KR20210073698A - Liquid fertilizer Manufacturing System - Google Patents

Abstract

Disclosed is a system for manufacturing a refined aerobic liquid by-product fertilizer using anaerobic digestion of livestock manure, which comprises: a digestive fluid aerobic diversion treatment tank receiving and storing an anaerobic digestion liquid, which is anaerobically treated in a livestock manure and organic waste treatment device, through the lower end part thereof, performing aerobic treatment while transferring the anaerobic digestion liquid flowing in from the lower part to the upper side, and receiving aerobic microorganisms introduced to the upper side; an aeration tank receiving and storing the aerobic liquid aerobically treated in the digestion liquid aerobic conversion treatment tank and supplying oxygen to the stored digestion liquid to perform denitrification; and a refined liquid by-product fertilizer treatment tank receiving refined liquid by-product fertilizer treated and discharged from the aeration tank and passing the refined liquid by-product fertilizer through an immersion membrane while aerating the refined liquid by-product fertilizer to remove foreign substances for discharging refined liquid fertilizer. According to the present invention, the anaerobic digestion liquid to be treated and discharged from an organic waste treatment facility is treated while converting from an anaerobic state into an aerobic state, so that treatment speed is increased while preventing the occurrence of odors, thereby increasing productivity.

Description

Aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion solution {Liquid fertilizer Manufacturing System}

The present invention relates to a system for manufacturing aerobic liquid by-product refined fertilizer using livestock manure anaerobic digestion liquid, and more particularly, to an anaerobic digestion liquid that is processed and discharged from an organic waste treatment facility while converting from an anaerobic state to an aerobic state so that the odor can be treated It relates to a system for manufacturing aerobic liquid by-product refined fertilizer using livestock manure anaerobic digestion solution, which can increase the processing speed and improve productivity while preventing the occurrence of

In general, livestock wastewater including livestock manure contains nutrients such as solids, organic substances, and organic/inorganic nitrogen at a high concentration that is hundreds of times higher than that of general domestic sewage. It not only impairs efficiency, but also gives difficulties in facility maintenance.

In particular, when nitrogen and phosphorus are untreated and discharged into rivers and lakes, algae grow and become a potential cause of COD, and since the amount of oxygen consumption by ammonia nitrogen is very large, it is necessary to effectively treat nitrogen.

Accordingly, in order to treat high-concentration organic wastes such as livestock manure or food waste, techniques for separating solids and composting them and purifying liquid components to make liquid fertilizers (liquid fertilizers) are being developed. As a liquid fertilizer method, there are largely an aerobic method in which air is aerated and an anaerobic method in which fermentation is performed without air.

Liquid fertilizer production using aerobic fermentation has a fast fermentation rate, but an appropriate temperature must be maintained for the first activity of microorganisms in the liquid fertilizer process, and it is also useful for energy harvesting by using a surplus heat source from renewable energy generation. Once the microorganisms decompose organic matter, the temperature rises due to the heat generated during decomposition, so there is no need to warm it from the outside from then on, but the temperature drops as the amount of injected air increases.

In the case of using anaerobic fermentation, the fermentation rate is slow, but it is enough to simply stir the liquid component in an anaerobic state. In anaerobic conditions, organic matter is converted into soluble substances by lipolytic bacteria, fibrinolytic bacteria, and proteolytic bacteria, which are converted into organic acids by acid-producing bacteria. In the final stage, it is converted into acetic acid, hydrogen gas and methane gas by methane bacteria, and hardly decomposable substances remain.

However, the liquid fertilizer reactor of the prior art as described above is a method of simply stirring or aeration for the purpose of fermentation in addition to the storage of wastewater, but not only the odor and the fermentation rate are very slow, but also the initial microbial concentration is very small or the temperature In the winter when the temperature is low, the fermentation rate is very slow, and even after fermenting for 6 months to 1 year, it cannot be fermented in the desired fermentation state, so there is a problem that the processing speed and productivity are significantly reduced.

Therefore, there is a need to improve it.

On the other hand, domestic registration patent No. 10-0978125 (registration date: August 19, 2010) discloses "a waste liquid treatment facility capable of producing biogas and high-quality liquid manure and improving the quality of discharged water", and Patent Publication No. 10-2015-0050749 (Published date: 2015.05.11), "Ammonia inhibition reduction type anaerobic digestion system for livestock by-products" is disclosed.

