KR100500706B1 - Method for deodorization a bad smell gas by using a bio-filter - Google Patents

Abstract

The present invention relates to a odor gas deodorization method using a biofilter, and conventionally, because the odor gas is supplied in a state in which the microorganism carrier of the deodorization tank is stagnant, the media layer of the microorganism carrier hardens and the air circuit and the outlet are easily formed. There is a problem in that the decay efficiency is lowered as the seal is generated, such as cracking phenomenon.

Therefore, the present invention performs a step of evenly stirring the microbial carrier with the stirring device 30 during the step of supplying the odor gas and the like collected in the fermentation tank to the microbial carrier of the deodorizing tank 11 of the microbial carrier The deodorizing method of the process of spraying water or water containing trace amounts of nutrients on the stirring surface or the fecal soil having a high moisture content in the deodorizing tank 11 to store the moisture content at an appropriate level. In the non-heating room temperature drying deodorization method of the step of carrying out the step of stirring and conveying to the stirring apparatus 30 until the water content of the fecal soil is maintained at an appropriate level while supplying steam, and then taking out the fecal soil and supplying it in an appropriate unit. As such, the present invention is a very useful invention that can efficiently treat malodorous gas and provide high quality fecal soil.

Description

Deodorization method using bio filter {Method for deodorization a bad smell gas by using a bio-filter}

The present invention relates to a method for deodorizing malodorous gas using a biofilter composed of microorganisms, and in particular, in order to deodorize various malodorous gases collected in an organic waste treatment plant, etc. by a microorganism media layer filled in a deodorization tank. And it relates to a odor gas deodorizing method using a biofilter that can be provided for the maintenance of the biofilter easy to provide a moisture supply device, and also provides a good quality fecal soil with a commercial.

In general, where organic wastes are fermented in a place where various organic wastes (waste, food waste, paper sludge, sewage sludge, etc.) are processed, a large amount of severe odorous gases such as ammonia nitrogen gas are generated. If the air is discharged into the atmosphere, the surrounding air is seriously polluted, which causes problems such as the Nimbi phenomenon.

Therefore, in order to be environmentally friendly, only the clean air from which most of the various odorous gases emitted during the treatment of the organic waste are removed should be discharged, so that it does not violate environmental regulations.

However, conventionally, various methods exist as a means for deodorizing various malodorous gases generated from organic wastes, and among the widely used methods, the collected malodorous gases are passed through a plurality of filter plates containing activated carbon to deodorize them. However, this method requires expensive maintenance of the activated carbon filter plate from time to time. Therefore, most companies only installed the filtration system in accordance with the regulations, but avoid the continuous operation, so the surrounding air is seriously polluted.

As an alternative, methods for using biofilters using deodorant microorganisms, which are inexpensive and can be used semi-permanently, have been developed. The soil deodorization method has been developed and used as a system in which microorganisms decompose and remove odor gas by storing a carrier having deodorant microorganisms in a deodorization tank and supplying the odor gas collected into the deodorization tank.

However, this is to supply the odor gas while maintaining the microbial carrier filled in the deodorizing tank in a stagnant state, so that the microbial median layer is hardened by consolidation and air circuits and outlets are formed and cracks occur. There is a problem that the efficiency is lowered.

In addition, even though the water can be sprayed on the surface of the microbial media layer through the sprinkler pipe in the upper part of the deodorizing tank, the sprinkled water flows into the cracks as when watering the water film phenomenon or dry pollen generated from the surface of the microbial media layer. It is difficult to maintain the proper moisture content (about 40 ~ 50%) in most of the microbial median layers because the phenomenon of entering occurs, so that the moisture is not evenly supplied to the microbial carriers.

To this end, excessive water supply from the surface of the microbial carrier layer may cause swelling like magma of lava or excessive moisture supply of the entire microbial carrier layer, resulting in a very low deodorization efficiency and difficulty in forming voids and formation of air circuits. Accelerate the deodorizing power or problems such as overloading occurs in the deodorizing blower.

Accordingly, the present invention has been developed to solve the above-mentioned problems, the object of the present invention is to collect various odor gas generated in the odor generating area, such as organic waste treatment plant to be evenly spread and supplied to the microorganism carrier of the deodorization tank. It is to provide a odor gas deodorization method using a bio filter that can increase the deodorization efficiency of odor gas by promoting the culture of deodorizing microorganisms by stirring and supplying moisture.

Another object of the present invention is to perform the deodorization of the odor gas generated at the worm breeding ground in the non-heat drying of fecal soil (earthworm manure) at the same time that the system is excellent deodorizing power produced in the existing The fecal soil containing a large amount of microorganisms and good microorganisms in the soil is put into the deodorizing tank to use a odor gas supplied to the deodorizing tank so that the non-heating drying to appropriately lower the water content of the fecal soil is performed. The present invention provides a odor gas deodorization method using a biofilter that prevents soil microorganisms from being killed and promotes microbial cultivation of the fecal soil to smoothly remove odor gas and make a good quality fecal soil.

