KR101373539B1 - Livestock wastewater treatment system - Google Patents

Abstract

The invention relates to livestock wastewater treatment system. To this end, a livestock wastewater treatment system, in which a livestock excrement is treated in an excrement treatment unit to separate it into a waste solid and a wastewater and the livestock wastewater treated in excrement treatment unit is transferred to a high temperature reaction treatment unit to be incinerated, is characterized in that the excrement treatment unit includes a excrement storage, a floating material control unit, a waste solid storage, and a livestock wastewater storage; the livestock excrement is supplied to an excrement supply hole that is formed in a side of the storage body of the excrement storage and then is discharged to a excrement discharge hole to be transferred to the floating material control unit; the livestock excrement that is transferred to the floating material control unit is separated into the waste solid and the livestock wastewater by the operation of the floating material control unit to transfer the waste solid to a waste solid storage; after the livestock wastewater is transferred to a wastewater supply hole that is formed a side of the wastewater storage body of the livestock wastewater storage and is saved therein, it is transferred to a combustion unit of the high temperature reaction treatment unit by a wastewater pump connected to the livestock wastewater storage to be incinerated. Accordingly, the present invention reduces investment cost in a facility that is used for the livestock wastewater treatment process to lower operating expenses and, furthermore, removes a nitrogen oxide produced during a incineration treatment process to lower environment pollution.

Description

Livestock wastewater treatment system

The present invention relates to a livestock wastewater treatment apparatus, and in particular, the livestock manure is separated into waste solids and livestock wastewater in the manure treatment unit so that the separated livestock wastewater is incinerated through the high temperature reaction treatment unit to reduce environmental pollution. .

In general, livestock wastewater has a high demand for biochemical oxygen, and if discharged into public waters without proper treatment, it can lead to deterioration of the water quality of the rivers, eutrophication of lakes and oceans, and odor and pest damage, which can cause serious environmental pollution. .

Solid composting treatment, liquid composting treatment, methane fermentation and drying treatment are used to prevent environmental pollution.However, it is difficult to secure the demand source due to the high facility investment and operating costs, and the bad smell and quality of the produced fertilizer. there was.

The present invention allows the livestock wastewater to be incinerated, thereby reducing the operating costs while reducing the facility investment costs in the process of treating the livestock wastewater, and also reducing the environmental pollution by removing a large amount of nitrogen oxides generated during the incineration process. I would have to.

In the present invention, the livestock manure is treated in the manure processing unit 100 and separated into waste solids and livestock wastewater, and the livestock wastewater separated from the manure processing unit 100 is moved to the high temperature reaction treatment unit 200 to incinerate livestock wastewater treatment. Regarding the device, the manure processing unit 100 is composed of a manure storage tank 110, floating material control unit 130, waste solids storage tank 140 and livestock wastewater storage tank 150, the livestock manure is the manure After being supplied to the manure supply hole 112 formed on one side of the reservoir body 111 of the reservoir 110 is discharged to the manure discharge hole 113 formed on the other side is moved to the floating material control unit 130, the floating material Livestock manure moved to the control unit 130 is separated into waste solids and livestock wastewater by the operation of the floating material control unit 130 and at the same time the concentration of suspended solids in the livestock wastewater is controlled to 70,000 ~ 110,000mg / l. , remind Solids are moved to the waste solids storage tank 140, the livestock waste water is supplied to and stored in the wastewater supply hole 152 formed on one side of the wastewater storage tank body 151 of the livestock wastewater storage tank 150, the livestock wastewater storage tank ( Livestock wastewater treatment apparatus, characterized in that the waste water pump 160 is connected to the combustion unit 230 of the high temperature reaction treatment unit 200 by burning. Is moved to incineration.

In addition, the manure storage tank 110 is provided with a manure agitator 114 inside the reservoir body 111, the manure connected to the manure pump 120 in the manure discharge hole 113 of the manure storage tank 110. One side of the pipe 121 is connected, the other side of the manure pipe 121 is connected to the floating material control unit 130, the livestock manure of the manure storage tank 110 to the manure stirring unit 114 It is characterized in that the stirring is moved to the floating material control unit 130.

