber; a stand pipe installed through the center of the upper surface of the vortex chamber; And a discharge hole is formed in a lower end portion of the sedimentation induction pipe. The packaged biofilter includes a pipe-shaped filter casing having an outlet hole, And a filter cover which is assembled and installed at an opened upper end of the filter casing, A filter for culturing microorganisms inserted into the casing and an inflow passage for feeding water to be supplied to the bottom of the filter casing, wherein each bottom filter of the filtration and purification tank is provided with a lower side sedimentation port And a pipe-shaped filter mounting base on which a lower end portion of the filter casing is detachably assembled is fixedly installed on a bottom plate.

The package type biofilter may further include a center pipe installed in a vertical direction along an inner center portion of the filter casing, an outlet hole is formed through the filter casing and a front surface of the center pipe, The upper end of the center pipe is assembled with an assembly protruding from the center of the inner side of the filter cover, and the lower end of the center pipe is connected to the bottom of the filter casing Wherein the lower end inlet of the center pipe provides a feed water inflow passageway, the filter sheet comprising a mesh web of fibrous material having a width and a predetermined length corresponding to the height of the filter casing, And is installed in a state of being rolled around the center pipe, In another embodiment of the package type biofilter, a pellet filter is filled as a filter medium for culturing microorganisms in an inner space of a filter casing, the outlet hole is formed to pass through an upper end of a filter casing, The pellet filter may be used as a filter medium by processing aggregate, shell, porous plastic particles and the like.

In addition, in order to automate the water treatment system according to the present invention, a drainage pump is installed in the process water discharge pipe, a drainage level sensor for controlling the drainage pump is installed in the drainage storage tank, Wherein a sedimentation inducing pipe is vertically installed at the center of the discharge water storage tank, the treated water discharge pipe is inserted into a lower end opening of the sedimentation inducing pipe through a wall of the discharge water storage tank, Wherein the sedimentation tank is disposed in the form of a sedimentation induction pipe and a double pipe, and furthermore, in the sterilization sedimentation tank, a sedimentation tank half plate is installed at a position facing the outlet of the breeding water supply pipe, The upper and lower chambers along the guide frame installed inside the wall of the settling tank Characterized in that the position adjustment is made to be, and has been installed a water tank cover the upper end of the sedimentation tank and sterilized discharge reservoir, characterized in that the lower side of the UV lamp of the water tank cover installation.

According to the present invention as described above, the sterilization of the breeding water, the first precipitation of the solid matter, the second precipitation of the solid matter by the vortex and the ascending and descending water, the physical filtration through the filter medium and the biological filtration, The additional sedimentation process can provide an efficient combined altitude treatment of the breeding water discharged from the aquaculture tank, while also easily separating each biofilter to perform cleaning or replacement of the filter medium very quickly and easily Provides a possible effect.

In addition, by using the drainage pump of the process water discharge pipe associated with the level sensor of the discharge water storage tank, the process from inflow of the breeding water to discharge of the process water is automatically performed, while the periodical level of the filtration water tank It is possible to facilitate the removal of oxygen and carbon dioxide (CO ₂ ) from the filter medium by adjusting the air exposure period of the filter medium according to the fluctuation, and by installing a settling tank in the inflow path of the breeding water, the first settling amount of the solids, It is effective to provide a water treatment system of a more practical method and it is also effective to further maximize the sterilization and purification function of the breeding water by installing an ultraviolet lamp in the sterilization settling tank and the discharge water tank .

In particular, a filter sheet or a pellet filter in the form of a net is taken out of the filter casing as a filter medium used for filtration of the breeding water, and the filtration sheet or pellet filter is adhered to a filtration sheet or a pellet filter by directly feeding it into a water tank for aquatic organisms such as shrimp, sea cucumber, The micro-solids, organic matter and cultured microorganisms can be used as feeds for other aquatic organisms.

This has the effect of greatly reducing the cost of food for shrimp, sea cucumber or lobster, and the filtration sheet or pellet filter is cleaned naturally during the feeding process of the fish aquarium, It is possible to use the filter medium that has been used for feeding purposes without removing the filter medium from the tank and then put it back into the filter casing.

On the other hand, even in the case of trying to recycle the fine solid matter and the organic matter component, which are attached to the filter sheet in the form of a net, in a high quality organic fertilizer, if the filtration sheet is immersed in the water tank in which the fresh water is stored, It is possible to easily and easily carry out the desalination treatment required for the filtration sheet. Therefore, it is possible to fertilize the fine solid matter and organic matter components collected by the filtration sheet at a very low cost.

