KR101180454B1 - processing system for excretion of animals and processing method using the system - Google Patents

Abstract

PURPOSE: A system and a method for treating livestock excrements are provided to separate livestock excrements into liquid products and solid products without coagulant and to use the solid products as compost. CONSTITUTION: A method for treating livestock excrements includes the following: livestock excrements are provided from a feed water storing part(100) to a solid-liquid separating part(200) and is separated into solid products and liquid products; the liquid products are provided into a flux adjusting part(300); the liquid products through the flux adjusting part is provided to a high temperature aerobic digesting part(400) to hydrolyze the liquid products based on high temperature aerobic microorganisms to obtain organic decomposed treated water; the treated water is provided to a primary settling part(510) to separate sludge from the treated water; the treated water through the primary settling part is provided to an activated sludge part(600) to absorb minute pollutant from the treated water; the resultant product is provided to a second settling part(520); and the resultant product is provided to a discharging part(700).

Description

Livestock manure processing system and processing method for animal husbandry manure using the same {processing system for excretion of animals and processing method using the system}

The present invention relates to a treatment system for the treatment of livestock manure, and more specifically, to simplify the overall structure and to improve the efficiency of reducing maintenance costs and contaminant concentrations while simplifying the overall structure, and applying the treatment method using microorganisms. The present invention relates to a livestock manure treatment system and a livestock manure treatment system using the same, which enables a smooth deodorization and denitrification treatment as well as using no flocculant.

In general, livestock manure is manure excreted and contains a large amount of water pollutants such as various organic substances and nitrogen.

Accordingly, the livestock manure must be treated and discharged, and a facility for treating such livestock manure in a state capable of being discharged to soil or a river is a livestock manure treatment system.

The livestock waste treatment system usually includes a raw water storage tank, a solid-liquid separator, a flow rate adjusting tank, a plurality of denitrification tanks, a plurality of settling tanks, and a plurality of aeration tanks.

That is, the raw water stored in the raw water storage tank by the operation of the livestock waste treatment system is provided to the solid-liquid separator and separated into a liquid component and a solid component, and the raw water of the liquid component among the separated components is treated with a flow rate adjusting tank. After being adjusted, denitrification, aeration, and precipitation are carried out to remove nitrogen and organics, which are then discharged.

Of course, the denitrification treatment, aeration treatment and precipitation process may be performed repeatedly as many times as shown in Patent Publication No. 10-1035942.

However, the conventional general livestock manure treatment system as described above has been accompanied with the enlargement of the facility as it has to be configured to repeat the denitrification treatment, aeration treatment and precipitation process several times, and thus there is a problem that a sufficient securing of the installation site is required. .

In addition, as there are many devices to manage, continuous maintenance is required, and thus, there is a problem caused by an increase in maintenance costs.

In addition, the above-mentioned conventional livestock manure processing system is configured to process livestock manure simply by repeating the denitrification treatment, aeration treatment and precipitation process, so that the solid-liquid separation performance for solid and manure in solid state through a solid-liquid separator This has to be high, and in the related art, a flocculant is added to raw water of livestock manure, so that the solid manure is aggregated and clumped together, thereby making it easier to separate between the liquid manure and the solid manure.

However, considering that the flocculant includes a large amount of chemical components, the solid manure separated using the flocculant has to include the chemical components of the flocculant, and thus the solid phase separated as described above. It is difficult to recycle resources such as the use of manure as compost, so there is a problem in that an additional treatment process for the solid manure is required.

The present invention has been made to solve the various problems according to the prior art described above, an object of the present invention is to simplify the overall structure while improving the reduction of maintenance costs and the reduction of pollutant concentration, using microorganisms The present invention provides a livestock manure treatment system and a livestock manure treatment method using the same, which enables a smooth deodorization and denitrification treatment, and does not use a flocculant through the application of a treatment method.

According to the livestock waste treatment system of the present invention for achieving the above object, a raw water storage unit for storing livestock manure; A solid-liquid separator which receives livestock manure from the raw water storage unit and separates solids and liquids from the liquid state from the livestock manure; A flow rate adjusting unit which receives the liquid substance from the solid-liquid separator and adjusts and supplies a flow rate for its treatment; A high temperature aerobic digestion unit for storing high temperature aerobic microorganisms, and receiving a liquid material whose flow rate is adjusted from the flow adjusting unit to generate treated water from which organic matter and nitrogen for the liquid substance are removed by the high temperature aerobic microorganism; Receiving the treated water from which the organic matter and nitrogen are removed by the high-temperature aerobic digester to separate the sludge contained in the treated water by the precipitation method and lowering the treated water to the temperature for treatment by the activated sludge method. Primary precipitation; An activated sludge unit which receives treated water from which sludge is separated in the primary precipitation unit and adsorbs a small amount of water pollutant contained in the treated water with activated carbon of activated carbon dilution water; And, receiving the treated water treated in the activated sludge part secondary sedimentation unit for separating the sludge contained in the treated water again by the precipitation method: characterized in that it comprises a.

