KR101294028B1 - A high efficiency bad smell discharging system of a barnyard manure factory - Google Patents

Abstract

The present invention sends the odor of the primary fermentation tank to be ventilated fermentation to the fermentation tank tertiary fermentation tank to decompose odor gas using microorganisms contained in the compost of the tertiary fermentation tank, primary fermentation tank or secondary fermentation tank The present invention relates to a high-efficiency odor emission system of a livestock manure composting facility configured so that the temperature of the air to be supplied to the winter can be properly supplied even in winter, and a odor emission of a livestock manure composting facility equipped with a primary fermentation tank, a secondary fermentation tank, and a tertiary fermentation tank. In the system, a plurality of collecting hoods 50 are installed adjacent to the upper portion of the primary fermentation tank 5, and the collecting hood 50 is installed to collect odor gas generated in the entire area of the upper portion of the primary fermentation tank 5, and , The collection hood 50 is connected to the intake pipe 10, the odor gas discharged to the upper portion of the primary fermentation tank 5 by the operation of the suction fan 11 is sucked, the input pipe 60 is the primary fermentation tank Bottom or secondary fermentation tank of (5) (6) Of the inlet pipe 10 is supplied to the primary fermentation tank 5 or the secondary fermentation tank 6 in a state where the temperature is increased through the heat exchanger 80 and connected to the bottom of the inlet 62. The end is connected to the bottom of the tertiary fermentation tank (7) and the odor gas of the primary fermentation tank (5) is sent to the tertiary fermentation tank (7) by the operation of the suction fan (11) contained in the compost inside the tertiary fermentation tank (7). It is characterized in that it is configured to be degraded by microorganisms.

Description

A high efficiency bad smell discharging system of a barnyard manure factory}

The present invention relates to a high-efficiency odor emission system of a livestock manure composting facility, and more particularly, the microorganisms contained in the compost of the third fermentation tank by sending the odor of the primary fermentation tank to be ventilated fermentation to the tertiary fermentation tank, which is a post-stage fermentation tank. The present invention relates to a high-efficiency odor emission system of a livestock manure composting facility configured to decompose malodorous gas by using and to ensure that the temperature of the air supplied to the primary fermentation tank or the secondary fermentation tank is properly supplied even in winter.

Recently, as the consumption of meat has increased due to the change of dietary patterns in Korea, the livestock farms have become full-scaled, mechanized and serialized, and the scale has increased, and sewage manure due to the increase in the amount of livestock manure, the main cause of air, water and soil pollution. And the regulation of the Livestock Wastewater Act is strengthened to the level of developed countries, and the issue of protecting the environment has emerged, and domestic livestock industry is experiencing a lot of difficulties due to the increase of meat import and the increase of feed cost. It is true.

The methods currently used to treat manure at livestock farms can be divided into composting and liquefaction.In the method of liquefaction, mixed manure is composted after solid-liquid separation and solids are composted. It produces liquid fertilizer that does not smell bad by converting it into materials and sprays it on land and farming farms to get a good response, and the use of liquid fertilizer and compost using livestock manure as a chemical fertilizer substitute is increasing.

Therefore, it is absolutely necessary for the livestock manure resource-recycling device to solve the problem of environmental pollution of livestock farms, and the profit from the composting of manure manure, that is, the production and sale of organic fertilizer, is 30% of the feed purchase cost. It is possible to preserve the%, bringing great profits to livestock farmers economically, and solving the problems of livestock manure, which has been a problem of livestock farmers, so that the environment and soil pollution can be completely solved. Brings effect.

Odor generated in the barn is mainly produced by anaerobic decomposition of manure, and livestock manure contains organic substances and nutrients that are used as energy sources of naturally occurring microorganisms.

When these livestock manure is decomposed by microorganisms, it generates various gases and volatile substances. When the decomposition of livestock manure occurs anaerobic, these gases and constituents are odorous, and aerobic decomposition produces mainly carbon dioxide, water and small amounts of ammonia. Carbohydrates are metabolized by alcohol, aldehydes, ketones Decomposes into organic acids.

In addition, the organic material in livestock manure is mainly composed of proteins, carbohydrates and fats, and anaerobic decomposition of proteins forms ammonia and volatile organic acids. And amino acids containing sulfur components are decomposed into sulfides and mercaptans, which are harmful to the human body.