In addition, the sediment precipitated with each sedimentation port is also recovered in the form of sludge having the minimum water content, so that it can be recycled for the purpose of the sample which grasps the growth condition or disease condition of the fish culture or other purposes , It is very useful effect to prevent economic loss and secondary environmental pollution caused by discharging or disposal of the wastewater with a solid content of 3-40,000 tons / year, and to present a new paradigm for the disposal of the wastewater from the farm .

Brief Description of the Drawings Fig. 1 is a plan view showing a complex water treatment system for breeding water of a farm equipped with a packaged biofilter according to the present invention.
Fig. 2 is a side sectional view of Fig. 1; Fig.
3 is a side sectional view showing another embodiment of the present invention.
4 (a) and 4 (b) are cross-sectional side views of the main part of the packaged biofilter used in the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the complex water treatment system for aquaculture water containing the packaged biofilter according to the present invention comprises a sterilization settling tank 1 to which a breeding water supply pipe 7 is connected, And a discharge water storage tank 6 to which a treated water discharge pipe 8 is connected are connected to a water collection tank 4 having a plurality of packaged biofilters 5, And are sequentially arranged along the feeding direction.

In addition, a funnel-shaped sedimentation port 11 is provided below the sterilization sedimentation tank 1, the vortex sedimentation tank 2, the filtration pumping tank 4 and the discharge water storage tank 6, A drain pipe 12 having a valve mechanism V is connected to the lower end of the drain pipe 12 and a valve mechanism V is connected to the drain pipe 12 at a rear end It is preferable to construct a single line by using the connecting pipe 13 provided.

As described above, when each drain pipe 12 is constructed as a single line by the connecting pipe 13, the solids components discharged in the form of sludge from each of the settling ports 11 may be individually collected, It is also possible to collectively discharge and collect sludge-like solid components from the sedimentation port 11 collectively.

In the drawing, the sterilization settling tank 1 and the vortex settling tank 2 are disposed on the same water tank with one wall therebetween, while the filtration pumping tank 4 and the discharge water tank 6 are also disposed between the perforated plate partition 18 The two water tank structures are connected to each other by the upflow induction pipe 3a. In contrast, the disinfection tank 1, the vortex settling tank 2, the filtration pumping tank 4, The water storage tank 6 may be installed in a single water tank and connected by a pipe.

The breeding water supply pipe 7 serves as a piping line for supplying the breeding water discharged from the aquaculture tank of the farm to the water treatment system 10 according to the present invention through a reverse hydraulic pressure or pumping method, The ozone generator is connected to an ozone generator (not shown), so that the breeding water in the state where ozone gas is mixed through the breeding water supply pipe 7 is supplied to the sterilization settling tank 1.

As described above, the breeding water in the state where the ozone gas is mixed through the breeding water supply pipe 7 can be supplied to the sterilization settling tank 1, or the ozone generator can be directly connected to the sterilization settling tank 1, It is possible to supply only the number of breeding to the sterilization settling tank 1 in a state where the ozone generator of Fig.

In other words, mixing the ozone gas into the breeding water is considered to be an option that is not a necessity of the present invention, and it is possible to apply the sterilization treatment method by ultraviolet rays at the same time or simultaneously with the sterilization treatment by ozone gas It is possible to make it clear.

The sterilization settling tank 1 is connected to a vortex settler 3 provided in an eddy-current settling tank 2 by an inlet pipe 15a, and the vortex settler 3 is connected to a swirling vortex flow A stand pipe 16 for inducing a third precipitation of the solid material through the upward and downward flows of the breeding water passing through the vortex chamber 15, And a sedimentation inducing pipe 17.

The vortex chamber 15 is installed on the bottom plate 2a of the vortex sedimentation tank 2 so as to communicate with the bottom side precipitation port 11 with the bottom surface opened, The sediment induction pipe 17 is installed on the upper surface of the vortex chamber 15 in the form of surrounding the stand pipe 16 while the sediment induction pipe 17 is installed in the vertical direction so as to pass through the center side of the upper surface of the vortex chamber 15, And is extended to a position about 10 cm higher than the stand pipe 16.

The inflow pipe 15a is formed in a cylindrical vortex chamber 15 so that the breeding water flowing into the vortex chamber 15 from the sterilization settling tank 1 can induce a more smooth swirling vortex flow in the swirl chamber 15, And a plurality of discharge holes 17a are formed at the lower end of the sediment induction pipe 17 with a predetermined gap therebetween.

