KR101372323B1 - System and method for making oxygenic liquid state fertilizer of livestock excretions including sterilizing and intermittent circulation - Google Patents

Abstract

The present invention relates to a system and a method for aerobic fertilization which include high temperature sterilization and intermittent circulation of liquid fertilizer and more specifically, to a system and a method for aerobic fertilization including high temperature sterilization and intermittent circulation of liquid fertilizer which convert into liquid fertilizer through a plurality of aerobic fertilization tubs which make liquid manure by selectively inputting livestock excretion extracts isolated from livestock excretions discharged from a cattle shed and nitrifying organisms or bacillus subtilis cultured from a microbial culture medium, and making aeration using air which is forcibly supplied from a blower. The present invention can rapidly stablize the liquid fertilizer tub at the beginning by selectively culturing the nitrifying organisms or bacillus subtilis which are favorable for liquid manure in the microbial culture medium, and increase liquid manure productivity by maintaining the liquid fertilizer tub. [Reference numerals] (AA) Aerobic fertilization system; (BB) Filterate; (CC) Solid-liquid separator; (DD) Solid matter; (EE) Tractor; (FF) Microbial culture medium; (GG) Composting facility; (HH) Take compost out; (II) Transfer pump; (JJ) Second tank; (KK) Flash mixer; (LL) Flash mixing tub; (MM) Pressing pump; (NN) First aerobic fertilization tub; (OO) Second aerobic fertilization tub; (PP) Third aerobic fertilization tub; (QQ) Returning pump; (RR) Foam breaking water pump; (SS) Liquid fertilizer tub; (TT) Transfer pump; (UU) Cattle shed; (VV) First tank; (WW) Cattle shed circulation washing pump; (XX) Circulation / washing; (YY) Take liquid fertilizer out

Description

System and method for making oxygenic liquid state fertilizer of livestock excretions including sterilizing and intermittent circulation}

The present invention relates to an aerobic liquefaction system and aerobic liquefaction method including the high temperature sterilization and intermittent circulation of the liquid fertilizer, specifically, a livestock manure filtrate separated from the livestock manure effluent from the barn, nitrified microorganisms cultured from the mixing tank and microbial incubator or Aerobic liquefaction system including high temperature sterilization and intermittent circulation of liquid fertilizer through selective aeration of Bacillus subtilis and aeration into a liquid fertilizer through aeration and aeration with air supplied from the brower And an aerobic liquefaction method.

Composting among livestock manure management methods in livestock farms is a very effective method for treating solids, and has the great advantage of being able to transport long distances from livestock clusters to agricultural areas. In addition, compost made from livestock manure has been recognized for its viability because of its superior quality than compost made from industrial by-products. On the other hand, the composting of livestock manure causes a large amount of nitrogen loss during the composting process, and has the disadvantage of excessive operating costs such as mechanical equipment and subsidiary materials used in manufacturing compost.

On the other hand, liquefaction can not only minimize the problem of the purchase of subsidiary materials by treating the livestock manure in the liquid phase, but also has the advantage of producing an alternative fuel and significantly reduce the cost of manure treatment than composting. However, liquefaction has the disadvantage that long-distance transfer treatment is impossible, handling during spraying is relatively disadvantageous than composting, and selling manure is practically impossible. Livestock manure liquefaction has the advantage that not only the manure of slurry houses but also the effluent after purification treatment. The livestock manure in the house is limited to meeting the current water quality standards when discharged after purification. Therefore, it is judged that it is a very preferable means from the environmental point of view that the livestock farms in which the purification treatment facility is installed are treated with liquefaction at the same time. In particular, the slurry-type barn is a manure processing means that utilizes livestock manure in a foreign country directly on farmland. However, in Korea, it is introduced without considering the effectiveness of the liquid liquefaction, the slurry barn farmers are currently experiencing difficulties.

At present, by using excessive subsidiary materials to compost liquid manure with more than 95% water content, it is difficult to increase the processing cost and to reduce the compost quality due to the excessive C / N rate due to the subsidiary materials. This problem, however, has been shown to be a bigger problem in pig breeders who do not secure farmland than cattle breeders who cultivate forages.