Most of the odorous gases and dust generated in the livestock manure or manure composting facilities are harmful to workers, so a device for collecting and discharging odors is installed in the manure composting facility.

In the conventional livestock manure composting facility (1), a ventilation fermentation tank which is a primary fermentation tank (5) is provided, and a stirring fermentation tank which is a secondary fermentation tank (6) is provided. Finally, one or more post-fermentation fermentation tanks, which are tertiary fermentation tanks 7, may be provided, and a liquid fermentation tank may be optionally provided.

Since the livestock manure composting facility 1 generates odors in the vicinity, the odors are sucked by the collection hood of the duct 2 installed therein after the window is closed, and then sent to the scrubber 3 for treatment.

The livestock manure composting facility (1) generates heat of 40 degrees to 80 degrees in the course of the composting process, the interior is a high temperature, a large amount of odor is generated, the working environment is extremely poor.

In order to discharge these odors, the collection hood of the duct (2) installed on the ceiling of the livestock manure composting facility (1) sucks the odor and sends it to the scrubber (3). Could not be removed by suction.

And in the primary fermentation tank (5) to remove the moisture to a certain level or more, and also in order to make the fermentation smoothly as shown in FIG. There has been a problem that a large amount of odor caused by blowing. Such a large amount of odor is difficult for a person to work inside, and such odor was difficult to be discharged through the ceiling duct (2).

In addition, the cold air in the winter season is introduced into the primary fermentation tank (5) because it is difficult to maintain the temperature of 20 ℃ or more optimum fermentation conditions, there was a problem that the efficiency of fermentation is deteriorated by this temperature difference.

In addition, since the tertiary fermentation tank 7 of the livestock manure composting facility 1 does not relatively produce odors as a post-stage fermentation tank, there is a problem in that the efficiency of collecting odors in the upper portion of the tertiary fermentation tank is the same.

Apart from the malodor, there was a problem in that the cost of the electricity consumption of the exhaust fan 4 connected to the scrubber 3 was excessively increased in order to extract the malodor of the entire livestock manure composting facility 1 through the duct 2.

The present invention has been made in order to solve the problems described above, there is an object to efficiently discharge so that the operation is not difficult due to the large amount of odor generated in the primary fermentation tank, odor gas generated in the primary fermentation tank It is intended to decompose malodorous gas by using the microorganisms contained in the compost of the third fermentation tank is collected directly above the primary fermentation tank to the third fermentation tank.

Although the adjacent upper part of the primary fermentation tank is not sealed, the collection hood is installed directly on the upper portion of the primary fermentation tank while leaving a space where air can enter.

In order to introduce air into the primary fermentation tank during the winter season, the cold air from the outside is raised to a temperature suitable for fermentation and configured to be supplied to the primary fermentation tank or the secondary fermentation tank.

The present invention, in the odor discharge system of the livestock manure composting facility equipped with the primary fermentation tank, secondary fermentation tank, and tertiary fermentation tank to achieve the above object, a plurality of collection hoods adjacent to the upper portion of the primary fermentation tank (5) 50 is installed, but the collecting hood 50 is installed to collect odor gas generated in the entire upper area of the primary fermentation tank 5, and the collecting hood 50 is connected to the intake pipe 10 to suction fan 11 Odor gas discharged to the upper portion of the primary fermentation tank 5 is sucked by the operation of the primary fermentation tank 5, and the inlet pipe 60 is connected to the bottom of the primary fermentation tank 5 or the bottom of the secondary fermentation tank 6 so that the inlet ( The air flowing from 62 is supplied to the primary fermentation tank 5 or the secondary fermentation tank 6 with the temperature rising through the heat exchange part 80, and the end of the intake pipe 10 is the tertiary fermentation tank 7 It is connected to the bottom and the odor gas of the primary fermentation tank (5) is sent to the tertiary fermentation tank (7) by the operation of the suction fan 11 to the compost inside the tertiary fermentation tank (7). Characterized in that it is configured to be decomposed by the microorganisms included, heat exchange unit 80 is inserted into the intake pipe 60 into the inside of the intake pipe 10 in some section of the intake pipe 10 is fixed, the input pipe 60 The cold air passing through) is configured to be elevated in temperature by the high temperature odor gas passing into the intake pipe 10 and to be supplied to the primary fermentation tank 5, and the intake pipe where the heat exchange unit 80 ends. (10) The high efficiency of the livestock manure composting facility, characterized in that the drain hole 40 is formed on one side to discharge the water introduced into the moisture and odor gas by the dew condensation generated in the outer diameter of the input pipe 60 Provides odor emission system.