The vortex sedimentation tank 2 is connected to the sedimentation port 11 on the lower side of the filtration water tank 4 by an upflow induction pipe 3a and the upflow induction pipe 3a is connected to the filtration water tank 4, The sedimentation port 11 of the filtering water tank 4 is connected to the sedimentation port 11 of the filtration water tank 4 by the hydraulic water pressure from the vortex sedimentation tank 2, It is preferable to form a swirling vortex flow inside the precipitation port 11.

A plurality of packaged biofilters 5 installed inside the filtration and purification tank 4 are provided with a pipe-shaped filter casing 21 having an outflow hole formed therein and an upper end of the filter casing 21 A filtration material for culturing a microorganism inserted into the filter casing 21 and an inflow passage for the breeding water provided at the bottom of the filter casing 21 as main components And the bottom plate 4a of the filtration and purification tank 4 is provided with a bottom reinforcing bar 4b in the form of reinforcing flesh so as to more stably support the entire load of the biological filter 5. [

Each of the biological filters 5 is communicated with the lower side precipitation port 11 via the bottom plate 4a of the filtration and purification tank 4 by a breeding water inflow passage provided in the bottom portion thereof, The breeding water flowing into the filter casing 11 is lifted along the inner space of the filter casing 21 and then discharged to the outside through the filter medium and the outflow hole of the filter casing 21, The detailed configuration will be described later in detail with reference to Fig.

The discharge water storage tank 6 is disposed on the rear side (left side in the figure) of the filtration water tank 4 provided with the package type biofilter 5 with the porous plate partition 18 interposed therebetween, The final processed water is introduced into the discharge water storage tank 6 through the water dispersion hole 18a of the perforated plate partition 18 and the valve mechanism V is connected to the discharge water storage tank 6, And a process water discharge pipe 8 provided with a water supply pipe (not shown).

The water treatment system 10 may be operated in such a manner that the valve mechanism V provided in the treated water discharge pipe 8 is opened and the treated water is drained by an amount such that the breeding water is introduced into the water treatment system 10. However, To be automated in a more rational manner.

A drain pump 9 is connected to the treated water discharge pipe 8 at a position past the valve mechanism V in the manner of a flange joint 9a and the upper end corner sensor bracket 6a is provided with a level sensor 20 for controlling the drain pump 9 and the drain pump 9 is installed on a separate pump pedestal 9b so as not to be placed on the floor On the other hand, it is connected to the water level sensor 20 via a control cable or a control panel not shown.

In addition, a sedimentation induction pipe 19 is vertically installed at the center of the discharge water reservoir 6, and the treated water discharge pipe 8 passes through the wall of the discharge water reservoir 6 and flows into the sedimentation induction pipe 19, And the inlet side of the treated water discharge pipe 8 extends in the upward direction by a predetermined length and is arranged in a double pipe shape with the precipitation induction pipe 19. [

If the precipitation induction pipe 19 is applied to the treated water discharge pipe 8 in this manner, it is possible to induce additional sedimentation of the solid matter by the ascending and descending water flow in the discharge water storage tank 6, 19 are shown as being supported by the lower side precipitation port 11, it is also possible to separately provide support means for the precipitation induction pipe 19 inside the discharge water storage tank 6. [

In the meantime, the sterilization settling tank 1 is provided with a settling tank end plate 14 at a position facing the outlet of the feeding water supply pipe 7, and the feeding water supply pipe 7 is connected to the sterilization settling tank 1 Two of the settling tank fins 14 are also provided in the left and right inner sides of the sterilization settling tank 1 in total, and each of the settling tank fins 14 is connected to the sterilization settling tank 1, Downward direction along the guide frame 14a provided on the inside of the wall.

Since the sedimentation tank section 14 functions to guide the flow of the breeding water flowing into the sterilization settlement tank 1 from the breeding water supply pipe 7 downward, when the sedimentation tank section 14 is lowered, And the first settling amount of the solids can be reduced. When the settling tank 14 is raised, the first settling amount of the solids can be reduced by weakening the flow in the downward direction. In this way, It is possible to easily adjust the filtration load of the solids by the filter medium of the filter.

On the other hand, in the figure, two vortex coagulators 3 are provided, one for each left and right inside the vortex settling tank 2, and two vortex coaters 3 are arranged in this manner The second settling load of the solids by the swirling chamber 15 can be reduced to 1/2. In the case of the discharge water storage tank 6, on the basis of the structure, One on the right side and two in total on the right side.

