KR100260979B1 - A process of the treatment for waste smell by using microbe fixed cillium ball, and the bio-reactor therefor - Google Patents

Abstract

PURPOSE: A high concentration organic odor treatment equipment using microorganism immobilized on circular cilial contact filter media is provided, which can remove bad-smelling matters of 500 ppm of ammonia and hydrogen sulfide greatly and can remove mercaptane also. CONSTITUTION: The system comprises the followings: (i) a pH reaction tank (2) that consists of an inlet (1), a circulating distribution pipe (11), in which bad-smelling matter is adjusted to pH 6-8 and mixed to make primary neutralization by the distribution pipe (11) for removing odor matter of 500 ppm and pH3-8; and (ii) a biological decomposing tank (14) that has a sludge discharge line (13) at the bottom and a gas discharge line (15) at the top, in which circular cilial filter media and porous pearlite are charged on a distributing plate (3) set at the lower part of the biological decomposing tank (14) and an inoculum and water distributor (5) is provided above the media for proceeding secondary deodorizing.

Description

Apparatus and method for treating high concentration organic odors by immobilizing microorganisms in circular ciliary contact media

The present invention is made of PP and nylon as the ciliary contact media as shown in FIG. 1, and has excellent rigidity, and has a short hairy ciliary contact media of about 3 to 10 mm with a circular structure composed of numerous hairs (cili and cilium). The present invention relates to an apparatus for treating high concentration organic odor and a wastewater treatment method thereof.

Very high odor concentrations include manure, animal husbandry, spirits, food waste and slaughterhouses. In severe cases, odor concentrations in organic matters may exceed 500 ppm. In this way, if the concentration of odor in organic matter is high, if the odor treatment is performed by the existing soil treatment method using soil and gravel, it prevents pores of the media and closes the carrier layer. Efficiency reduction and large site area are required.

Accordingly, an object of the present invention is to provide an apparatus and method for removing and treating high-concentration organic odor and hardly decomposable substances using a circular ciliated contact medium immobilized with high adhesion at a high organic matter concentration and having strong adhesiveness. have.

1 is a odor treatment process chart using a circular ciliated contact medium in the present invention.

2 is a circular cilia-like contact medium used in the present invention, wherein the length of the cilia is about 3 to 10 mm.

3 is a microfilament immobilized on microorganisms in a circular ciliated contact media used in the present invention.

4 is a porous perlite media of about 5mm in diameter used in the present invention.

Hereinafter, the present invention will be described in detail.

The present invention basically consists of two processes. The first process is to neutralize high concentrations of acidic and alkaline odor inflows using a circulating acid pipe using an inlet.

The second process consists of removing high concentrations of NH ₃ , H ₂ S, and methyl mercaptan (CH ₃ SH) using circular ciliary contact media with bacteria and molds attached.

In this process, the water spray pipe is installed to control the water so that the spawning agent or immobilized bacteria, mold, etc. can be well-acted.

In the first process, the pH adjuster is introduced through the neutralizer inlet (10) when the malodor is introduced into the pH reaction tank (2) into which one odor inlet (1) and high concentrations of acids and alkaline organics are introduced. It is a process that is mixed by the circulation diffuser 11 and conveyed by a power unit such as a blower to the upper through the upper distribution partition plate (3).

In the second step, one odor treatment biodegradation tank 14 is introduced with a circular immobilized cilia contact medium 4 and a seed agent, and a watering pipe 5 is installed at the upper layer. And the U-shaped separator 7 for the outflow of the odor which was processed finally is provided. In addition, two or more biodegradation tanks of the second process may be installed as necessary.

Characteristic technical features of the present invention is that the inside of the biodegradation tank 14 for the malodor inflow pH reaction tank (2) of the first process, followed by the malodor treatment of the second process is a circular ciliary contact medium (4) and porous The point is that the filling of the ferrite 12 is incorporated. The reason for using the circulating acid pipe in the reaction tank of the first process is that the high concentration of acidic or alkaline odor influx is stirred and circulated at the inflow to adjust to a neutral pH of about 6 to 8 so that the odor inflow flows into the second process. To prevent this. In addition, the dispersion partition plate (3) introduced into the first reaction tank is a porous disk-shaped to increase the odor treatment efficiency by stabilizing dispersion when a high concentration of odor source is introduced.