Here, the primary sedimentation unit and the secondary sedimentation unit is characterized in that the sludge transport pump for resupplying the sludge to the raw water storage unit further comprises.

In addition, the high temperature aerobic digestion unit comprises a high temperature aerobic digestion tank for storing the high temperature aerobic microorganisms and a blower for supplying outside air into the high temperature aerobic digestion tank, the high temperature aerobic digestion tank is provided with a plurality of continuous and gradual liquid phase of each other Sequentially arranged to remove the nitrogen, the blower is characterized in that it is configured to supply air into each of the high temperature aerobic digester.

In addition, the high temperature aerobic digestion unit is installed in the high temperature aerobic digestion tank while continuously pumping the liquid to circulate continuously in the high temperature aerobic digestion tank, and continuously crushed bubbles generated in the high temperature aerobic digestion tank The foam breaker is further included to be configured to be removed.

In addition, the optional microorganism is stored, characterized in that it is configured to further include an optional microorganism supply unit for providing the random microorganism.

In addition, the optional microorganisms stored in the optional microorganism supply unit is characterized in that the aerobic Pseudomonas microorganisms, aerobic Bacillus microorganisms and anaerobic Bacillus microorganisms.

In addition, the random microorganism supply unit is characterized in that it is configured to supply the random microorganism to at least one of the raw water storage unit, the flow control unit and the active sludge unit.

In addition, the pipeline in which the treated water flows out of the secondary settling portion is characterized in that it further comprises a filtering unit for filtering the foreign matter contained in the treated water.

In addition, according to the livestock manure treatment method using the livestock manure treatment system of the present invention for achieving the above object by providing the livestock manure stored in the raw water storage unit to the solid-liquid separation unit from the livestock manure solids and liquid state of the liquid state Solid-liquid separation step of separating water from each other; A flow rate adjusting step of adjusting the flow rate for processing the liquid phase by providing the liquid phase separated through the solid-liquid separation step to a flow rate adjusting unit; An organic material decomposition step of generating a treated water in which organic matter is decomposed by providing a liquid material having undergone the flow rate adjusting step to a high temperature aerobic digestion unit by hydrolyzing the liquid material by a high temperature aerobic microorganism; The first precipitation step of separating the sludge contained in the treated water by the sedimentation method by providing the treated water that has undergone the organic decomposition step to the first precipitation unit, and lowering the treated water to a temperature for treatment by the activated sludge method. ; An adsorption treatment step of adsorbing a small amount of water pollutant contained in the treated water with an activated carbon dilution by providing the treated water in which the sludge is first separated through the first precipitation step to the activated sludge part; A secondary precipitation step of separating the sludge from the treated water by the precipitation method by providing the treated water treated with the water pollutant through the adsorption treatment step to the secondary precipitation unit; And, the discharge step of providing a treated water that passed through the secondary precipitation step to the discharge unit: characterized in that it comprises a progress.

Here, the organic material decomposition step is characterized in that it is carried out while sequentially passing and circulating the liquid in a plurality of high temperature aerobic digestion tank forming a high temperature aerobic digestion.

In addition, while the steps are sequentially carried out by supplying a random microorganism to at least one of the raw water storage unit, the flow control unit and the activated sludge unit, the auxiliary deodorization and denitrification treatment by the random microorganism is performed in the step. It is characterized by.

Livestock manure treatment system of the present invention and livestock manure treatment method using the same as described above is configured so that the hydrolysis, deodorization and denitrification of livestock manure using high temperature aerobic microorganisms can be simply configured the whole facility Has the effect.

In particular, since it is not necessary to use a flocculant in the solid-liquid separation process that separates the solids and liquids of the livestock manure, the solids separated from the liquids can be utilized as compost.

In addition, the livestock manure treatment system and the livestock manure treatment method using the same of the present invention can further improve the decomposition efficiency of organic matter through the use of random microorganisms as well as deodorization and denitrification can be made more smoothly decomposition of liquid matter It is possible to minimize the implementation of the repetitive process for, wherein the random microorganisms are also configured to be provided as activated sludge has the effect of being able to decompose and remove even a small amount of organic matter.