Accordingly, the process water discharge pipe 8 and the precipitation induction pipe 19 provided with the drain pump 9 are similarly applied to the respective water storage spaces individually, and each water storage space is divided into the center side perforated plate partition 18, The two drain pumps 9 are connected in parallel with each other in a state in which they are communicated with each other, so that even if one drain pump 9 fails or malfunctions, And it is also advantageous to apply the precipitation port 11 for the discharge water storage tank 6 and the water level sensor 20 separately to the respective water storage spaces.

3 shows another embodiment of the water treatment system 10 according to the present invention in which a water tank cover 10a is installed at the upper end of the sterilization settling tank 1 and the discharge water storage tank 6, And an ultraviolet lamp 10b having a waterproof function is further provided on the lower side of the lamp 10a.

When the sterilization treatment by the ozone gas is performed in the sterilization sedimentation tank 1, the inner pressure of the water tank cover 10a of the sterilization sedimentation tank 1 is increased by the increase of the internal pressure caused by the off-gas It is preferable to provide an air vent pipe 26 for preventing the ultraviolet lamp 10b and means such as a switch for operating the ultraviolet lamp 10b and / 10a.

The outlet side of the breeding water supply pipe 7 passes through the lower sidewall of the sterilization sedimentation tank 1 instead of providing the settling tank 14 in the sterilization sedimentation tank 1 in accordance with the application of the water tank lid 10a as described above The first primary precipitation of the solids through the upward flow of the breeding water is induced by the predetermined length so that the packaged biofilter 5 provided in the filtration and purification water tank 4 is also provided in Figs. 1 and 2 And the rest of the configuration is the same as that described with reference to Figs. 1 and 2. Fig.

4 (a) and 4 (b) show a typical structure and installation state of a packaged biofilter 5 that can be used in the present invention. The biofilter 5 shown in FIG. 4 (a) 4, the biofilter 5 shown in Fig. 4 (b) has been applied to the water treatment system 10 of Fig. 3, but each biofilter 5 has been applied to the water treatment system 10 10) can be used interchangeably.

First, the packaged biofilter 5 shown in FIG. 4A includes a pipe-shaped filter casing 21, a filter cover 22 assembled and installed at the opened upper end of the filter casing 21, A center pipe 23 installed in a vertical direction along an inner center portion of the filter casing 21 and a filtering sheet 24 inserted between the filter casing 21 and the center pipe 23 The fitting method of the filter casing 21 and the filter cover 22 may be a fitting method or a screw fastening method.

In addition, breeding water outflow holes 21a (23a) are formed through the filter casing (21) and the entire surface of the center pipe (23) so as to allow the breeding water to flow through the filter sheet (24) The upper end of the center pipe 23 is assembled with an assembly part 22a protruding from the center of the inner side of the filter cover 22 while the lower end of the center pipe 23 is connected to the bottom surface of the filter casing 21. [ And the assembling method of the filter cover 22 and the center pipe 23 can be applied to the screw fastening method or the fitting method by the fastening part 23b as well.

Therefore, the lower end inlet 23c of the center pipe 23 provides the inflow passage for the breeding water, and the bottom plate 4a of the filtration water tank 4 as shown in FIGS. 2 and 4 (A) A bottom hole 4d for communicating each of the biological filters 5 with the lower side precipitation port 11 is formed and a lower end of the filter casing 21 is detachably attached to the upper side of each of the bottom holes 4d Shaped filter mounting base 4c is fixedly mounted on the bottom plate 4a.

The filtration sheet 24 for the biofilter 5 shown in FIG. 4 (a) can be any material that can achieve adhesion of micro-solids and organic substances contained in the breeding water and culture of microorganisms, However, it is preferable that a mesh sheet of a fibrous material having a width and a predetermined length corresponding to the height of the filter casing 21 is formed around the center pipe 23 so as to facilitate installation and separation of the filter medium, It is most preferable from the viewpoint of recycling.

Although it is advantageous to use synthetic fibers excellent in corrosion resistance against seawater, for example, nylon fiber, polyester fiber, acrylic fiber or the like, for the production of the mesh sheet, natural fibers may be used , It is desirable to use a mesh yarn in which a plurality of strands of thin fiber yarns are twisted and yarn is joined so that the adhesion performance of micro-solids and organic matters and the culture performance of microorganisms can be more assuredly assured And it is optimal if it is a fiber product which can provide a myriad of bristles on the surface of the net thread.

The package type biofilter 5 shown in FIG. 4 (B) is composed of a pipe-shaped filter casing 21 and a filter cover 22 assembled and installed at the opened upper end of the filter casing 21, And a pellet filter (particulate filter) 25 is filled in the inner space of the filter casing 21 as a filter medium for culturing microorganisms.