The present invention was created by the above necessity, and since the anaerobic digestion liquid that is processed and discharged from the organic waste treatment facility is converted from an anaerobic state to an aerobic state and liquid manure is produced using the aerobic liquid, in the process of treating the anaerobic digestion liquid An object of the present invention is to provide a system for manufacturing aerobic liquid by-product purified fertilizer using livestock manure anaerobic digestion solution that can reduce the generated odor and increase the processing speed to improve productivity.

In order to achieve the above object, in the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to the present invention, the anaerobic digestion liquid anaerobically treated in the livestock manure and organic waste treatment apparatus is introduced into the lower part and stored, and in the lower part The anaerobic digestion liquid is transferred to the upper side and aerobized, and aerobic conversion treatment tank for digestion liquid into which aerobic microorganisms are introduced to the upper side, and aerobic liquid aerobicity from the digestion liquid aerobic conversion treatment tank is introduced and stored, and oxygen is stored in the digestion liquid An aeration tank for supplying and denitrification treatment, and a liquid fertilizer treated and discharged from the aeration tank flows in, and a liquid by-product purification fertilizer treatment tank that removes foreign substances by passing through an immersion membrane while aeration of the liquid fertilizer to discharge the purified liquid fertilizer characterized.

In addition, in the present invention, the digestion liquid aerobic conversion treatment tank includes a digestion liquid storage tank having an open upper surface and introducing the anaerobic digestion liquid downward, and an anaerobic liquid stirring member installed in the lower center of the digestion liquid storage tank to stir the anaerobic digestion liquid And, an exhalation liquid stirring member installed on the upper part of the digestion liquid storage tank and agitated by the anaerobic liquid stirring member, which is transferred to the upper side and agitated while in contact with air, and the aerobic liquid stirring member Accordingly, it is characterized in that it includes a foam removal unit installed in the digestion liquid storage tank to remove the foam generated in the exhaled liquid to spray the defoaming liquid and aerobic microorganisms.

In addition, in the present invention, the foam removing unit is provided at the upper end of the fire extinguishing liquid storage tank and includes an antifoam conveying pipe for transporting the defoaming solution, and a spray nozzle member coupled to the defoaming solution conveying pipe to diffuse and spray the defoaming solution. characterized by including.

In addition, in the present invention, the anti-foam solution transfer pipe is provided with a discharge pipe through which the anti-foam solution is discharged on the lower surface so that the spray nozzle member is fastened, so that eco-friendly organic fertilizer can be produced without using a polymer.

In addition, in the present invention, the injection nozzle member includes a fastening injection pipe having a threaded portion formed on its outer surface to be fastened to the discharge pipe, a diffusion plate disposed to be spaced apart from the injection port of the fastening injection pipe, and having a diffusion slot formed in a radial direction; and a plate fixing bracket to which one end is joined to the fastening injection pipe and the other end is joined to the diffusion plate so as to fix the diffusion plate to be spaced apart from the lower side of the injection hole.

In addition, in the present invention, the extinguishing fluid aerobic conversion treatment tank is characterized in that the exhaled fluid stirring member is suspended in the exhaled fluid stored in the extinguishing fluid storage tank, and ascends and descends according to a change in the level of the exhaled fluid.

In addition, in the present invention, the exhalation liquid stirring member, floating in the exhaled liquid, and a floating body fixed to the digestion liquid exhalation conversion treatment tank through a support line, the rotating shaft passes through the floating body to be submerged in the exhalation liquid. It is characterized in that it comprises a stirring motor fixed to the fluid, and a stirring blade coupled to the rotating shaft.

In addition, in the present invention, a plurality of the floats are provided to be spaced apart and interconnected through a connection pipe to prevent conduction.