According to the present invention, since a large amount of malodorous gas generated in the primary fermentation tank is sucked into the collection hood directly from the upper portion of the primary fermentation tank and sent to the tertiary fermentation tank with less malodor, the occurrence of malodorous gas is reduced, thereby improving the working environment. .

 The odor gas is collected intensively and sent to the tertiary fermentation tank where the odor is not severe. By using microorganisms in the tertiary fermentation tank, the odor gas can be decomposed twice. The gas can be discharged, which improves the worker's working environment.

The cold air supplied to the primary fermentation tank during the winter is raised to a temperature suitable for fermentation by the heat exchanger, which helps fermentation, and the heat of the outside air is met with the high temperature of the odorous gas generated by fermentation in the heat exchanger. As it is raised and sent to the primary fermentation tank, the fermentation efficiency is increased.

1 is a schematic diagram showing a odor emission system of a conventional livestock manure composting facility.
Figure 2 is a view showing a high-efficiency odor emission system of livestock manure composting facility of the present invention.
Figure 3 is a schematic diagram showing the intake direction of the high efficiency malodorous discharge system of the livestock manure composting facility of the present invention.
Figure 4 is a schematic diagram showing a state in which the input pipe is connected to the second fermentation tank in the high efficiency malodorous discharge system of the livestock manure composting facility of the present invention.
Figure 5 is a schematic diagram showing the intake direction in Figure 4 of the high efficiency malodorous discharge system of the livestock manure composting facility of the present invention.
Figure 6 is an enlarged view of a portion A of Figure 2 showing a high-efficiency odor emission system of the livestock manure composting facility of the present invention.
7 is a cross-sectional view taken along the line AA of Figure 3 showing a high-efficiency odor emission system of the livestock manure composting facility of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

The present invention is a odor of the livestock manure composting facility (1) equipped with a primary fermentation tank (5) to be subjected to gout fermentation, secondary fermentation tank (6) to be stirred and fermentation, tertiary fermentation tank (7) is a ripening fermentation Improve the discharge structure to improve the environment of people working in the livestock manure composting facility (1), reduce the input of moisture regulators, power and microorganisms to save resources and reduce costs, and as a primary fermentation tank (5) in winter Characterized in that it is configured to prevent the fermentation efficiency is lowered by the cold air to be supplied.

Fermentation treatment is to solidify the livestock manure to ferment the solids under the action of fermentation microorganisms under aerobic anaerobic conditions. If more than 60% moisture is less breathable is less likely to fermentation.

In the past, the odor gas is collected through the duct installed on the ceiling and sent to the scrubber, and the odor emission system is reconfigured by appropriately applying the difference in the occurrence of odors that are high and low.

A large number of collection hoods 50 are provided to be adjacent to the upper portion of the primary fermentation tank 5, in which odor gas is severely generated to make a worker's work difficult, and the collection hood 50 is connected to the intake pipe 10. The suction fan 11 is installed at one side of the intake pipe 10, and the odor gas discharged to the upper portion of the primary fermentation tank 5 by the operation of the suction fan 11 is sucked.

At this time, the collecting hood 50 installs the collecting hood 50 to cover the entire upper area of the primary fermentation tank 5 so as to collect most of the odor gas generated in the primary fermentation tank 5 directly from the upper portion. At this time, the collecting hood 50 is preferably installed to be able to move up and down.

One end of the input pipe 60 is connected to the bottom of the primary fermentation tank 5 or the bottom of the secondary fermentation tank 6 to be introduced from the inlet 62, which is the other end installed outside the livestock manure composting facility 1. Cold air is supplied to the primary fermentation tank 5 or the secondary fermentation tank 6 in a state where the temperature rises through the heat exchange unit 80.

2 and 3 illustrate the state in which the input tube 60 is connected to only the primary fermentation tank 5, and in FIG. 4 and 5, the input tube 60 simultaneously to the primary fermentation tank 5 and the secondary fermentation tank 6. ) Is connected. In both cases, a part of the input tube 60 is connected to the primary fermentation tank 5 and the secondary fermentation tank 6 via the heat exchange unit 80 so that the external cool air is heated to supply the temperature appropriate for the fermentation. do.