In addition, the outflow hole 21a is formed so as to pass through the upper end of the filter casing 21 and the inflow water inflow passage is formed as an inflow hole 21c provided on the bottom surface of the filter casing 21, The breeding water introduced through the bottom of the filter casing 21 is discharged to the upper end of the filter casing 21 after passing through the entire filtration path by the pellet filter 25 and the filtration pumping tank 4 The bottom hole 4d and the filter mounting base 4c provided in the bottom plate 4a of the first embodiment are the same as those described in Fig.

The pellet filter 25 may be one selected from among aggregates such as gravel or shells or shells of porous shells or porous plastic particles, or a mixture of two or more of the above materials may be used. In addition, Any kind of porous solid particles can be used as long as they are capable of achieving attachment of the micro-solids and organic components contained therein and cultivation of microorganisms.

Typical design dimensions of the major components of the water treatment system 10 of the present invention are shown in Table 1 below, but it is to be understood that the water treatment system 10 according to the present invention is limited to the dimensions shown in Table 1 below It is also possible to apply a larger size or a smaller size in accordance with the treatment of the breeding water,

Part Name Dimensional condition Sterilization Settling Tanks (1) Width: 800mm, Length: 200mm, Height: 520mm Vortex sump (2) Width: 800mm, Length: 350mm, Height: 520mm Filtration pumping tank (4) Width: 800mm, Length: 600mm, Height: 520mm Discharge water tank (6) Width: 800mm, Length: 300mm, Height: 520mm The sedimentation port (11) Width, Length: Same as the upper side water tank dimension, Height: 200mm The vortex chamber (15) Diameter: 300mm, Height: 200mm Stand pipes (16) Diameter: 70mm, Height: 200mm Precipitation induction pipes (17) Diameter: 250mm, Height: 300mm The perforated panel (18) (Filtration pumping water side) Width: 800 mm, Height: 520 mm, Water dispersion ball: 5 to 10 mm (Discharge water storage tank side) Width: 300 mm, height: 400 mm, water distribution ball: 5 to 10 mm Precipitation induction pipes (19) Diameter: 200mm, Height: 400mm Filter casing (21) Diameter: 70 mm, height: 500 mm, outflow hole: 3 to 5 mm The center pipe (23) Diameter: 16 mm, Height: 520 mm, Outlet: 3 to 5 mm Piping line (diameter) Breeding water supply pipe, treated water discharge pipe, falling induction pipe: 125mm
Inflow pipe: 30mm, drain pipe and connection pipe: 50mm

Two vortex sedimentators 3 are installed in the vortex sedimentation tank 2. Inside the filtration and saline solution tank 4 there are provided eight in the width direction and six in the longitudinal direction so that a total of 48 packaged type biological filters (5) are installed. However, it is revealed that the arrangement type and number of applications of the water can be arbitrarily adjusted according to the treatment capacity of the water and the size of the water tank.

It is preferable that a corrosion resistant plastic material such as PVC is used as the material of each component except the drain pump 9. The valve mechanism V is preferably a manual opening and closing ball valve using the same material, The height of the top ends of the stand pipes 17 and 19 and the biofilter 5, that is, the storage water level of the breeding water and the treated water, is 2 It is advantageous to place it under ~ 5cm.

Hereinafter, a series of procedures for processing the breeding water using the water treatment system 10 of the present invention will be described in detail with reference to FIGS. 2 and 3. FIG.

First, ozone gas is mixed into the breeding water using an unillustrated ozone generator before the breeding water discharged from the aquaculture tank of the farm is introduced into the sterilization settling tank 1 along the breeding water supply pipe 7, The breeding water introduced into the sterilization settling tank 1 with the gas mixed therein is sterilized by the ozone gas while the relatively large solid particles included in the breeding water are introduced into the sterilization settling tank 1 through the settling port Lt; RTI ID = 0.0 > 11). ≪ / RTI >

As described above, the amount of solids settled in the sterilization settling tank 1 can be increased or decreased by adjusting the position of the settling tank section 14 in the upward and downward directions, and in addition to a method of mixing ozone gas in the stock water, Alternatively, an ultraviolet lamp 10b may be installed in the sterilization settling tank 1 to perform a sterilization treatment by ultraviolet rays. Instead of performing the sterilization treatment in the sterilization settling tank 1, It is also possible to do.

The breeding water which has been sterilized and treated in the first solid state in the sterilization sedimentation tank 1 is supplied to the swirling chamber 15 of the vortex precipitator 3 via the inlet pipe 15a, A secondary precipitation of solids toward the precipitation port 11 is made in the interior of the vortex chamber 15 as the raising water is formed into a swirling flow in the cylindrical vortex chamber 15 by the passage.