As described above, the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to the present invention is aerobic conversion of digestion liquid so that the anaerobic digestion liquid treated and discharged from the organic waste treatment facility is converted from an anaerobic state to an aerobic state, unlike the prior art After treatment in the treatment tank, post-treatment is carried out in the aeration tank and the liquid by-product refined fertilizer treatment tank, so it is possible to remarkably reduce the occurrence of odor in the process of producing liquid manure using anaerobic digestion liquid, and increase the processing speed to increase the processing speed to fertilizer liquid by-product has the effect of improving the productivity of

In addition, according to the present invention, since the bubbles generated when the aerobic acid by-products are treated in the digestion liquid aerobic conversion treatment tank are removed using the bubble removal unit, there is no need to use a chemical (polymer component) defoaming agent to remove the bubbles, which is more eco-friendly Organic liquid by-product fertilizer can be produced.

1 is a schematic diagram for explaining a system for manufacturing aerobic liquid by-product purified fertilizer using livestock manure anaerobic digestion solution according to an embodiment of the present invention.
2 is an installation state diagram for explaining the foam removal unit of the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to an embodiment of the present invention.
Figure 3 is an enlarged side view of the main part for explaining the bubble removal unit according to an embodiment of the present invention.
Figure 4 is an enlarged perspective view of the main part for explaining the bubble removal unit according to an embodiment of the present invention.
5 is a cross-sectional view for explaining an exhaled liquid stirring member according to another embodiment of the present invention.
6 is a perspective view for explaining an exhaled liquid stirring member according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of the aerobic liquid by-product purified fertilizer manufacturing system using livestock manure anaerobic digestion solution according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a schematic diagram for explaining a system for manufacturing aerobic liquid by-product refined fertilizer using livestock manure anaerobic digestion liquid according to an embodiment of the present invention, and FIG. 2 is an aerobic liquid using livestock manure anaerobic digestion liquid according to an embodiment of the present invention. It is an installation state diagram for explaining the foam removal unit of the by-product refined fertilizer manufacturing system, FIG. 3 is an enlarged side view of the main part for explaining the foam removal unit according to an embodiment of the present invention, and FIG. 4 is a foam according to an embodiment of the present invention It is an enlarged perspective view of the main part for explaining the removal part.

1 to 4, in the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to an embodiment of the present invention, the organic material is treated and discharged in an anaerobic state in the livestock manure and organic waste anaerobic treatment apparatus The anaerobic digestion liquid is processed to produce liquid manure. When nitrogen, phosphoric acid, magnesium, etc. are mixed in the liquid fertilizer produced in this way, it is possible to easily manufacture a customized functional liquid by-product refined fertilizer suitable for the crops being grown, thereby reducing the use of chemical fertilizers and enabling soil reforming.

To this end, the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to an embodiment of the present invention is a digestion liquid aerobic conversion treatment tank in which anaerobic digestion liquid generated in the process of anaerobically treating livestock manure and organic waste is selectively introduced (100), the aerobic liquid aerobized from the digestion liquid aerobic conversion treatment tank 100 is introduced, and the aeration tank 200 for aeration by supplying oxygen to the aerobic liquid, and the liquid manure treated and discharged in the aeration tank 200 is purified and a liquid by-product refinery fertilizer treatment tank 300 .

In the digestion liquid aerobic conversion treatment tank 100, the anaerobic digestion liquid that is anaerobically treated in the livestock manure and organic waste treatment device (not shown) flows into the lower portion and is stored, and the anaerobic digestion liquid flowing into the lower portion is transferred to the upper side while exhaling the anaerobic digestion liquid will infuriate

The digestion liquid aerobic conversion treatment tank 100 includes a digestion liquid storage tank 110 into which anaerobic digestion liquid is put, an anaerobic liquid stirring member 120 for stirring the anaerobic digestion liquid in the digestion liquid storage tank 110 , and a digestion liquid storage tank 110 . ) includes an exhalation liquid stirring member 130 for agitating the exhaled liquid converted to an exhaled state, and a bubble removing unit 140 for removing bubbles generated according to exhalation liquid stirring.

The digestion liquid storage tank 110 has an open upper surface, an anaerobic liquid stirring member 120 is installed in the lower central portion, and an exercinated liquid stirring member 130 is installed in an upper side from the central portion. The digestion liquid storage tank 110 has an inlet 111 through which anaerobic digestion liquid is introduced at one side of the lower end, and an outlet 113 connected to the aeration tank 200 at one side of the upper end to discharge the exhaled liquid.