In addition, since the high temperature aerobic microorganisms used in the livestock waste treatment system and the livestock waste treatment method using the same heat dissipates itself, a separate heat source is required for the decomposition of pollutants (eg, steam generator, etc.). There is no need to generate and provide), thereby simplifying the installation and reducing power consumption.

1 is a block diagram schematically showing a livestock waste treatment system according to a preferred embodiment of the present invention
2 is an overall configuration diagram of a livestock waste treatment system according to a preferred embodiment of the present invention
Figure 3 is a state diagram shown for explaining the configuration of the raw water storage unit of the livestock waste treatment system according to a preferred embodiment of the present invention
Figure 4 is a state diagram shown for explaining the configuration of the solid-liquid separator in the livestock waste treatment system according to a preferred embodiment of the present invention
Figure 5 is a state diagram shown for explaining the configuration of the flow rate adjusting unit in the livestock waste treatment system according to a preferred embodiment of the present invention
Figure 6 is a state diagram shown for explaining the configuration of the high temperature aerobic digestion of livestock waste treatment system according to a preferred embodiment of the present invention
Figure 7 is a state diagram shown for explaining the configuration of the primary sedimentation part of the livestock waste treatment system according to a preferred embodiment of the present invention
Figure 8 is a state diagram shown for explaining the configuration of the active sludge part of the livestock waste treatment system according to a preferred embodiment of the present invention
Figure 9 is a state diagram shown for explaining the configuration of the secondary sedimentation part of the livestock waste treatment system according to a preferred embodiment of the present invention
10 is a state diagram showing for explaining the configuration of the discharge portion and the filtering portion of the livestock waste treatment system according to an embodiment of the present invention

Hereinafter, a preferred embodiment of a livestock waste treatment system and a livestock waste treatment method using the same will be described with reference to FIGS. 1 to 10.

1 is a block diagram schematically showing a livestock waste treatment system according to a preferred embodiment of the present invention, Figure 2 is an overall configuration diagram of a livestock waste treatment system according to a preferred embodiment of the present invention, Figures 3 to 10 Is a state diagram shown to explain the structure of the individual components constituting the livestock waste treatment system according to a preferred embodiment of the present invention.

As can be seen based on this, the livestock waste treatment system according to a preferred embodiment of the present invention is largely raw water storage unit 100, solid-liquid separator 200, flow rate adjusting unit 300, high temperature aerobic digestion unit 400 And a primary precipitation part 510, an active sludge part 600, a secondary precipitation part 520, and a discharge part 700.

This will be described in more detail below for each configuration.

First, the raw water storage unit 100 is a portion where raw water of livestock manure is stored.

In this case, the livestock manure includes solid manure (solid matter) and liquid manure (liquid matter) excreted by livestock.

The raw water storage unit 100 provides the raw water storage tank 110 and the raw water stored in the raw water storage tank 100 to the solid-liquid separator 200 to be described later, the raw water of the livestock manure as shown in FIG. Raw water transfer pump 120 is configured to include.

At this time, reference numeral 130 is a blower for supplying air into the raw water storage tank 110 and the flow rate adjustment tank 310 to be described later.

Next, the solid-liquid separator 200 receives a livestock manure from the raw water storage unit 100 is a series of components for separating the solid in the solid state and the liquid in the liquid state from the livestock manure.

In the embodiment of the present invention, as shown in Figure 4 attached to the solid-liquid separator 200 having a screen structure and the solid-liquid separation tank 210, the transport screw is installed along the solid-liquid separation tank 210 (shown Omitted), a drive motor 220 for rotating the transfer screw, a solid storage tank 230 in which the solids separated from the liquid are stored, and a liquid storage tank 240 in which the liquid separated from the solids is stored. It is configured to include, for example.

That is, the liquid matter storage tank 240 located at the bottom by passing through the screen of the solid-liquid separation tank 210 (not shown) from the manure provided into the solid-liquid separation tank 210 by the rotation operation of the transfer screw The solids are stored in the), and the liquid is separated, so that the solids are stored in the solids storage tank 230 by the guide of the transfer screw.

Of course, the solid-liquid separator 200 may be configured as a dehydration method, or may be configured as a simple screen method.

Next, the flow rate adjusting unit 300 is a series of configurations for receiving a liquid material from which the solids are separated from the solid-liquid separator 200 to adjust the flow rate for its treatment.

The flow rate adjustment unit 300 is a flow rate adjustment tank 310 for receiving and storing the liquid matter from the solid-liquid separator 200 as shown in Figure 5 and the processing flow rate for the liquid matter stored in the flow rate adjustment tank 310 One or more raw water transfer pump 320 to be adjusted is included, the raw water transfer pump 320 serves to provide a high temperature aerobic extinguishing unit 400 to be described later the liquid flow rate is adjusted.