Liquid manure is known to be decomposed by microorganisms, and liquid manure production methods for livestock manure are classified into aerobic and anaerobic methods depending on the presence of aeration. In general, aerobic methods are known to have a faster maturation rate than anaerobic methods.

Aerobic liquefaction refers to aerobic microorganisms, such as composting, when air is supplied while agitation of liquid livestock manure (aeration treatment). The aerobic treatment method is a continuous aeration method and an intermittent aeration method, and some are used in farmland after reducing the odor by aeration and stirring just before spraying after storage in a storage tank to reduce energy usage. The aerobic treatment method has the advantage that it is possible to produce a mature liquid fertilizer in a short period of time by promoting the decomposition of the degradable organic matter in the manure, but there is a disadvantage in terms of using liquid fertilizer because the loss of nitrogen components during the aeration.

In order to make liquid livestock manure aerobic, conditions for aerobic microorganisms to be active must be met. Necessary conditions are nutrient sources, air (oxygen), temperature, and moisture of microorganisms. Microbial nutrients for aerobic liquefaction are organic matter contained in manure. When urine is discharged from livestock, only urine can be separated so that manure is not mixed. However, even if manure and urine are separated from the barn, part of the manure is contained in the urine. It doesn't work. However, if there is no solids, or organic matter, in the urine, the nutrients are insufficient and the housing is not progressing well. Therefore, oxygen supply is essential for aerobic microorganisms to work in aerobic liquefaction conditions. In particular, liquid livestock manure is aerobic microorganisms easily use the dissolved oxygen in the liquid, so there is little dissolved oxygen, aerobic microorganisms will not be able to work unless aeration treatment is forced to supply air to the liquid livestock manure.

On the other hand, the aerobic liquefaction treatment apparatus and method of livestock manure in Korea Patent Registration No. 0812645, the first PH adjustment to kill the eggs and microorganisms in the waste water and then degassing the liquid through the degassing to remove the ammonia component that was the main cause of odor and soil The aerobic liquefaction treatment apparatus and method for livestock manure that can greatly reduce the aerobic reaction period by microorganisms by planting a large amount of Bacillus bacteria and directly injecting high-efficiency oxygen instead of air have been proposed. Adjusting the pH does not effectively remove harmful microorganisms, and there is still a problem of high processing cost by using high-efficiency oxygen instead of air.

In addition, Korean Patent Registration No. 1164987 uses a Bacillus strain to biologically remove odors, and has proposed a method of liquid manure liquefaction for increasing the utilization of organic resources by shortening the maturation period of liquid fertilization through a self-heating aerobic method. However, there is a problem of hygiene because it is not suitable for removing the harmful microorganisms present in the liquid fertilizer, and the use of the Bacillus strain, the nitrogen content ratio of the liquid fertilizer is relatively low, the problem of the performance as a fertilizer remained.

The present invention has been made to solve the problems of the prior art as described above,

An object of the present invention is to selectively stabilize the microbial microbial strain and acid-producing bacteria in the microbial culture tank to improve the performance as a liquid fertilizer and to put into the aerobic liquid fertilization tank to stabilize the liquid fermentation tank early in the early stage and continuously maintain the liquid fermentation tank It is to provide an aerobic liquefaction system and aerobic liquefaction method including the high temperature sterilization and intermittent circulation of the liquid fertilizer using nitrided microorganism to increase the liquid fertilizer productivity.

In addition, another object of the present invention is to install a plurality of liquid fermentation tanks in succession by adjusting the amount of air supplied to each liquid fermentation tank to increase the performance as liquid fertilizer to cause the nitriding process at low temperature after the organic material oxidation step at high temperature To provide an aerobic liquefaction system and aerobic liquefaction method including the high temperature sterilization and intermittent circulation of the liquid fertilizer using a nitriding microorganism.