In addition, the extinguishing fluid storage tank 110 is provided with a support frame 115 in which the exhaled liquid stirring member 130 is supported on the inner surface of the central portion, and the stirring motor 131 of the exhaled liquid stirring member 130 is fixed to the inner surface of the upper end. For the motor support 119 is provided.

In addition, the upper layer of the anaerobic digestion liquid stored therein is converted to an aerobic state as the aerobic microorganisms for processing the anaerobic digestion liquid are input from the upper portion of the digestion liquid storage tank 110 and the water surface of the anaerobic digestion liquid is in contact with the outside air.

And the anaerobic digestion liquid stored in the digestion liquid storage tank 110 is agitated by the aerobic liquid stirring member 130 so that aerobicization proceeds more rapidly. In addition, the anaerobic digestion liquid stored in the lower portion of the digestion liquid storage tank 110 is stirred by the anaerobic liquid stirring member 120 while gradually coming into contact and stirring with the aerobic liquid in the upper layer, and rising while being aerobized.

The anaerobic liquid stirring member 120 is installed on the center line of the lower end of the digestion liquid storage tank 110 to stir the anaerobic gelatinization liquid.

The exhaled liquid stirring member 130 has a rotation shaft supported by the support frame 115, and at least two or more stirring blades are coupled to the rotation shaft to be spaced apart.

The aerobic liquid stirring member 130 according to this embodiment may be provided in a floating manner on the water surface of the anaerobic digestion liquid.

Since the anaerobic digestion liquid stored in the digestion liquid storage tank 110 is simultaneously stirred in the lower and upper portions of the digestion liquid aerobic conversion treatment tank 100 by the anaerobic liquid stirring member 120 and the aerobic liquid stirring member 130, anaerobic digestion liquid In the support frame 131 of the digestion liquid storage tank 110, the lower portion is anaerobic and the upper portion is anaerobic. The layers of the anaerobic digestion liquid are divided. And as the anaerobic digestion liquid is introduced into the inlet 111 of the digestion liquid storage tank 110, the anaerobic digestion liquid in the lower part is gradually moved upward to change into an aerobic state.

In addition, in the process of converting the anaerobic digestion liquid into aerobic liquid in the digestion liquid aerobic conversion treatment tank 100 , many bubbles are generated. At this time, the generated air bubbles are removed by the foam removal unit 140 .

The foam removal unit 140 is installed on the upper side of the fire extinguishing liquid storage tank 110 to spray the defoaming liquid into the fire extinguishing liquid storage tank 110 . To this end, the foam removal unit 140 includes an anti-foaming solution transporting pipe 141 to which the anti-foaming solution is transported, and a spraying nozzle member 143 installed in the anti-foaming solution transporting pipe 141 to spray the anti-foaming solution.

The defoaming liquid transfer pipe 141 is provided in a cross shape on the upper side of the fire extinguishing liquid storage tank 110, and a plurality of discharge pipes 141a for spraying the defoaming liquid on the lower surface are coupled to each other to be spaced apart. Since the defoaming liquid transfer pipe 141 is formed in a cross shape, it is possible to uniformly spray the defoaming liquid to all parts of the fire extinguishing liquid storage tank 110 .

In this embodiment, although it is shown that the defoaming liquid transfer pipe 141 is installed to have a cross shape, the installation form may be changed according to the needs of the user.

The injection nozzle member 143 is coupled to the discharge pipe 141a so as to spread the antifoam solution more widely while preventing it from being sealed by bubbles or foreign substances.

The injection nozzle member 143 includes a fastening injection pipe 143a having a threaded portion formed on its outer surface to be fastened to the discharge pipe 141a, a diffusion plate 143b disposed to be spaced apart from the injection port of the fastening injection pipe 143a, and a diffusion A plate fixing bracket 143c is provided for fixing the plate 143b to be spaced apart from the fastening injection pipe 143a. At this time, the plate fixing bracket 143c is formed in a “c” shape such that the center of the diffusion plate 143b is spaced apart from the lower side on the center line of the fastening injection pipe 143a, and one end is coupled to the outer surface of the fastening injection pipe 143a. and the other end is coupled to the central portion of the lower surface of the diffusion plate 143b.