Next, the high temperature aerobic digestion unit 400 is a site for removing the organic matter from the liquid using the high temperature aerobic microorganisms and deodorization and denitrification to generate treated water.

The high temperature aerobic digestion unit 400 is a high-temperature aerobic digestion tank (410, 420) for storing the high temperature aerobic microorganisms for decomposing the liquid, as shown in Figure 6 and blowing the outside air into the high temperature aerobic digestion tank (410, 420) At least one blower 430 is included, and the blower 430 and the high temperature aerobic digester 410 and 420 are connected to the air supply by the blower duct 440.

In addition, the high temperature aerobic digestion unit 400 is installed in the high temperature aerobic digestion tank (410, 420) and the circulation pump (411, 421) for pumping to continuously flow the liquid in the high temperature aerobic digestion tank (410, 420), and the high temperature Foam breakers 412 and 422 for continuously crushing and removing bubbles generated in the aerobic digester 410 and 420 are further included.

Here, the high temperature aerobic microorganisms stored in the high temperature aerobic digestion tanks 410 and 420 maintain a temperature suitable for their activities, and release most chemical energy to the surroundings as heat, and at the same time, a high concentration of organic matter is generated by hydrolysis enzymes from the metabolic process. As a microorganism that hydrolyzes liquids, it is effective in denitrification and deodorization as well as in decomposing organic matters.

In particular, a high temperature heat is required for the decomposition of a conventional organic matter, as described above, since the high temperature aerobic microorganism according to the embodiment of the present invention emits heat by itself, a heat source required for decomposition of contaminants is separated. It is not necessary to create and provide the equipment (eg, heater, etc.) of the, thereby resulting in a simplification of the installation and reduction of power consumption.

In addition, it is not necessary to use a flocculant in the solid-liquid separator 200, which is a previous process, due to the configuration of the high temperature aerobic digestion unit 400 described above. That is, even if the solids are not sufficiently separated from the liquids in the solid-liquid separator 200, the liquids including the solids may be sufficiently decomposed by the high-temperature aerobic microorganisms in the high-temperature aerobic digestion tanks 410 and 420.

On the other hand, in the embodiment of the present invention is provided with a plurality of high temperature aerobic digestion tank (410,420) constituting the high temperature aerobic digestion unit 400 is arranged sequentially so that the hydrolysis and denitrification and deodorization of the liquid can be continuous and gradual. Present as a feature.

That is, as shown in the accompanying drawings by way of example, the high-temperature aerobic digester 410, 420 composed of the first high temperature aerobic digester 410 and the secondary high temperature aerobic digester 420, and arranged in succession to each other to decompose the liquid matter It is possible to proceed gradually and more smoothly, and in particular, since each of the high temperature aerobic digestion tanks 410 and 420 is installed separately from each other, it is possible to use different types of high temperature aerobic microorganisms or process under different conditions to treat livestock manure. Has the advantage that can be further improved. Of course, the high temperature aerobic microorganisms in the two high temperature aerobic digestion tanks 410 and 420 may be configured to provide the same type and maintain an environment under the same conditions.

At this time, the blower pipe 440 connected to the blower 430 is configured to be connected to all of the high-temperature aerobic digester 410,420, at the same time to the air blown from the blower 430 to all the high-temperature aerobic digester (410,420) In order to provide, the foam breaker 422 and the circulation pump 421 are installed in the secondary high temperature aerobic digester 420, respectively.

In addition, a return pump 423 for conveying the liquid matter in the secondary high temperature aerobic digester 420 back into the primary high temperature aerobic digester 410 is further provided in the bottom space in the secondary high temperature aerobic digester 420. It is provided, so that the plastic decomposition and denitrification and deodorization of the liquid can be carried out repeatedly so that the treatment efficiency can be further improved.

Next, the primary sedimentation unit 510 is a series of components that receive the treated water decomposed, denitrated and deodorized by the high temperature aerobic digestion unit 400 to separate the sludge contained in the treated water. .

The primary sedimentation unit 510 is the primary sedimentation tank 511 for separating the sludge contained in the treated water in the sedimentation method as shown in Figure 7, and the sedimentation in the bottom space inside the primary sedimentation tank 511 It is configured to include a sludge conveying pump 512 for supplying the sludge back to the raw water storage unit (100).

In particular, the primary sedimentation unit 510 is proposed to further perform the role of cooling the treated water provided by the high temperature aerobic digestion unit 400.