The air supply pipe 70 is branched to one side of the input pipe 60 passing through the heat exchange part 80 from the inlet 62 of the input pipe 60 and connected to the bottom of the second fermentation tank 6. The air supply fan 71 is installed on one side of the air supply pipe 70 to blow air into the second fermentation tank 6.

Alternatively, the air supply pipe having a separate heat exchanger may be installed through the heat exchanger 80.

 As shown in FIG. 6, the inlet pipe 60 having a smaller diameter than the intake pipe 10 is installed inside the intake pipe 10 so as not to touch each other. That is, as shown in Figure 7, the inlet pipe 60 is located in the inner center of the intake pipe 10.

As the odor gas of 60 degrees or more sucked by the primary fermentation tank 5 passes through the intake pipe 10, the cold temperature of the inlet pipe 60 is increased by wrapping the circumference of the inlet pipe 60. Therefore, the cool air inside the input pipe 60 prevents the lowering of the foot efficiency caused by the cold temperature.

In addition, since the input pipe 60 has a low temperature, condensation occurs in the outer diameter of the input pipe 60 in contact with the high temperature of the livestock manure composting facility 1. 10 is moved inside the discharge pipe 40 is discharged through the drain hole formed on one side. Moisture discharged through the drain hole 40 includes moisture introduced into the odor gas.

The end of the intake pipe 10 is connected to the bottom of the tertiary fermentation tank 7, and the odor gas of the primary fermentation tank 5 is blown into the compost of the tertiary fermentation tank 7 by the operation of the intake fan 11. .

The fan applied to the livestock manure composting facility (1) to discharge the odor gas or supply air, so a lot of corrosion occurs due to the odor gas, it is preferable to use sus (SUS) or PVC.

And as the high temperature odor gas passes through the heat exchange unit 80, the temperature is lowered, and condensation is generated and removed from the heat exchange unit in advance, thereby reducing facility damage due to condensation.

1: livestock manure composting facility 2: duct
3: scrubber 4: exhaust fan
5: primary fermentation tank 6: secondary fermentation tank
7: 3rd fermentation tank 8: air injection fan
10: intake pipe 11: suction fan
30: exhaust fan 40: drain hole
50: collection hood 60: input tube
61: fan 62: inlet
70: supply pipe 71: supply fan
80: heat exchanger

Claims (3)

In the odor emission system of livestock manure composting facility equipped with a primary fermentation tank, a secondary fermentation tank, and a tertiary fermentation tank,
A plurality of collection hoods 50 are installed adjacent to the upper portion of the primary fermentation tank 5, but the collection hood 50 is installed to collect odor gas generated in the entire area of the upper portion of the primary fermentation tank 5, and the collection hood ( 50 is connected to the intake pipe 10, the odor gas is discharged to the upper portion of the primary fermentation tank 5 by the operation of the suction fan 11,
The input tube 60 is connected to the bottom of the primary fermentation tank 5 or the bottom of the secondary fermentation tank 6 so that the air flowing from the inlet 62 passes through the heat exchanger 80 and the temperature rises. (5) or to the secondary fermentation tank (6),
The end of the intake pipe 10 is connected to the bottom of the tertiary fermentation tank 7 so that the odor gas of the primary fermentation tank 5 is sent to the tertiary fermentation tank 7 by the operation of the suction fan 11. High-efficiency odor emission system of livestock manure composting facility, characterized in that configured to be degraded by the microorganisms contained in the internal compost.
The method of claim 1,
The heat exchange part 80 is fixed by inserting the input pipe 60 into the inside of the intake pipe 10 in a portion of the intake pipe 10, the cold air passing through the input pipe 60 is the intake pipe 10. The high-efficiency odor emission system of the livestock manure composting facility, characterized in that the temperature is raised by the high temperature odor gas passing through the interior of the fermentation tank (5).
3. The method according to any one of claims 1 to 3,
A drain hole 40 is formed at one side of the intake pipe 10 at the end of the heat exchange part 80 to discharge moisture introduced into the moisture and odor gas caused by condensation generated in the outer diameter of the input pipe 60. High efficiency odor emission system of livestock manure composting facility, characterized in that configured.

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