The diffusion plate 143b is formed in the form of a disk, and the diffusion slot 143b' is formed so that the diffusion and spraying of the antifoam solution can be made more finely and efficiently. The diffusion slot 143b' is formed radially of the diffusion plate 143b.

The aerobic liquid discharged to the outlet 113 after aerobic treatment in the extinguishing liquid storage tank 110 is denitrified while being aerated by oxygen in the aeration tank 200 .

The aeration tank 200 is provided with a first aeration tank 210 in which the exhaled liquid is injected and stored therein, and a first aeration nozzle unit 220 provided at the lower inside of the first aeration tank 210 to spray oxygen. do. In this case, a plurality of first aeration nozzle units 220 may be provided to improve the aeration effect of the aeration tank 200 .

The liquid manure denitrified in the aeration tank 200 is transferred to the liquid by-product refinery fertilizer treatment tank 300, purified, and discharged.

In the liquid by-product purification fertilizer treatment tank 300, the liquid manure treated and discharged from the aeration tank 200 is introduced and stored, and the liquid manure stored therein is aerated and treated while using an immersion membrane to remove foreign substances from the liquid manure. Through this, it is possible to provide a liquid by-product refined fertilizer in which foreign substances are optimized.

The liquid by-product refined fertilizer treatment tank 300 includes a second aeration tank 310 in which liquid fertilizer is input and stored, and a second aeration nozzle unit provided at the lower inner side of the second aeration tank 310 to eject oxygen ( 320). At this time, an immersion membrane filtering device 330 is installed at the outlet side of the second aeration tank 310 to purify and discharge the liquid by-product purification fertilizer.

On the other hand, in the aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to an embodiment of the present invention, as shown in FIGS. 5 and 6 , the exhaled liquid stirring member may be raised or lowered according to the level of the exhaled liquid.

5 is a cross-sectional view for explaining the exhalation liquid stirring member according to another embodiment of the present invention, Figure 6 is a perspective view for explaining the exhalation liquid stirring member according to another embodiment of the present invention.

5 and 6, the exhalation fluid stirring member 150 according to another embodiment of the present invention is exhaled to stir the exhaled fluid while ascending and descending according to the level of the exhaled fluid stored in the digestive fluid aerobic conversion treatment tank 100 It may be provided in a form suspended in a liquid. Through this, even if the level of the exhaled fluid in the digestive fluid aerobic conversion treatment tank 100 changes, it is possible to effectively stir the exhaled fluid.

Specifically, the exhalation liquid stirring member 150 is coupled to the floating body 151 floating in the exhaled liquid, the stirring motor 153 fixed to the floating body 151, and the rotating shaft 153a of the stirring motor 153. It includes a stirring blade (155).

The floating body 151 moves up and down according to a change in the level of the exhaled liquid while being suspended in the exhaled liquid stored in the extinguishing liquid storage tank 110 . The floating body 151 is provided with a plurality of spaced apart so that two or more stirring motors 153 can be installed, and are interconnected to prevent conduction according to the operation of the stirring motor 153 .

At this time, the floating bodies 151 are interconnected through the connection pipe 151a to stably maintain a suspended state in the exhaled fluid, and the flow is minimized when ascending and descending according to the level of the exhaled fluid.

In addition, all the floating bodies 151 are connected to the extinguishing liquid storage tank 110 by the support line 151b, so that the lifting and lowering according to the water level is more stably maintained, and the overturning is completely prevented. In addition, the floating body 151 is prevented from colliding with the inner surface of the extinguishing liquid storage tank 110 by the support line 151b, thereby preventing the stirring blade 155 from being damaged by the collision.

The stirring motor 153 is fixed to the floating body 151 so that the rotating shaft 153a penetrates the floating body 151 and is immersed in the exhaled liquid, and the stirring blade 155 is coupled to the rotating shaft 153a.

The stirring blade 155 is prevented from collide with the extinguishing liquid storage tank 110 when agitating the exhaled liquid by the floating body 151 . Through this, the safety of the exhaled liquid stirring member 150 can be improved.

The aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid according to the present invention configured as described above is anaerobic digestion liquid discharged by processing organic waste including livestock manure, livestock waste, and food waste water in an organic waste treatment facility. Since the digestion liquid is input from the aerobic conversion treatment tank (100) and processed while it is converted from an anaerobic state to an aerobic state, it is possible to significantly reduce the generation of odors and increase the processing speed to improve the productivity of the liquid by-product refined fertilizer.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the claims.