That is, in the case of the treated water provided by the high temperature aerobic digestion unit 400, the high temperature aerobic microorganisms are considered to achieve high temperature due to self-heating of the high temperature aerobic microorganisms. If the sludge part 600 is provided, the active sludge part 600 may not be treated smoothly due to temperature difference. Therefore, after reducing the temperature of the treated water in the primary precipitation unit 510 to room temperature (approximately 20-25 ° C.) such that the treatment in the active sludge part 600 is smooth, the active sludge part To be provided at 600.

Next, the activated sludge part 600 is a series of components that adsorb and treat a small amount of water pollutants contained in the treated water using activated carbon dilution water.

The activated sludge part 600 is provided with activated carbon dilution tank 610 in which the activated carbon dilution water in a state in which the activated carbon and water are mixed and diluted with each other, as shown in FIG. 8, provides treated water from the primary precipitation tank 511. In addition to receiving the activated carbon dilution water from the activated carbon dilution tank 610 is configured to include an activated sludge tank 620 for adsorbing the water pollutant to the treated water.

At this time, the activated sludge tank 620 is configured as an aeration tank so that treatment of the treated water by activated carbon dilution water can be made more smoothly. For this purpose, the activated sludge unit 600 supplies air into the activated sludge tank 620. The supplying brower 630 is further included.

Next, the secondary sedimentation unit 520 is provided with the treated water treated in the activated sludge tank 620 of the activated sludge unit 600, and a series of separating the sludge contained in the treated water from the treated water again. It is the composition.

At this time, the secondary sedimentation unit 520 is a secondary sedimentation tank 521 for separating the sludge contained in the treated water by the sedimentation method as shown in Figure 9, and in the bottom space inside the secondary sedimentation tank 521 Sludge transfer pump 522 for resupplying the precipitated sludge to the raw water storage unit 100, and the discharge tank for providing the treated water in which the sludge is sedimentation separation to the discharge tank 710 of the discharge unit 700 to be described later It is configured to include a transfer pump 523.

Next, the discharge part 700 receives the treated water from which the sludge is sedimented and sedimented from the secondary sedimentation tank 521 of the secondary sedimentation part 520, and stores the discharged water in a standby atmosphere for discharge. A discharge tank 710 for storing the treated water as described above, and a discharge water transfer pump 720 selectively discharges the discharge water in the discharge tank 710.

On the other hand, the embodiment of the present invention suggests that the optional microorganism is stored while the optional microorganism is stored further includes a microorganism supply unit 800 for providing the random microorganism.

At this time, the optional microorganisms stored in the optional microorganism supply unit 800 include aerobic Pseudomonas microorganisms such as Pseudomonas putida and Pseudomonas fluorescens, and Bacillus subtilis. aerobic Bacillus microorganisms such as subtillis and anaerobic Bacillus microorganisms such as Bacillus licheniformis and Bacillus thuringiensis, which produce enzymes to break down various contaminating organics It serves to assist deodorization and denitrification.

In particular, the random microorganism supply unit 800 is the raw water storage tank 110 of the raw water storage unit 100, the flow control tank 310 of the flow rate adjusting unit 300 and the activated sludge tank 620 of the active sludge unit 600 For example, it may be configured to supply random microorganisms. That is, by supplying random microorganisms to the raw water storage tank 110, the flow control tank 310 and the activated sludge tank 620 to prevent the decay and odor generated in the configuration and to reduce the sludge.

Of course, if necessary, the random microorganism may be supplied only to the raw water storage tank 110, or the random microorganism may be supplied only to the raw water storage tank 110 and the activated sludge tank 620.

In addition, in the exemplary embodiment of the present invention, the filtering unit 900 for filtering the foreign matter contained in the treated water is further included in the conduit in which the treated water is pumped between the secondary settling unit 520 and the discharge unit 700. Characterized in that it is configured to include.

At this time, the filtering unit 900 is configured to filter the sludge and contaminants again from the treated water provided from the secondary settling tank 521 before performing the final discharge.

In the following, livestock manure treatment method using the livestock manure treatment system according to a preferred embodiment of the present invention described above will be described in more detail.

First, livestock manure is stored in the raw water storage tank 110 constituting the raw water storage unit 100, and random microorganisms are supplied from the random microorganism supply unit 800 so that the organic material of the livestock manure by the random microorganisms is primarily. Decompose

That is, Pseudomonas putida and Pseudomonas fluorescens among the optional microorganisms generate lipase to decompose the livestock manure into fat, glycerol and fatty acids, and utilize the fatty acid. Prevent oxidation of pH, and Bacillus subtillis, Bacillus licheniformis and Bacillus thuringiensis produce protease and amylase enzymes to break down carbohydrates and proteins. As a result, the primary denitrification and deodorization treatment are also performed.