In addition, another object of the present invention is to allow the livestock urine to go through the mixing tank before the liquid liquefaction storage tank to kill the microorganisms harmful to the liquid fertilization and to control the nitrogen concentration of the liquid fertilizer to suppress the foaming of the liquid liquefaction tank The present invention provides an aerobic liquefaction system and aerobic liquefaction method including high temperature sterilization using nitrifying microorganisms capable of improving liquid fertilization and intermittent circulation of liquid fertilizers.

The aerobic liquefaction system including the high temperature sterilization and the intermittent circulation of the liquid fertilizer according to the present invention comprises: a first storage tank for obtaining and storing livestock manure flowing out from the barn; A solid-liquid separator for separating livestock manure and liquid livestock manure filtrate by receiving livestock manure from the first reservoir through a transfer pump; A brower for supplying air through an air supply pipe; A second storage tank accommodating livestock manure filtrate separated and transported from the solid-liquid separator and aeration of the received livestock manure filtrate by receiving air supplied from a brower; A mixing tank accommodating the aerated livestock manure filtrate transferred from the second storage tank and mixing with the agitator installed therein; A microorganism incubator for selectively culturing nitrifying microorganisms or acid producing bacteria therein; It accommodates the mixed livestock manure filtrate transported from the mixing tank and liquefied sequentially by using the microorganism supplied from the microorganism incubator and the air supplied from the brower and kills the harmful microorganisms contained in the livestock manure filtrate Aerobic liquefaction tank; and storing the finished liquid ratio conveyed from the aerobic liquefaction tank last installed, the liquid storage tank is installed inside the return pump for conveying the complete liquid ratio to the aerobic liquefaction tank; characterized in that it comprises a.

In this case, the nitrifying microorganisms cultured in the microbial incubator are nitrobacter, nitrosomonas strain, and the acid producing bacteria selectively cultured are Bacillus subtilis.

On the other hand, it is preferable that the aerobic liquefaction tank is composed of three or more, which is installed at least three aerobic liquefaction tank in succession to control the reaction temperature and air supply while effectively removing the odor of the livestock manure filtrate while promoting the nitrification reaction This is to increase the performance of the liquid rain.

On the other hand, the amount of air supplied through the broor is preferably 0.02 ~ 0.03 ㎥ of air per ton of livestock manure filtrate to make a good liquid ratio.

At this time, the amount of air supplied to the aerobic liquefaction tank is the maximum amount to be supplied to the aerobic liquefaction tank installed initially, it is preferable that the amount of air supplied sequentially therefrom is less, which is strongly oxidized organic matter in the initial aeration stage This is to control the amount of air by maximizing the amount of air supplied so as to occur and then reducing the amount of air so as to cause nitriding process gradually.

In addition, it is preferable that the vesicular water storage tank is equipped with a vesicle water pump, and the vesicle water pump is used to remove bubbles from the finished liquid ratio and convey the finished liquid ratio.

On the other hand, the reaction temperature of the aerobic liquefaction tank is 30 ~ 80 ℃, it is preferable to maintain the reaction temperature 30 ℃ or more from the first aerobic liquefaction tank installed sequentially to the last aerobic liquefaction tank installed, and during the aerobic liquid liquefaction process In order to kill harmful microorganisms contained in the filtrate, it is preferable to operate the reaction temperature intermittently to 56 ° C or higher.

At this time, the livestock manure filtrate being liquefied from the last installed aerobic liquefaction tank can be configured to further include a pressurized pump for supplying pressure to the aerobic liquefaction tank installed last, the pressurized pump is aerobic liquefaction last installed It is responsible for maintaining the reaction temperature of the tank rises above 56 ℃, the temperature at which harmful microorganisms are killed.

In another aspect, the present invention further comprises a stall circulation washing pump for intermittently supplying the finished liquid ratio stored in the liquid nutrient storage tank to the livestock shed.