After the second settling of the solids in the vortex chamber 15 as described above has been carried out, the water is raised along the stand pipe 16 of the vortex settler 3, and then flows along the inner space of the settling induction pipe 17 And then flows out to the discharge hole 17a at the lower end of the sedimentation inducing pipe 17. The sedimentation of the solid material through the upper surface of the vortex chamber 15 is performed according to the rising and falling flow of the sedimentation water.

The breeding water exiting the discharge hole 17a of the sedimentation inducing pipe 17 and stored in the eddy-current sedimentation tank 2 is supplied to the sedimentation port 4 on the lower side of the filtration water tank 4 via the inflow induction pipe 3a, (11), while the swirling water in the precipitation port (11) is formed into a whirling flow of swirling type by the tangential inflow path, the additional precipitation action of the solids inside the precipitation port (11) .

The breeding water having undergone the above-described process flows into each of the biological filters 5 installed in the bottom plate 4a of the filtration and purification water tank 4 and then the filter material inside the biological filter 5, that is, the filter sheet 24 Or the pellet filter 25 to the outside of the biofilter 5. The final treated water having passed through the biofilter 5 is discharged through the perforated plate partition 18 into the discharge water storage tank 6 .

The final treated water stored in the discharge water tank 6 is discharged to the outside of the farm through the treatment water discharge pipe 8 in accordance with the operation of the drain pump 9 by the water level sensor 20, If the drainage pump 9 is not provided, the operation is performed using the valve mechanism V provided in the process water discharge pipe 8, for example, can do.

Particularly, when the control method of the drain pump 9 by the level sensor 20 is applied, as shown in FIG. 2 and FIG. 3, the period of the filter water pump 4 from the pump operation water level to the pump stop water level It is possible to control the water level fluctuation so that the period of exposure of the filter medium inside each biological filter 5 mounted on the filtration water tank 4, that is, the filter sheet 24 or the pellet filter 25, It is possible to provide a useful advantage of easily performing oxygen supply and carbon dioxide (CO ₂ ) removal through the filter medium.

On the other hand, during the discharge of the final treated water, the flow of upward and downward flows of the treated water is also formed in the course of inflow of the final treated water to the inlet side of the treated water discharge pipe 8 through the lower end of the sedimentation induction pipe 19, And the solids component stored in the form of sludge in each of the sedimentation ports 11 is installed in the drain pipe 12 and the connection pipe 13 The valve mechanism V can be used to discharge the required amount at the required time.

As described above, the sterilization of the breeding water and the primary precipitation of the solids, the secondary precipitation of the solids by the vortex and the ascending and descending water, the filtration through the filter medium of the packaged biofilter (5) It is possible to efficiently combine advanced treatment of the breeding water discharged from the aquaculture tank through the precipitation process and also to easily separate the packaged biofilter (5) under the condition that the breeding water is not discharged, Replacement work can also be performed very quickly and easily.

The micro-solids and organic components adhered to and accumulated in the filter sheet 24 or the pellet filter 25 as the filter medium applied to each of the biofilm filters 5 are classified into microorganisms useful for the biological filtration treatment of the feed water according to the thickness of the filter layer Or a bacteria such as Nitrosomonas and Nitrobacter can be cultured so that after a certain period of time has elapsed after the start of the water treatment system 10, each biological filter 5 ) Of microorganisms and bacteria which are useful for the filtration material are cultured at a high concentration in a large amount, so that biological filtration as well as physical filtration of the breeding water becomes possible.

Of course, the filter sheet 24 or the pellet filter 25 is put into the filter casing 21 of the biological filter 5 so that the filtration treatment of the cultivated water by the microorganism can be performed simultaneously with the operation of the water treatment system 10 The microorganisms may be pre-inoculated and cultured in the filter medium before the microbial filtration. In this way, the microbial filtration and the physical filtration of the solids can be simultaneously performed in each of the biological filters 5, The fine solids and organic components attached to the sheet 24 or the pellet filter 25 can be recycled very easily and effectively.

As a representative example of the recycling method, when a fine solid matter and an organic matter component are adhered to the filter medium of each biological filter 5 in a large amount in the process of performing filtration of the water in the breeding water using the water treatment system 10 of the present invention, The filter medium is separated from the filter casing 21 of the biofilter 5 and then introduced into the aquarium of other aquatic creatures such as shrimp, sea cucumber or lobster. The inside of the filter casing 21 A new filter medium may be reinstalled or a filter medium cleaned by heterogeneous aquatic organisms may be reinstalled.