In addition, when the operation control of the livestock waste treatment system is made in the above state, the raw water transfer pump 120 is driven while the raw water of the livestock manure stored in the raw water storage tank 110, the solid-liquid separator 210 of the solid-liquid separator 200 ) Will be provided.

The livestock manure provided to the solid-liquid separation tank 210 as described above is separated from each other in the solid state liquid and the liquid state of the liquid state in the solid-liquid separation tank 210, the solids separated from the liquid solid storage tank 230 In addition to the liquid is separated into the liquid is provided to the liquid storage tank 240.

In particular, in the treatment method according to an embodiment of the present invention during the separation operation for the liquid and solids in the solid-liquid separation tank 210 is not used in the flocculent, such as the conventional general art, because of this The solids stored in the solid storage tank 230 do not include the chemical component of the flocculant, and thus have the advantage of being able to be used safely even as compost.

The reason why the flocculant is not used despite the separation efficiency of the solids and liquids as described above is that the livestock manure in the raw water storage tank 110 described above is primarily degraded by random microorganisms, and then, the high temperature in the high temperature aerobic digestion tank. It is not necessary to use the flocculant because it can be degraded again by the aerobic microorganisms and sufficient solids can be degraded until the precipitation process proceeds.

In addition, the liquid material in which the solids are first separated by the solid-liquid separation process is provided to the flow adjusting tank 310 constituting the flow adjusting unit 300.

At this time, considering that the random microorganism by the random microorganism supply unit 800 is supplied into the flow rate adjustment tank 310, some of the solids contained in the liquid material supplied into the flow rate adjustment tank 310 again by the above-mentioned random microorganisms Decomposition takes place.

In addition, the liquid material in the flow adjustment tank 310 is the first high temperature aerobic digestion tank of the post-process by the pumping operation of the raw water transfer pump 320 in a state in which the flow rate for the treatment in the flow adjustment tank 310 is adjusted 410 is provided.

And, the liquid substance provided in the primary high temperature aerobic digestion tank 410 is decomposed by the high temperature aerobic microorganisms present in the primary high temperature aerobic digestion tank 410.

In addition, in the primary high temperature aerobic digester 410 is mixed with the foam and the liquid generated in the primary high temperature aerobic digester 410 as its operation is performed with the foam breaker 412 is installed. The solids are pulverized continuously, which makes the decomposition by the high temperature aerobic microorganisms more smoothly.

In addition, at this time, the outside air is supplied into the primary high temperature aerobic digester 410 through the blower 430 and the hydrogen ion concentration PH is maintained at 7 to 8 inside the primary high temperature aerobic digester 410. Since the operating conditions are adjusted so that the high-temperature aerobic microorganisms can achieve a smooth habitat and activity.

In addition, the circulation pump 411 in the primary high temperature aerobic digestion tank 410 is also operated while continuously flowing the liquid and high temperature aerobic microorganisms in the primary high temperature aerobic digestion tank 410 As the activity is vigorous, the decomposition of organic matter by the high temperature aerobic microorganism is made more smoothly.

At this time, the high temperature aerobic microorganism is hydrolyzed by the hydrolysis enzyme from the metabolite of the microorganism of the liquid material, the hydrolyzed organic material so oxidized by oxygen in the air provided through the blower 430 the inside because of the heat energy to form a CO _2, H ₂ O and generated from the organic matter oxidation process according to the column or, naehoheup of the high-temperature aerobic microorganisms generated in this oxidation process, the primary hot aerobic digester 410 Maintains the temperature (45 ~ 70 ℃) suitable for the activity of high temperature aerobic microorganisms.

In particular, the first high temperature aerobic digestion tank 410 maintains a high temperature and the nitrogen is removed because ammonia stripping occurs without undergoing nitrification due to the elevated pH. Since denitrification and deodorization are carried out, there is no need to perform a separate denitrification or deodorization process.

In addition, the first high temperature aerobic digestion tank 410 is connected to the secondary high temperature aerobic digestion tank 420 to enable the flow of the liquid, the secondary high temperature aerobic digestion tank 420, the conveying pump 423 is installed While performing the pumping operation in a state, the operation of conveying the liquid in the secondary high temperature aerobic digestion tank 420 into the primary high temperature aerobic digestion tank 410 is repeatedly performed.

At this time, the secondary high temperature aerobic digestion tank 420 also has the same high temperature aerobic microorganisms as the primary high temperature aerobic digestion tank 410 is provided with the outside air through the blower 430, by the circulation pump 421 In addition to the internal circulation of the liquid and the crushing by the foam breaker 422 is made to be decomposed to the liquid again.