In addition, the livestock wastewater storage tank 150 is a wastewater supply hole 152 is formed on the upper side of the wastewater storage tank body 151, the wastewater agitator 153 is provided on the other side of the wastewater supply hole 152. It is characterized in that the waste water line 161 is connected to the waste water pump 160 to the other side of the waste water reservoir body 151.

In addition, the wastewater pump 160 is configured to automatically intake and discharge livestock wastewater by a high sensor (HS) and a low sensor (LS) provided in the inner upper and lower portions of the livestock wastewater storage tank 150, respectively. It is characterized by.

In addition, the wastewater pump 160 is provided with an inverter 171 connected to the control unit 170, each temperature sensor (T1) (T2) connected to the control unit 170 is a high temperature reaction processing unit 200. In the case of being provided at a predetermined temperature or less, the incineration amount is reduced.

In addition, the control unit 170 is characterized in that the incineration amount is reduced when the carbon monoxide detection unit CS is connected to exceed the carbon monoxide set value.

In addition, the livestock wastewater moved to the combustion unit 230 of the high temperature reaction treatment unit 200 by the wastewater pump 160 of the manure treatment unit 100 is moved through the wastewater line 161 and the wastewater nozzle 162. The wastewater nozzle 162 is vertically provided in the first combustion furnace 231 of the combustion unit 230 and horizontally provided in the second combustion furnace 232.

In addition, the leachate of the processing body stored in the treatment tank 210 of the high temperature reaction treatment unit 200 is moved to the leachate storage tank 220 provided connected to the treatment tank 210, to the leachate storage tank 220 The moved leachate is characterized in that it is supplied to the livestock wastewater storage tank 150 of the livestock manure treatment unit 100.

In addition, the processing body stored in the processing reservoir 210 of the high temperature reaction treatment unit 200 is supplied to the combustion unit 230, and the combustion unit 230 is the second combustion on the other side of the first combustion furnace 231. Furnace 232 is connected is provided, the first hopper 231, the input hopper 233 is installed, the second combustion furnace 232 is characterized in that the non-catalyst reduction portion 234 is provided It is done.

The present invention allows the livestock waste to be incinerated through the high temperature reaction process while the livestock manure is separated into the waste solids and the livestock wastewater in the manure treatment unit, thereby reducing the facility investment cost in the process of treating livestock wastewater. You can get it.

In addition, this can further reduce the cost of operating the facility.

In addition, by allowing the nitrogen oxides generated during the incineration process to be naturally removed, environmental pollution of the surroundings can be further reduced.

1 is a block diagram of a livestock wastewater treatment apparatus according to the present invention.
Figure 2 is an exemplary view showing a suspended solids control unit applied to the livestock wastewater treatment apparatus according to the present invention.

An embodiment of the present invention will be described below with reference to the accompanying drawings.

Livestock wastewater treatment apparatus according to the present invention is composed of a manure processing unit 100 and a high temperature reaction treatment unit 200 by incineration of livestock wastewater separated from the waste solids contained in the livestock manure to reduce environmental pollution Is treated in the manure processing unit 100 is separated into waste solids and livestock waste water, and separated livestock waste water is moved to the high temperature reaction treatment unit 200 is configured to be incinerated.

Here, the manure processing unit 100 is composed of a manure storage tank 110, a floating material control unit 130, waste solids storage tank 140 and livestock wastewater storage tank 150.

The livestock manure is supplied to the manure supply hole 112 formed on one side of the reservoir body 111 of the manure storage tank 110 and then discharged to natural water through the manure discharge hole 113 formed on the other side, while adjusting the floating material. It is configured to be moved to 130.

The manure stored in the storage tank body 111 of the manure storage tank 110 is discharged to natural water pressure toward the floating material control unit 130, in addition to this form in the manure discharge hole 113 and the manure pump 120 and One side of the connected manure pipe 121 may be connected, and the other side may be connected to the floating material control unit 130.