In another aspect of the present invention, aerobic liquefaction method including the high temperature sterilization and intermittent circulation of the liquid fertilizer, livestock manure storage step of obtaining livestock manure flowing out from the barn and stored in a storage tank; A livestock manure separation step of separating the solid livestock manure and liquid livestock manure filtrate through a solid-liquid separator receiving livestock manure transported through a transfer pump from the reservoir; An aeration step of receiving the livestock manure filtrate separated from the solid-liquid separator in a second storage tank and aeration of the received livestock manure filtrate by receiving air supplied from a brower installed outside; A mixing step of accommodating the aerated livestock manure filtrate transferred from the second storage tank in a mixing tank and mixing the agitated inside the mixing tank using an agitator; Accommodate the mixed livestock manure filtrate transported from the mixing tank, a plurality of aerobic by using the air supplied from the microorganisms supplied from the microbial incubator to selectively culture the nitrifying microorganisms or acid-producing bacteria and the brower installed outside Aerobic liquid fertilization step to liquefy the livestock manure filtrate by sequentially going through the liquid liquefaction tank and kill harmful microorganisms present in the livestock manure filtrate; and transfer the completed liquid fertilizer through the aerobic liquid fertilization step and store it in the liquid fertilizer storage tank. It is characterized in that it comprises a; ripen liquid ratio storage step of supplying the liquid ratio whenever necessary.

At this time, the aerobic liquid liquefaction step, the first liquefaction step of the oxidation of the organic matter occurs at a temperature of 40 ~ 60 ℃; A second liquid liquefaction step of controlling and aeration of the amount of air supplied from the brower to cause the nitriding process at a temperature of 30 to 60 ° C .; And a third liquid inactivation step of killing harmful microorganisms and aeration at the same time by using a pressure pump at a temperature of 30 to 80 ° C. to kill harmful microorganisms.

In addition, the aerobic liquid agitation step is another feature of selectively receiving any one of the nitrifying microorganisms such as nitrobacter or nitrosomonas strain or Bacillus subtilis acid-producing bacteria from the microbial incubator.

And, after the ripened liquid ratio storage step may further include a barn washing step of washing the inside of the barn by intermittently transferring some of the mature liquid costs stored in the liquid fertilizer storage tank to the barn through the stall circulation washing pump. Through the barn washing step, harmful microorganisms are killed during the liquid liquefaction process and the sterilized liquid solution can be used to improve the environment in the barn. Specifically, it is possible to reduce the generation of gas in the barn, not only to reduce the generation of harmful microorganisms such as Salmonella bacteria, but also to use the useful microorganisms and, above all, to reduce the amount of water used to raise the amount of livestock manure It can be lowered.

The present invention by selectively culturing nitrifying microorganism strains and acid-producing bacteria in favor of liquid liquefaction in the microbial incubator to be introduced into the aerobic liquid liquefaction tank to stabilize the liquefaction tank early in the early stage and to continuously maintain the liquefaction tank to increase the liquid fertilization productivity There is this.

In addition, another object of the present invention is to install a plurality of aerobic liquefaction tank in succession by controlling the amount of air supplied to each liquefaction tank so as to pass through the aerobic liquefaction tank after oxidizing organic matter and harmful microorganisms at high temperature Another advantage is that it can increase the performance as a liquid ratio by causing the nitriding process at low temperatures.

In addition, the present invention allows the liquid livestock manure filtrate to go through a mixing tank separately before reaching the aerobic liquefaction tank to kill harmful microorganisms at the same time, to control the nitrogen concentration of the liquid fertilizer and to suppress the foaming of the liquid liquefaction tank Another advantage is increased productivity.

In addition, the present invention has another advantage that the facility is simpler than the conventional liquefaction apparatus and method, and not only easy operation and management, but also do not need the input of subsidiary materials such as chemicals can be liquefied livestock manure filtrate economically and conveniently.

Figure 1 shows the overall configuration of the aerobic liquefaction system including the high temperature sterilization and intermittent circulation of the liquid rain according to the present invention.
Figure 2 shows the overall process of the aerobic liquefaction method including high temperature sterilization and intermittent circulation of the liquid ratio according to the present invention.

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

Figure 1 shows the entire process of the aerobic liquefaction system comprising the intermittent circulation of hot sterilization and liquid fertilization according to the present invention, Figure 2 is the overall of the aerobic liquefaction method comprising the intermittent circulation of hot sterilization and liquid fertilization according to the present invention The process is shown.