Accordingly, the liquids repeatedly flowing through the first high temperature aerobic digester 410 and the second high temperature aerobic digester 420 decompose most organic matters by the high temperature aerobic microorganisms, and thus the liquids are substantially in a small amount. It is formed from treated water containing only sludge and a small amount of organic matter.

Subsequently, the treated water containing only a small amount of sludge and a small amount of organic material is provided to the primary settling tank 511, and then the small amount of sludge contained in the treated water is separated in the first settling tank 511 in a sedimentation manner. .

At this time, the sludge separated from the treated water and precipitated in the bottom space in the primary sedimentation tank 511 is re-supplied to the raw water storage tank 110 by the operation of the sludge transfer pump 512, the primary sedimentation tank 511 Only the treated water present in the upper space therein is supplied to the activated sludge tank 620 forming the active sludge part 600.

Particularly, in the primary precipitation tank 511, a process for reducing the temperature of the treated water is further performed, so that the treated water may have a normal temperature at which the activated sludge of the activated sludge part 600, which is a subsequent process, may be smoothly activated. 20-25 ° C.), and is then provided to the activated sludge part 600. In this case, the above-described method for reducing the temperature may be various, but the embodiment of the present invention suggests that the temperature is gradually decreased through the atmosphere for a predetermined time (for example, within 24 to 36 hours).

In addition, the treated water supplied into the activated sludge tank 620 is adsorbed with a small amount of water pollutants by activated carbon of the activated carbon dilution water supplied from the activated carbon dilution tank 610 into the activated sludge tank 620. In addition, as the enzymatic decomposition is again performed by the random microorganism supplied through the random microorganism supplying unit, a small amount of organic matter contained in the treated water is decomposed, and the treated water is substantially in a clean state capable of being discharged.

In addition, the treated water from which a small amount of water pollutants are removed through the active sludge tank 620 and additionally a small amount of organic matter is decomposed is provided to the secondary settling tank 521 forming the secondary settling unit 520 to treat the treatment. The sludge contained in the water is separated again by sedimentation.

At this time, the sludge transfer pump 522 provided in the secondary sedimentation tank 521 is driven to resupply the sludge deposited in the bottom space inside the secondary sedimentation tank 521 to the raw water storage tank 110.

Thereafter, the treated water discharged from the secondary sedimentation tank 521 is discharged from the discharge part 700 in a state in which fine foreign matter (eg, activated carbon, etc.) that has not been filtered out in the previous process through the filtering part 900 is additionally filtered. It is provided to the tank 710, after which the selective discharge from the discharge tank 710 to the river or the like is made.

As a result, the livestock manure treatment system and the livestock manure treatment method using the same according to the embodiment of the present invention as described above is configured so that the hydrolysis, deodorization and denitrification of the livestock manure using high temperature aerobic microorganisms can be achieved. It has the advantage of being simple to configure.

In particular, since there is no need to use a flocculant in the solid-liquid separation process for separating the solids and liquids of the livestock manure, there is an advantage that the solids separated from the liquids can be used as compost.

In addition, the livestock manure treatment system and the livestock manure treatment method using the same according to an embodiment of the present invention to further improve the decomposition efficiency of organic matter through the additional use of random microorganisms, so that deodorization and denitrification can be made more smoothly. By doing so, it is possible to minimize the implementation of the repetitive process for the decomposition of the liquid, wherein the random microorganisms are also configured to be provided as an activated sludge, which has the advantage of being able to decompose and remove even a small amount of organic matter.

100. Raw water storage unit 110. Raw water storage tank
120. Raw water feed pump 130. Blower
200. Solid-liquid separator 210. Solid-liquid separator
220. Drive motor 230. Solids storage tank
240. Liquid storage tank 300. Flow control unit
310. Flow control tank 320. Raw water feed pump
400. High temperature aerobic digester 410. Primary high temperature aerobic digester
420. Secondary high temperature aerobic digester 430. Blower
440.Songpungwan-ro 411,421. Circulation pump
412,422. Foam Breaker 423. Return Pump
510. Primary Sedimentation Unit 511. Primary Sedimentation Tank
512. Sludge transfer pump 520. Second settling section
521. Second Settling Tank 522. Sludge Transfer Pump
523. Discharge tank transfer pump 600. Active sludge unit
610. Activated Carbon Dilution Tank
630. Brower 700. Discharge Section
710. Discharge tank 720. Discharge water transfer pump
800. Random microorganism supply unit 900. Filtering unit

Claims (11)