The manure stored in the storage tank body 111 of the manure storage tank 110 to be discharged with natural water pressure toward the floating material control unit 130, in addition to this form a separate manure stirring inside the storage tank body 111 114 may be provided to be moved to the floating material control unit 130 in a state where the waste solids and livestock waste water is mixed.

The suspended solids control unit 130 has a function to separate the waste solids and livestock wastewater contained in the livestock manure as shown in Figure 2, the upper portion of the frame 131 having a dustproof rubber (131-1) A rotating cylinder 133 in which the screw conveyor 132 is built is horizontally provided by the rotating support 134.

The rotary cylinder 131 is provided with a gear box 135-4 and a driven pulley 135-3 is rotated by a belt 135-2 connected to the drive pulley 135-1 of the drive motor 135. It is.

The casing 136 surrounding the livestock wastewater outlet 136-1 and the waste solids outlet 136-2 is provided on the outside of the rotary cylinder 133, and the rotary cylinder 133 has one side cone portion 133-1. ), The other cylindrical portion 133-2 is integrally formed.

The solid waste discharge hole 133-11 is formed to penetrate the cone portion 133-1, and the livestock wastewater discharge hole 133-21 penetrates the end portion of the cylindrical portion 133-2. It is.

The screw conveyor 132 has a hollow portion 132-1 is formed from one central side to the other half of the center, and the livestock wastewater supply pipe 137 is inserted therein, and the livestock wastewater discharge hole 132 is disposed at the end of the hollow portion 132-1. -2) is formed.

The livestock manure moved to the floating material control unit 130 is separated from the solid matter and livestock wastewater while foreign matters are removed by the floating material control unit 130. At this time, the concentration of suspended solids in the livestock wastewater is 70,000. Controlled at ~ 110,000 mg / l. Waste solids separated from the suspended solids control unit 130 is moved to the waste solids storage tank 140, the livestock wastewater is a wastewater supply hole formed on one side of the wastewater storage tank body 151 of the livestock wastewater storage tank 150 ( 152).

That is, the main function of the suspended solids control unit 130 is to adjust the concentration of suspended solids in livestock wastewater to 70,000 ~ 110,000mg / l, when the concentration of the suspended solids exceeds 110,000mg / l, The pump efficiency is reduced by materials, and pipes and nozzles may be clogged.The heat of incineration of suspended solids after drying is higher than the heat of cooling by moisture when incineration of waste water is injected. Due to incomplete combustion, the amount of CO generated increases. In addition, there is a problem that the thermal NOx increases due to excessive rise of the primary combustion chamber temperature.

When the concentration of the suspended solids is less than 70,000 mg / l, the heat of the suspended solids is lower than the amount of heat of the coolant caused by moisture during the incineration of the wastewater injection, thereby lowering the temperature of the primary combustion chamber. In addition, the incineration of organic wastewater is reduced due to the secondary combustion chamber temperature decrease. Although the generation of thermal NOx is partially reduced due to the decrease in the temperature of the secondary combustion chamber, the NOx removal efficiency is decreased due to the reduction of the ammonia nitrogen content contained in the livestock wastewater, and as a result, the total amount of NOx is rather increased. In order to solve this problem, an additional ammonia water injection step needs to be added.

       Therefore, the suspended solids control unit 130 is a component that has not been posted at all in the prior art, will be referred to as the most characteristic technical component of the present invention.

The livestock wastewater storage tank 150 is a wastewater supply hole 152 is formed on one side of the wastewater storage tank body 151, the wastewater agitator 153 is provided on the other side of the wastewater supply hole 152 is the livestock The livestock wastewater of the wastewater storage tank 150 is stirred.

The other side of the wastewater reservoir body 151 is connected to the wastewater line 161 connected to the wastewater pump 160.

The wastewater pump 160 is configured to automatically inhale and discharge livestock wastewater by a high sensor HS and a low level sensor LS provided at the inner upper and lower portions of the livestock wastewater storage tank 150, respectively. .

The wastewater pump 160 is provided with an inverter 171 connected to the control unit 170, each temperature sensor (T1) (T2) connected to the control unit 170 is a high temperature reaction processing unit 200 By being provided at, the incineration amount is reduced when the temperature is lower than the set temperature. When a separate carbon monoxide detection unit CS is connected to the control unit 170, the incineration amount is reduced when the carbon monoxide setting value is exceeded.