Livestock manure storage step (S100) is a step of obtaining livestock manure flowing out from the barn and stored in the first storage tank. This is a basic step for the treatment of livestock manure as a primary step to remove some of the odor naturally and aerobic decomposition while storing the livestock manure primarily. Looking at the state of the livestock manure stored in the first reservoir COD was 33000ppm, SS was 57200ppm, TN was 9400ppm.

Livestock manure filtrate separation step (S200) is a step of separating the livestock manure and liquid livestock manure filtrate from the solid through the solid-liquid separator receiving the livestock manure transported through the transfer pump from the reservoir. This is a step for composting by separating the manure in the solid state to compost and liquid manure filtrate liquid is transported separately to liquidize.

Livestock manure filtrate after separation of solid manure is 17000ppm COD, 29000ppm SS and 8000ppm TN.

In the aeration step (S300) is a step of receiving the liquid livestock manure filtrate separated from the solid-liquid separator in a second storage tank and aeration of the received livestock manure filtrate by receiving air supplied from a brower installed outside.

In the mixing step (S400), the aerated livestock manure filtrate transferred from the second storage tank through the transfer pump is accommodated in the mixing tank and mixed using a stirrer installed inside the mixing tank. The reason for the separate mixing step using the mixing tank is to control the nitrogen concentration of the liquid fertilizer while killing the harmful microorganisms or bacteria, and to suppress the foaming of the aerobic liquid liquefaction tank which is subsequently aerated.

Aerobic liquid agitation step (S500) accommodates the mixed livestock manure filtrate transported from the mixing tank, the air supplied from the microorganism and the externally supplied browers supplied from the microbial incubator to selectively culture the nitrifying microorganism or acid producing bacteria therein By aeration through a plurality of aerobic liquor agitation tank to aeration sequentially to liquefy the livestock manure filtrate, and killing the harmful microorganisms contained in the livestock manure filtrate sterilizing the liquid fertilizer.

At this time, the aerobic liquid liquefaction step, specifically, the first liquid liquefaction step (S510) that the oxidation of the organic material occurs at a temperature of 40 ~ 60 ℃, of the air supplied from the brower to cause the nitriding process at a temperature of 30 ~ 60 ℃ A second liquefaction step of adjusting the amount to aeration (S520); And a third liquid inactivation step (S530) of raising a high temperature using a pressure pump at a temperature of 30 to 80 ° C. to kill harmful microorganisms and aeration at the same time.

In the aerobic liquid agitation step, liquefaction is performed by selectively receiving either a nitrifying microorganism such as nitrobacter or nitrosomonas strain or a bacterium subtilis, which is an acid-producing bacterium, from the microbial incubator, which is first installed among a plurality of aerobic liquefaction tanks. Microorganisms are selectively supplied to the aerobic liquefaction tank.

In the microbial incubator, Nitrobacter and Nitrosomonas strains and Bacillus subtillis, acid-producing bacteria, are cultivated to stabilize the aerobic liquefaction tank early and continuously. This is to maintain the liquefaction tank.

At this time, it is preferable to use at least three aerobic liquefaction tank. First, in the first liquefaction stage, which is an initial phase of aerobic liquefaction using the first aerobic liquefaction tank, the oxidation of organic matter occurs strongly at a temperature of 40 to 60 ° C. The maximum amount of air to be supplied is aerated. Thereafter, the second liquid liquefaction step is performed in the second aerobic liquefaction tank, and the reaction temperature is adjusted to 30-60 ° C., and the third liquid liquefaction step is performed in the third aerobic liquefaction tank, which has a temperature of 30-80 ° C. This is done by increasing the reaction temperature of the liquefaction tank intermittently above 56 ℃ by using a pressurized pump. After the second liquefaction step, it is necessary to activate the nitriding process in order to increase the performance of the liquid fertilizer, thereby controlling the liquid liquefaction reaction by adjusting the temperature and aeration amount. In addition, in the third liquefaction step, the reaction temperature may be increased to 56 ° C. or more by pressurizing and circulating the livestock manure filtrate during liquefaction using a pressure pump installed outside to increase the reaction temperature.