Hereinafter, described in detail by the accompanying drawings the technical configuration and operation of a preferred embodiment that can effectively achieve the above object of the present invention.

1 is a schematic diagram illustrating an example of a state in which the biofilter system of the present invention is installed in connection with a fermentation chamber of an organic waste, and FIG. 2 is a schematic diagram illustrating the biofilter system structure of the present invention as an example.

As illustrated in the present invention, the odor gas deodorizing biofilter system of the present invention installs an injection pipe 20 in which the odor gas injection holes 21 are formed on the inner bottom of the deodorization tank 11 in which deodorizing microorganisms are stored. And, the upper part is provided with a stirring device 30 to stir the microorganisms stored in the deodorizing tank 11 evenly from top to bottom.

The stirring device 30 is to be installed in the configuration of the stirring drum 31 (stirring screw) is provided with a plurality of stirring rotary blades 32 at regular intervals along the longitudinal direction of the deodorization tank 11 as shown in FIG. Although it is preferable, if it is a system which can stir, such as a stirring screw and an escalator-type mobile stirring apparatus, it may be freezing.

In the figure, reference numeral 41 denotes a fermentation tank of a closed fermentation chamber 40 for fermenting organic waste (dust, food waste, paper sludge, sewage sludge, etc.), and 50 denotes a odor generated in the fermentation chamber 40. It is a blower that collects gas and water vapor and supplies it to the injection pipe 20 through the transfer line 51, 10 is a deodorization chamber in which a deodorization tank 11 is installed, and 12 is a deodorization chamber 10 ceiling. The outlet of the (60) is a bioreactor that stores the generated water generated from the microbial carrier to cultivate the microorganism and then use it again when supplying the microbial carrier.

Referring to the odor gas deodorization method using the biofilter of the present invention by the device formed as described above as follows.

Example 1 (When microbial carrier is used in deodorization tank)

1st process (odor gas supply process)

The present invention stores the carrier (hereinafter referred to as microbial carrier) in which the microorganisms are adsorbed in the deodorizing tank 11 and the deodorizing tank 11 along the transfer line 51 by the blower 50 with the odor gas and water vapor collected from the outside. When supplied to the injection pipe 20 of the bottom odor gas and water vapor is supplied to the microorganisms filled in the deodorization tank 11 through the injection hole 21 of the injection pipe 20, the odor gas injected in this way It is digested by the food of microorganisms adsorbed on the carrier and decomposed.

However, if the microorganisms in the deodorization tank 11 is stagnant when the odor gas is injected from the injection pipe 20 of the bottom of the deodorization tank 11 as described above, the microorganisms located in the periphery thereof, While predating water vapor, the upstream microorganisms are imbalanced with each other due to their low absorption rate, which leads to a considerably low culture capacity of the microorganisms.

2nd step (agitating step of microcarrier)

Therefore, in this case, the present invention mixes the microbial carrier evenly from top to bottom with the stirring device 30 installed in the deodorizing tank (11). Then, all of the microbial carriers can evenly absorb the malodorous gas and water vapor injected from the injection tube 20, and the microorganisms adsorbed on the microbial carrier are cultivated in a balanced manner to increase the removal rate of the malodorous gas.

3rd process (watering process)

When the stirring process of the second step is performed, water is sprayed to prevent the microorganisms of the microbial carrier from drying. Then, the water sprayed on the stirring surface may maintain an even moisture content over the entire microbial carrier layer, or in the case of water sprayed on the surface, evenly mixed with the microorganisms evenly mixed from the top to the bottom by the stirring device 30. As it is delivered, it improves the water content retention effect.

This eliminates the air circuit stage (holes) formed in the dry part, and the malodorous gas is more evenly dispersed and raised in the carrier layer, so that the pore holding force of the carrier is improved, thereby increasing the treatment efficiency of the malodorous gas. ) Only the humid air in a clean state without odor is discharged to the outlet 12 of the upper portion.

In the present invention, it is possible to maintain the pores by the stirring device, so that the pores are reduced by consolidation of the microbial carrier layer, so that the diffusion phenomenon of the odor air is weakened, and the deodorization efficiency is prevented from deteriorating. By reducing the deviation of pressure loss, it is possible to keep the deodorizing air volume constant. Therefore, it reduces the design deviation related to the countermeasures for reducing environmental pollution. Therefore, the treatment of odor gas is efficiently performed.

In addition, it prevents the blower from overloading the deodorizing blower to reduce the blower failure and power costs, and destroys the air flow circuit stage to block the deodorization of the odor gas and water vapor not deodorized. In addition, it is possible to supply water evenly or even small amounts of nutrients to the entire microbial carrier layer, thus maintaining the proper growth environment for deodorizing microorganisms, thus improving the deodorization efficiency and promoting the cultivation of microorganisms to increase the deodorization efficiency of odor gas. do.