The livestock wastewater is moved to the combustion unit 230 of the high temperature reaction treatment unit 200 by the wastewater pump 160 connected to the livestock wastewater storage tank 150 to be incinerated, and the wastewater line 161 and the wastewater nozzle 162 are incinerated. Livestock wastewater is moved to the combustion unit 230 of the high temperature reaction treatment unit 200 through the wastewater nozzle 162 is provided perpendicular to the first combustion furnace 231 of the combustion unit 230, The second combustion furnace 232 is provided horizontally.

The leachate of the processing body stored in the treatment reservoir 210 of the high temperature reaction treatment unit 200 is moved to the leachate reservoir 220 provided and connected to the treatment reservoir 210, and moved to the leachate reservoir 220. Leachate is provided to be supplied to the livestock wastewater storage tank 150 of the livestock manure treatment unit 100.

The processing body stored in the processing reservoir 210 of the high temperature reaction processing unit 200 is supplied to the combustion unit 230, and the combustion unit 230 is a second combustion furnace on the other side of the first combustion furnace 231. 232 is provided to be connected.

An injection hopper 233 is installed above the first combustion furnace 231, and the non-catalyst reduction unit 234 is provided in the second combustion furnace 232.

The process of treating livestock liquids using the livestock wastewater treatment device is as follows.

First, the processing body in the processing tank 210 is supplied to the first combustion furnace 231 through the input hopper 233 of the combustion unit 230 to be combusted, and then the second combustion furnace 232 and the non-catalyst reduction unit ( 234 is discharged via.

Next, the manure stored in the manure storage tank 110 is supplied to the floating material control unit 130 by the natural pressure or the manure pump 120 is pressed by the screw conveyor 132 is rotated in the rotary cylinder 133 In the process of losing, the livestock wastewater is discharged through the livestock wastewater outlet 136-1, and the waste solids are discharged through the waste solids outlet 136-2.

Next, the discharged waste solids are stored in the waste solids storage tank 140 and then processed, and the livestock waste water is stored in the livestock waste water storage tank 150.

Next, the livestock wastewater stored in the livestock wastewater storage tank 150 is driven by the wastewater pump 160 by the high sensor HS, the low sensor LS, and the controller 170, and then the wastewater after passing through the wastewater line 161. Through the nozzle 162, the processing body is supplied to the first combustion furnace 231 and the second combustion furnace 232 of the combustion unit 230 where the combustion is combusted to perform combustion. At this time, the nitrogen oxides are removed in the process of the livestock waste water is burned.

Next, the nitrogen oxide remaining in the process of passing the non-catalyst reduction unit 234 provided to the upper portion of the second combustion furnace 232 in which the nitrogen oxide is removed is further removed.

On the other hand, the livestock wastewater separated from the livestock feed is supplied in the process of being supplied to the first combustion furnace 231 and the second combustion furnace 232 of the combustion unit 230 through the wastewater nozzle 162, respectively. By comparing the value detected by the detection sensor (T1) (T2) and the carbon monoxide detection unit (CS) and the set value is to be adjusted variably. That is, the wastewater pump 160 is controlled by the inverter 171, so that the supply amount is reduced when the temperature is less than the set temperature, the incineration amount is reduced, and even when the carbon monoxide setting value is exceeded, the incineration amount is reduced.