Raw water storage unit for storing livestock manure;
A solid-liquid separator which receives livestock manure from the raw water storage unit and separates solids and liquids from the liquid state from the livestock manure;
A flow rate adjusting unit which receives the liquid substance from the solid-liquid separator and adjusts and supplies a flow rate for its treatment;
A high temperature aerobic digestion unit for storing high temperature aerobic microorganisms, and receiving a liquid material whose flow rate is adjusted from the flow adjusting unit to generate treated water from which organic matter and nitrogen for the liquid substance are removed by the high temperature aerobic microorganism;
Receiving the treated water from which the organic matter and nitrogen are removed by the high-temperature aerobic digester to separate the sludge contained in the treated water by the precipitation method and lowering the treated water to the temperature for treatment by the activated sludge method. Primary precipitation;
An activated sludge unit which receives treated water from which sludge is separated in the primary precipitation unit and adsorbs a small amount of water pollutant contained in the treated water with activated carbon of activated carbon dilution water; And,
And a secondary sedimentation unit for receiving the treated water treated in the activated sludge part and separating the sludge contained in the treated water again by the precipitation method. The method of claim 1,
Livestock manure processing system, characterized in that the primary sedimentation unit and the secondary sedimentation unit further comprises a sludge transfer pump for resupplying the sludge to the raw water storage unit. The method of claim 1,
The high temperature aerobic digestion unit
A high temperature aerobic digester in which a high temperature aerobic microorganism is stored, and a blower for supplying outside air into the high temperature aerobic digester,
The high temperature aerobic digester is provided in plural and arranged sequentially so that nitrogen can be continuously and gradually removed from each other,
And said blower is configured to supply air into each of said high temperature aerobic digestion tanks. The method of claim 3, wherein
The high temperature aerobic digestion
A circulation pump for continuously circulating in the high temperature aerobic digester by continuously pumping liquids while being installed in the high temperature aerobic digester;
Livestock manure processing system, characterized in that the foam breaker is further included to continuously crush and remove the bubbles generated in the high temperature aerobic digester. The method of claim 1,
Livestock manure processing system, characterized in that further comprises an optional microorganism supply unit for storing the random microorganism while the random microorganism is stored. The method of claim 5, wherein
The random microorganism stored in the random microorganism supply unit
A livestock waste treatment system comprising aerobic Pseudomonas microorganism, aerobic Bacillus microorganism and anaerobic Bacillus microorganism. The method according to claim 5 or 6,
The random microbial supply unit is a livestock waste treatment system, characterized in that configured to supply a random microorganism to at least one of the raw water storage unit, the flow control unit and the activated sludge unit. The method of claim 1,
Livestock manure treatment system, characterized in that further comprising a filtering portion for filtering the foreign matter contained in the treated water in the pipeline through which the treated water outflow of the secondary sedimentation portion. A solid-liquid separation step of separating the solids in the solid state and the liquid in the liquid state from the livestock manure by providing the livestock manure stored in the raw water storage unit to the solid-liquid separator;
A flow rate adjusting step of adjusting the flow rate for processing the liquid phase by providing the liquid phase separated through the solid-liquid separation step to a flow rate adjusting unit;
An organic material decomposition step of generating a treated water in which organic matter is decomposed by providing a liquid material having undergone the flow rate adjusting step to a high temperature aerobic digestion unit by hydrolyzing the liquid material by a high temperature aerobic microorganism;
The first precipitation step of separating the sludge contained in the treated water by the sedimentation method by providing the treated water that has undergone the organic decomposition step to the first precipitation unit, and lowering the treated water to a temperature for treatment by the activated sludge method. ;
An adsorption treatment step of adsorbing a small amount of water pollutant contained in the treated water with an activated carbon dilution by providing the treated water in which the sludge is first separated through the first precipitation step to the activated sludge part;
A secondary precipitation step of separating the sludge from the treated water by the precipitation method by providing the treated water treated with the water pollutant through the adsorption treatment step to the secondary precipitation unit; And,
Livestock manure treatment method comprising the discharge step: providing a treated water that passed through the secondary precipitation step to the discharge unit. The method of claim 9,
The organic material decomposition step is a livestock waste treatment method characterized in that it is carried out while sequentially passing and circulating the liquid to a plurality of high temperature aerobic digestion tank forming a high temperature aerobic digestion. The method of claim 9,
While the steps are sequentially performed, random microorganisms are supplied to at least one of the raw water storage unit, the flow regulating unit, and the activated sludge unit so that an assisted deodorization and denitrification treatment by the random microorganisms is performed in the step. Livestock manure treatment method characterized in that.

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