 That is, the micro-solids, organic matter, and culture microorganisms adhering to the filter sheet 24 or the pellet filter 25 become high-quality food for aquatic organisms such as shrimp, sea cucumber or lobster so that the filter sheet 24 or the pellet filter Shrimp, sea cucumbers or lobsters are collected on the filter sheet 24 or the pellet filter 25 side so as to be introduced into the filter sheet 24 or the pellet filter 25 It is to feed the attached micro-solids, organic matter and cultured microorganisms as food.

This makes it possible to greatly reduce the cost of feeding the shrimp, sea cucumber, lobsters, etc., and to clean the filter sheet (24) or the pellet filter (25) The filtration sheet 24 or the pellet filter 25 which has been used for feeding can be removed from the water tank without having to separately perform the cleaning operation of the filter sheet 24 or the pellet filter 25, It can be immediately re-attached to the filter casing 21 of the filter 5 and reused.

On the other hand, even when it is desired to recycle the fine solid matter and the organic matter component, which are attached in bulk to the net-like filter sheet 24, with a high-quality organic fertilizer, if the filter sheet 24 is immersed in a fresh water- The desalination treatment required for the fertilizing operation of the seawater sludge can be carried out easily and easily. Therefore, the fine solid matter and the organic matter collected by the filter sheet 24 can be fertilized at a very low cost.

In addition, the solids settled in the respective sedimentation ports 11 are recovered in the form of a sludge having a minimum moisture content, so that the use of the sample for grasping the growth state of the aquaculture and the presence or absence of the disease, Which can prevent the economic loss and secondary environmental pollution caused by discharging or disposing of the effluent from the farms with annual production capacity of 40 ~ 40 thousand tons together with solids, and to present a new paradigm for the disposal of farm drainage will be.

The process from the inflow of the breeding water to the discharge of the treated water using the drainage pump 9 of the treated water discharge pipe 8 associated with the level sensor 20 of the discharge water storage tank 6 The first settling amount of the solid material and the filtering load of the filter material can be adjusted by providing the settling tank section 14 in the inflow path of the breeding water. Accordingly, the water treatment system 10 In addition, an ultraviolet lamp 10b may be additionally installed in the sterilization settling tank 1 and the discharge water storage tank 6 to further maximize sterilization and purification functions of the water for breeding.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention by those skilled in the art without departing from the scope of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made based on the illustrated structure.

1: sterilization settling tank 2: vortex settler 2a, 4a: bottom plate
3: Vortex settler 3a: Fall-inducing pipe 4: Filtration pump
4b: Floor reinforcement bar 4c: Filter mounting bar 4d: Floor hole
5: Biofilter 6: Discharge water tank 6a: Sensor bracket
7: breeding water supply pipe 8: treated water discharge pipe 9: drainage pump
9a: flange joint 9b: pump base 10: water treatment system
10a: water tank cover 10b: ultraviolet lamp 11: settling port
12: drain pipe 13: connection pipe 14:
14a: Guide frame 15: Vortex chamber 15a: Inflow pipe
16: Stand pipe 17,19: Precipitation induction pipe 17a: Exhaust hole
18: Perforated plate partition 18a: Water distribution hole 19a: Lower end opening
20: water level sensor 21: filter casing 21a, 23a:
21b: Assembly hole 21c: Inflow hole 22: Filter cover
22a: assembly part 23: center pipe 23b: fastening part
23c: inlet 24: filtration sheet 25: pellet filter
26: Air vent tube V: Valve mechanism

Claims (10)