100: manure processing unit 110: manure storage tank
111: reservoir body 112: manure supply hole
113: manure discharge hole 130: floating material control unit
140: waste solids storage tank 150: livestock wastewater storage tank
151: waste water reservoir body 152: waste water supply hole
160: wastewater pump 200: high temperature reaction treatment unit
230: burner

Claims (9)

Livestock wastes are treated in the manure processing unit 100 is separated into waste solids and livestock wastewater, livestock wastewater separated from the manure processing unit 100 is moved to the high temperature reaction treatment unit 200 in the livestock wastewater treatment apparatus is incinerated ,
The manure processing unit 100 is composed of a manure storage tank 110, a suspended solids control unit 130, waste solids storage tank 140 and livestock wastewater storage tank 150, the livestock manure is of the manure storage tank 110 After being supplied to the manure supply hole 112 formed on one side of the reservoir body 111, the manure is discharged to the manure discharge hole 113 formed on the other side, and is moved to the floating material control unit 130, and the floating material control unit 130. Livestock manure is moved to the waste solids and livestock wastewater by the operation of the floating material control unit 130 and at the same time the concentration of suspended solids in the livestock wastewater is controlled to 70,000 ~ 110,000mg / l, the waste solids The livestock wastewater is moved to the waste storage tank 140, and the livestock wastewater is supplied to and stored in the wastewater supply hole 152 formed at one side of the wastewater storage tank body 151 of the livestock wastewater storage tank 150, and then the livestock wastewater storage tank 150. Connected wastewater pump (160) By livestock waste water treatment apparatus as characterized in that the incineration is moved to the combustion portion 230 of the high-temperature reaction processor 200. The method of claim 1,
The manure storage tank 110 is provided with a manure agitator 114 inside the reservoir body 111, and a manure pipe connected to the manure pump 120 at the manure discharge hole 113 of the manure storage tank 110 ( One side of 121 is connected, the other side of the manure pipe 121 is connected to the floating material control unit 130, the livestock manure of the manure storage tank 110 is stirred by the manure agitator 114 Livestock wastewater treatment apparatus, characterized in that moved to the floating material control unit 130. The method of claim 1,
The livestock wastewater storage tank 150 is a wastewater supply hole 152 is formed on one side of the wastewater storage tank body 151, the wastewater agitator 153 is provided on the other side of the wastewater supply hole 152, The wastewater line 161 connected to the wastewater pump 160 is connected to the other side of the wastewater reservoir body 151, and the livestock wastewater of the livestock wastewater storage tank 150 is agitated by the wastewater agitator 153. Livestock wastewater treatment apparatus, characterized in that. The method of claim 1,
The wastewater pump 160 is configured to automatically inhale and discharge livestock wastewater by a high sensor (HS) and a low level sensor (LS) provided at the inner upper and lower portions of the livestock wastewater storage tank 150, respectively. Livestock wastewater treatment apparatus. The method of claim 1,
The wastewater pump 160 is provided with an inverter 171 connected to the control unit 170, and each temperature sensor T1 or T2 connected to the control unit 170 is connected to the high temperature reaction processing unit 200. The livestock wastewater treatment apparatus, characterized in that the incineration amount is reduced, if provided below the set temperature. 6. The method of claim 5,
Livestock wastewater treatment apparatus characterized in that the incineration amount is reduced when the carbon monoxide detection unit (CS) is connected to the control unit 170 exceeds the carbon monoxide set value. The method of claim 1,
The livestock wastewater moved to the combustion unit 230 of the high temperature reaction treatment unit 200 by the wastewater pump 160 of the manure treatment unit 100 is moved through the wastewater line 161 and the wastewater nozzle 162, The wastewater nozzle 162 is vertically provided in the first combustion furnace 231 of the combustion unit 230, the livestock wastewater treatment apparatus, characterized in that provided in the second combustion furnace (232) horizontally. The method of claim 1,
The leachate of the treatment body stored in the treatment tank 210 of the high temperature reaction treatment unit 200 is moved to the leachate storage tank 220 connected to the treatment storage tank 210 and moved to the leachate storage tank 220. Leachate is a livestock wastewater treatment apparatus, characterized in that supplied to the livestock wastewater storage tank 150 of the livestock manure processing unit (100). The method of claim 1,
The processing body stored in the processing reservoir 210 of the high temperature reaction processing unit 200 is supplied to the combustion unit 230, and the combustion unit 230 is a second combustion furnace on the other side of the first combustion furnace 231. 232 is connected and provided, an input hopper 233 is installed on the first combustion furnace 231, and the non-catalyst reduction unit 234 is provided on the second combustion furnace 232. Livestock wastewater treatment equipment.

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