Example 2 (When fecal soil which is an earthworm fecal matter was used in a deodorization tank)

1st process (odor gas supply process)

The present invention stores only the fecal soil which is an earthworm feces in the deodorizing tank 11, the fecal soil can be said to be considerably high water content of 50 ~ 65%. Thereafter, the odor gas and water vapor collected from the outside are supplied to the injection pipe 20 at the bottom of the deodorization tank 11 by the blower 50. The odor gas and water vapor are supplied to the microorganisms filled in the deodorization tank 11 through the injection hole 21 of the injection pipe 20.

Second process (stirring process of fecal soil)

When the malodorous gas and water vapor are supplied in the first step, the present invention stirs the fecal soil evenly from top to bottom with the stirring device 30 installed in the deodorization tank (11). Then, the malodorous gas and water vapor sprayed from the injection pipe 20 are delivered and absorbed evenly to the microorganisms of all fecal soil, so that the microorganisms of the fecal soil are cultivated as a whole to increase the removal rate of the malodorous gas.

Then, the fecal soil is dried while a large amount of malodorous gas is supplied from the deodorizing blower. At this time, the fecal soil is periodically stirred until it is dried at a moisture content suitable for use as fecal soil, thereby promoting balanced growth of microorganisms. As treatment efficiency increases, only the humid air in a clean state without odor is discharged to the outlet 12 of the upper portion of the deodorization tank 11.

3rd process (withdrawal supply process)

The fecal soil dried at a proper moisture content while removing the malodor gas evenly in the second process is taken out to the outside and then supplied in an appropriate unit. It is the ideal fecal soil with good quality.

Since the present invention is to put the fecal soil containing a large amount of microorganisms having good deodorizing power and good microorganisms in the deodorizing field to dry at room temperature while non-heating the soil microorganisms are killed or reduced by heat as in the conventional heat drying method The water content can be lowered to an appropriate level without any phenomenon, and it is excellent in promoting fecal microbial culture, and it is possible to provide a good quality fecal soil with smooth removal of odor gas.

In the present invention, although the deodorization chamber 10 may be open, the deodorization chamber 10 may be opened, but when the deodorization chamber 10 is installed in a sealed type, the deodorization chamber 10 may be installed together with a detection sensor such as odor gas, temperature, and humidity. By checking the state of the discharged air can be easily adjusted, such as agitation timing, in particular the closed deodorization chamber 10 is preferable because it can prevent the microbial activity decrease by the temperature decrease in winter can increase the deodorization efficiency.

As described above, when the odor gas collected from the outside is supplied to the microorganisms in the deodorization tank, the microorganisms of the deodorization tank are periodically stirred evenly so that the odor gas is evenly contacted with the odor gas so that the air is easily maintained and water is supplied. By destroying the flow circuit stage to promote the culture of microorganisms can increase the deodorization efficiency of the odor gas as possible, which is easy to maintain and there is an effect that can be used semi-permanently.

In addition, when fecal soil is used as a microorganism in a deodorizing tank, it is possible to promote microbial culture of fecal soil while lowering the water content of fecal soil to an appropriate level without damaging microorganisms, thereby providing high quality fecal soil with smooth removal of malodorous gases. It also works.

1 is a schematic diagram illustrating an example of a state in which the biofilter system of the present invention is installed in connection with a fermentation chamber of an organic waste.

2 is a schematic diagram illustrating an example of a biofilter system structure of the present invention;

Explanation of symbols for main parts of the drawings

11 deodorization tank 12 outlet

20: injection pipe 30: stirring device

40: fermentation chamber 50: blower

Claims (2)

Putting a microbial carrier in the deodorizing tank (11) and supplying the odor gas and water vapor collected from the outside to the microbial carrier through the injection pipe (20) at the bottom of the deodorizing tank (11); In the odor gas deodorization method using a biofilter comprising a third step of spraying water so that the moisture content of the dried microbial carrier is maintained at an appropriate level, Stirring device (30) the microorganism carrier in the deodorization tank (11) so that the odor gas and water vapor supplied to the deodorization tank (11) between the first process and the third process is evenly supplied to the upper and lower microorganisms in the deodorization tank (11) Odor gas deodorization method using a biofilter, characterized in that to perform a second step of mixing and stirring from top to bottom. A first step of storing only fecal soil which is an earthworm excrement in the deodorizing tank 11 and supplying odor gas and water vapor collected from the outside to the fecal soil through the injection pipe 20 at the bottom of the deodorizing tank; In the odor gas deodorization method using a biofilter comprising a third step of extracting the fecal soil in the deodorization tank 11 and supplying the fecal soil in an appropriate unit, Mixing the fecal soil in the deodorizing tank 11 with the stirring device 30 to increase the malodor gas decomposition rate between the first process and the third process so that the malodorous gas and water vapor are evenly supplied to the upper and lower fecal soils of the deodorizing tank 11. Odor gas deodorization method using a biofilter, characterized in that to perform a second step of stirring until the water content of fecal soil is maintained below 40%.