On the other hand, in the mixing step of the mixing tank or aerobic liquid liquefaction step occurring in a plurality of aerobic liquefaction tank, a large number of harmful microorganisms that adversely affect the liquid fertilizer is destroyed during the mixing process or aeration process. At this time, the microorganism to be killed refers to harmful bacteria and harmful pests, most of which are enteric bacteria of the animal, such as Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa are pathogenic. These harmful microorganisms are almost extinguished when the reaction temperature rapidly rises above 40 ° C. by fermentation during the aeration at the initial stage of the aerobic liquid fertilization step.

At this time, the entire aerobic liquid aggravation step is carried out at a temperature of 30 ~ 80 ℃, intermittently aeration at a high temperature of 56 ℃ or more to kill the harmful microorganisms at the same time, aeration at a temperature of 56 ℃ or more for at least two days or more. Only after sterilization can the sterilized liquid fertilizer be produced.

The ripening liquid ratio storage step (S600) is a step of supplying the liquid ratio whenever necessary after receiving the stored liquid ratio through the aerobic liquid fertilization step and stored in the liquid ratio storage tank.

The reason for the separate liquid fertilizer storage tank is to save the ripe liquid liquid ratio to promote stability of the liquid fertilizer circulation and liquid fertilization. At this time, the aeration tank is forced to supply air to the liquid storage tank to aeration. This is to maintain the aerobic properties of the finished liquid ratio as it is and to prevent the fine solids from sinking and sinking.

At this time, the parcel water pump installed inside the liquid storage tank is installed to remove the bubbles that can be generated during the aeration, the liquid storage tank is essentially essential in the sense of keeping a safe liquid space and free space in the core of the present invention It must consist of elements.

On the other hand, it is preferable that the liquid-liquid storage tank is equipped with a conveying pump so that the completed liquid-liquid can be transferred to the aerobic liquid-liquidizing tank, if necessary.

On the other hand, when looking at the state of the complete liquid ratio, COD is 2400ppm, SS is 9000ppm, TN was about 3000ppm, it was confirmed that the performance is good because it contains enough nitrogen components.

The barn washing step (S700) is a step of cleaning the inside of the barn by intermittently transferring some of the mature liquids stored in the liquid storage tank after the complete liquid ratio storage step to the barn through the stall circulation washing pump.

Claims (13)