A water treatment system for filtration of breeding water used in a farm,
The water treatment system 10 is provided with a sterilization settlement tank 1 to which breeding water in the state in which ozone gas is mixed through a breeding water supply pipe 7 is connected to the sterilization settlement tank 1 by an inflow pipe 15a A vortex sediment generator 3 is connected to the eddy current settling tank 2 by an induction pipe 3a and a plurality of packaged types are connected to the inner bottom plate 2a, A biological water filter 5 is installed at a predetermined interval in the vertical direction and a discharge water storage tank 6 is provided at a side portion of the filtration water tank 4 with a perforated plate partition 18 interposed therebetween. And a process water discharge pipe (8) connected to the discharge water storage tank (6) in a state of having a valve mechanism (V)
A funnel-shaped sedimentation port 11 is installed below the sterilization sedimentation tank 1, the vortex sedimentation tank 2, the filtration pumping tank 4 and the discharge water storage tank 6, And a drain pipe 12 having a valve mechanism V is connected to the lower end of the filtration and purification tank 4. The upflow induction pipe 3a extends downward from the vortex settling tank 2 and is connected to the settling port 11 of the filtration water tank 4, In addition,
The vortex precipitator 3 includes a cylindrical vortex chamber 15 connected to the sterilization settling tank 1 by an inlet pipe 15a and communicating with the lower side precipitation port 11 in a state where a bottom surface is opened, A stand pipe 16 installed to pass through the center of the upper surface of the vortex chamber 15 and a stand pipe 16 mounted on the upper surface of the vortex chamber 15 in a manner to surround the stand pipe 16, 16), and a discharge hole (17a) is formed in the lower end of the sediment induction pipe (17)
The package type biofilter 5 includes a pipe-shaped filter casing 21 formed with an outlet hole 21a, a filter cover 22 assembled and installed at an upper end of the filter casing 21, A filter medium for culturing a microorganism inserted in the casing 21 and an inflow passage for feeding water provided at the bottom of the filter casing 21,
The bottom plate 4a of the filtration and purification tank 4 is provided with a bottom hole 4d for communicating each of the biofilter 5 with the bottom side precipitation port 11, Characterized in that a pipe-shaped filter mounting base (4c) on which a lower end portion of the filter casing (21) is detachably assembled is fixedly installed on a bottom plate (4a) on the upper side of the aquarium Complex water treatment system. The filter according to claim 1, wherein the packaged biofilter (5) further comprises a center pipe (23) installed in a vertical direction along an inner center portion of the filter casing (21)
An outlet hole 21a or 23a is formed through the entire surface of the filter casing 21 and the center pipe 23 and the filter medium for culturing the microorganism passes through the filter casing 21 and the center pipe 23 A filtering sheet 24 is inserted and installed between the filter sheets 24,
The upper end of the center pipe 23 is assembled with an assembly part 22a protruding from the center of the filter cover 22 and the lower end of the center pipe 23 passes through the bottom surface of the filter casing 21 , And a lower end inlet (23c) of the center pipe (23) provides a feed water inflow path. The filter sheet according to claim 2, wherein the filter sheet (24) is provided in a form of a mesh sheet of a fiber material having a width and a predetermined length corresponding to the height of the filter casing (21) Wherein the biological water treatment system comprises a packaged biofilter. The filter for culturing microorganisms according to claim 1, wherein the filter medium for culturing the microorganisms used in the packaged biofilter (5) is a pellet filter (25) filled in the internal space of the filter casing (21)
Characterized in that the outlet hole (21a) is formed through the upper end of the filter casing (21) and the inflow water inflow passage is an inflow hole (21c) provided on the bottom surface of the filter casing (21) Complex water treatment system of aquaculture water with a filter. The system of claim 4, wherein the pellet filter (25) is one selected from the group consisting of aggregate, shell, porous plastic particles, and mixtures thereof. The water treatment system according to any one of claims 1 to 5, wherein a drainage pump (9) is installed in the treated water discharge pipe (8), and a drainage level sensor (20) is installed on the surface of the culture tank. 7. The apparatus according to claim 6, wherein a sedimentation induction pipe (19) is vertically installed at the center of the discharge water reservoir (6), and the treated water discharge pipe (8) passes through the wall of the discharge water reservoir (6) 19 at the lower end opening 19a,
Wherein the inlet side of the treated water discharge pipe (8) extends upward by a predetermined length and is disposed in a double pipe form with the precipitation induction pipe (19). 8. The vortex collectors according to claim 7, wherein two vortex collectors (3) are provided on the inner left and right sides of the vortex settler (2), while the discharge water reservoir (6) A total of two water storage spaces, one at the left and one at the right,
The sedimentation port 11 for the discharge water storage tank 6 is applied individually to the lower side of the water storage space and the treatment water discharge pipe 8 and the sedimentation induction pipe 19 provided with the drainage pump 9 are also individually Wherein the water treatment system is applied to each water storage space separately. 6. The sterilization apparatus according to any one of claims 1 to 5, wherein the sterilization settling tank (1) is provided with a settling tank (14) at a position facing the outlet of the feeding water supply pipe (7)
Wherein the settling tank section (14) is adjustable in the upward and downward directions along a guide frame (14a) provided inside the wall of the sterilization settling tank (1). Complex water treatment system. The water treatment tank according to any one of claims 1 to 5, wherein a water tank cover (10a) is provided at the upper end of the sterilization settling tank (1) and the discharge water storage tank (6) 10b) are installed on the surface of the aquaculture water.

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