100: extinguishing liquid aerobic conversion treatment tank 100: extinguishing liquid storage tank
120: anaerobic liquid stirring member 130: aerobic liquid stirring member
140: foam removal unit 141: defoaming liquid transfer pipe
143: injection nozzle member 143b: diffusion plate
200: aeration tank 210: first aeration tank
220: first aeration nozzle unit 300: liquid by-product purification fertilizer treatment tank
310: second aeration tank 320: second aeration jozzle part
330: submerged membrane filtration device

Claims (6)

aerobic conversion treatment tank in which the anaerobic digestion liquid that is anaerobically treated in the livestock manure and organic waste treatment apparatus is introduced into the lower part and stored, the anaerobic digestion liquid flowing in from the lower part is transferred to the upper side and aerobic, and aerobic microorganisms are introduced to the upper part;
an aeration tank in which the aerobic liquid aerobized in the digestion liquid aerobic conversion treatment tank is introduced and stored, and oxygen is supplied to the stored digestion liquid for denitrification; and
a liquid by-product refinery fertilizer treatment tank in which the liquid manure treated and discharged from the aeration tank is introduced, and the liquid manure is aerated while passing through an immersion membrane to remove foreign substances to discharge the purified liquid manure;
Aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid, characterized in that it comprises a.
The method of claim 1,
The digestion liquid aerobic conversion treatment tank includes: a digestion liquid storage tank having an open upper surface and introducing the anaerobic digestion liquid downward;
an anaerobic liquid stirring member installed in the lower center of the digestion liquid storage tank to stir the anaerobic digestion liquid;
an exhalation liquid stirring member installed in the upper portion of the digestive liquid storage tank and stirred by the anaerobic liquid stirring member to stir the exhaled liquid that is transferred to the upper side and is aerobized while in contact with air; and
a bubble removal unit installed in the digestive fluid storage tank to remove bubbles generated in the exhaled fluid according to the agitation of the exhaled fluid stirring member and spraying the defoaming fluid and aerobic microorganisms;
Aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid, characterized in that it comprises a.
3. The method of claim 2,
The foam removal unit may include: a defoaming liquid transport pipe provided at an upper end of the fire extinguishing liquid storage tank to transfer the defoaming liquid; and
and a spray nozzle member coupled to the anti-foaming liquid transfer pipe to diffuse and spray the anti-foaming liquid.
The aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid, characterized in that the defoaming liquid transfer pipe is provided with a discharge pipe through which the antifoam liquid is discharged on a lower surface to which the spray nozzle member is fastened.
4. The method of claim 3,
The injection nozzle member may include: a fastening injection pipe having a threaded portion formed on an outer surface thereof to be fastened to the discharge pipe;
a diffusion plate disposed to be spaced apart from the injection hole of the fastening injection pipe and having a diffusion slot formed in a radial direction; and
a plate fixing bracket having one end bonded to the fastening injection pipe and the other end bonded to the diffuser plate to fix the diffuser plate to be spaced apart from the lower side of the injection hole;
Aerobic liquid by-product refined fertilizer manufacturing system using livestock manure anaerobic digestion liquid, characterized in that it comprises a.
3. The method of claim 2,
The aerobic conversion treatment tank for digestion liquid is aerobic using livestock manure anaerobic digestion liquid, characterized in that the aerobic liquid agitating member moves up and down according to a change in the level of the aerobic liquid in a state in which the aerobic liquid agitating member is suspended in the expired liquid stored in the digestion liquid storage tank Liquid by-product refined fertilizer manufacturing system.
6. The method of claim 5,
The exhalation liquid stirring member, floating in the exhalation liquid, the floating body fixed to the digestion liquid aerobic conversion treatment tank through a support line;
a stirring motor fixed to the floating body so that the rotating shaft passes through the floating body and is immersed in the exhaled liquid; and
It includes; a stirring blade coupled to the rotation shaft;
The aerobic liquid by-product purified fertilizer manufacturing system using livestock manure anaerobic digestion liquid, characterized in that the floats are provided to be spaced apart from each other and are interconnected through a connecting pipe to prevent conduction.

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