A first storage tank for obtaining and storing livestock manure flowing out from the barn;
A solid-liquid separator for separating livestock manure and liquid livestock manure filtrate by receiving livestock manure from the first reservoir through a transfer pump;
A brower for supplying air through an air supply pipe;
A second storage tank accommodating livestock manure filtrate separated and transported from the solid-liquid separator and aeration of the received livestock manure filtrate by receiving air supplied from a brower;
A mixing tank accommodating the aerated livestock manure filtrate transferred from the second storage tank and mixing with the agitator installed therein;
A microbial culturer for culturing nitrifying microorganisms or acid producing bacteria therein;
Accommodate the mixed livestock manure filtrate transported from the mixing tank and sequentially liquefy at a reaction temperature of 30 ~ 80 ℃ using the microorganism supplied from the microbial culturer and the air supplied from the brower and included in the livestock manure filtrate A plurality of aerobic liquefaction tanks that kill dead harmful microorganisms; and
It stores the complete liquid ratio conveyed from the aerobic liquefaction tank installed last, the liquid storage tank which is equipped with a return pump for conveying the liquid ratio completed by the aerobic liquefaction tank; the high temperature sterilization and intermittent circulation of the liquid ratio Aerobic liquefaction system comprising a.
The method according to claim 1,
The nitrifying microorganism cultured in the microbial culturer is selected from nitrobacter or nitrosomonas strains, and the acid-producing bacterium is Bacillus subtilis, which includes high temperature sterilization and intermittent circulation of liquid fertilizer.
The method according to claim 1,
The aerobic liquefaction tank comprising a high temperature sterilization and intermittent circulation of liquid fertilization, characterized in that composed of three or more aerobic liquefaction system.
The method according to claim 1,
The amount of air supplied through the broth is aerobic liquid liquefaction system including the intermittent circulation of hot sterilization and liquid fertilizer, characterized in that the air per 1 ton livestock manure filtrate.
The method of claim 4,
The aerobic liquefaction system including the high temperature sterilization and intermittent circulation of the liquid fertilizer characterized in that the amount of air supplied to the aerobic liquefaction tank is the maximum amount is supplied to the aerobic liquefaction tank is first installed, and the amount of air sequentially supplied therefrom.
The method according to claim 1,
The aerobic liquefaction system including the high temperature sterilization and intermittent circulation of the liquid fertilizer, characterized in that the liquid fertilizer storage tank is embedded.
delete The method according to claim 1,
Including the intermittent circulation of hot sterilization and liquid fertilizer characterized in that it further comprises a pressurized pump receiving the manure filtrate being liquefied from the last aerobic liquefaction tank installed and circulating supply to the aerobic liquefaction tank installed lastly Aerobic liquefaction system.
The method according to any one of claims 1 to 8,
The aerobic liquefaction system including the high temperature sterilization and intermittent circulation of the liquid fertilizer characterized in that it further comprises a barn circulation washing pump for supplying to wash the intermittent liquid ratio stored in the liquid fertilizer storage tank intermittently.
A livestock manure storage step of obtaining livestock manure flowing out of the barn and storing it in a first storage tank;
A livestock manure separation step of separating livestock manure and liquid livestock manure filtrate through solid-liquid separator receiving livestock manure from the first reservoir through a transfer pump;
An aeration step of receiving the livestock manure filtrate separated from the solid-liquid separator in a second storage tank and aeration of the received livestock manure filtrate by receiving air supplied from a brower installed outside;
A mixing step of accommodating the aerated livestock manure filtrate transferred from the second storage tank in a mixing tank and mixing the agitated inside the mixing tank using an agitator;
Accommodate the mixed livestock manure filtrate transported from the mixing tank, a plurality of aerobic by using the air supplied from the microorganisms supplied from the microbial incubator to selectively culture the nitrifying microorganisms or acid-producing bacteria and the brower installed outside Aerobic liquid fertilization step of aeration of the animal manure filtrate by aeration at a reaction temperature of 30 ~ 80 ℃ by passing through the liquefaction tank and killing harmful microorganisms present in the animal manure filtrate; and
Aerobic liquid fertilization method comprising the high temperature sterilization and intermittent circulation of the liquid fertilizer, characterized in that it comprises a ;; ,
The method of claim 10,
The aerobic liquid secreting step,
A first liquid liquefaction step in which oxidation of an organic substance occurs at a temperature of 40 ° C. to 60 ° C .;
A second liquid liquefaction step of controlling and aeration of the amount of air supplied from the brower to cause the nitriding process at a temperature of 30 to 60 ° C .; And
Aerobic liquefaction method comprising the intermittent circulation of high-temperature sterilization and liquid fertilization, comprising: a third liquefaction step of killing harmful microorganisms and aeration at a high temperature using a pressure pump at a temperature of 30 ~ 80 ℃.
The method of claim 10,
In the aerobic liquid fertilization step, aerobic liquefaction including intermittent circulation of high temperature sterilization and liquid fertilization, characterized in that any one of nitrifying microorganisms selected from nitrobacter or nitrosomonas strains or bacillus subtilis, which is an acid-producing bacterium, is selectively supplied from the microbial incubator. Way.
The method according to any one of claims 10 to 12,
After the ripening liquid ratio storage step of the high temperature sterilization and liquid fertilizer characterized in that it further comprises a barn washing step of cleaning the inside of the barn by intermittently transferring some of the mature liquid stored in the liquid storage tank to the barn through the stall circulation washing pump Aerobic liquefaction method comprising intermittent circulation.

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