In addition, the reason why the circular immobilized ciliary contact medium is filled in the biodegradation tank of the second process is that when the neutralized pH-adjusted odor source flows in the first process, it adsorbs to the circular ciliated contact medium, thereby preventing the growth of bacteria and mold. To induce the malodor to be treated in a short time by contacting a large area, and also to use the attachment microorganisms for the load variation on the pH change of the malodor from the first process and the concentration of the organic source Through this, it is easy to transfer oxygen to the entire surface of the contact medium and transfer odor distribution to purify the treated air.

Therefore, an object of the present invention is to install a ciliated contact medium in a biodegradation tank according to the odor treatment process and to remove high concentrations of organic odor and ammonia. In general, organic odors of high concentration are usually treated with activated carbon and chemical cleaning. In the present invention, the organic odor is injected into the first step without chemical pretreatment of the odor.

In general, high concentrations of odors are acidic odors of about pH 3, but in the present invention, the range of pH 3 to 8 is also suitable for treatment by the treatment apparatus. It is not necessary, and due to its own inlet air, the cost of facility and maintenance of the first process is low. However, higher concentrations of acidic or alkaline malodorous sources show disproportionate pH, so that the decomposition is promoted by adding caustic soda and sulfuric acid as appropriate regulators to increase the odor removal efficiency.

The second step, which adds spawn, plays an important role in removing nitrogen sources and sulfur in the biodegradation tank. As a spawning agent, Bacillus cercus, Bacillus subtilis, Bacillus licheniformis, Thiobacillus intermedius, etc. may be used. In the second step, when injected, this is caused by the denitrification and oxidation caused by microorganisms in the ciliary media layer, and the ammonia by Nitrosomonas, which is involved in nitrous oxidation, which is responsible for oxidizing nitrogen, and nitrous oxidation, which oxidizes nitrogen compounds. In addition to the removal of hydrogen sulfide, sulfur bacteria are oxidative bacteria caused by sulfur bacteria, Thiobacillus and Filamentous Bacteria convert sulfur elements into sulfates, and Filamentous sulfur Bacteria uses H ₂ S as an energy source. Other Beggiatoa, Thiothrix and fungus proliferate.

In addition to the above process, if the sludge of bacterial fungus growth turns black in the first step, the sludge in the reaction tank should be taken out. A sludge draw tube 13 is installed at the bottom of the reactor.

Alternatively, the method of making a process in the ciliary media of bacteria and fungi, which are spawn microorganisms used in the second process, is used after the spawn culture is ventilated at about 60 ° C. and then immobilized. Of course, it can be immobilized using a method of adding the seed in the reaction tank which is a conventional immobilization method.

The following examples which illustrate the effects of the apparatus and method according to the present invention are presented for the purpose of illustrating the effects and technical configurations of the present invention, which are not intended to limit the scope of the present invention.

Example 1

In the wastewater treatment using the malodor treatment apparatus of the present invention, the manure odor of the Anyang municipal waste treatment plant was continuously injected and treated in the first and second processes. The appearance of manure odor is as follows.

The odor was treated in the first step (pH reaction tank) and the second step (biodegradation tank) of the present invention. The capacity of one pH reaction tank was 150 l and the second biodegradation tank was 300 l. Time 24 sec / day The gas passage speed was 2.5 m / min. The area of the filled ciliary contact medium was also 1,260 m ² .

Microorganisms that can be used as postal microorganisms in the malodor treatment of the present invention and adhere to the ciliary contact media of the present apparatus are as follows.

In addition, the bactericide for immobilization used in the present embodiment was used Bacillus cercus, Bacillus licheniformis, Bacillus megaterium, Achromobacter species, Thiobacillus intermedius.

Example 2

The following livestock odors were inoculated continuously using the first step and the second step of the wastewater treatment step of the present invention. The characteristics of livestock odor at Icheon sewage treatment plant are as follows.

The odor was treated in the first step (pH reaction tank) and the second step (biodegradation tank) in the circular ciliary contact medium and in the second step. The capacity of the biodegradation tank was 300 liters. The residence time of the whole biodegradation tank was 20 sec / day, and the gas passage speed was 3.0 m / min. The area of the ciliated contact medium filled per biodegradation tank was 1,260 m ² .

In the malodor treatment of the present invention, in particular, in the livestock malodor treatment, the microorganisms which are dominant in the malodor treatment adhered to the ciliated contact media are as follows.

As described in the above-described configuration and operation of the invention, when using the wastewater treatment apparatus and method of the present invention, it was shown that the removal of organic substances such as NH ₃ and H ₂ S was remarkable in the case of high concentration organic odor, and methyl mercaptan. (CH ₃ SH) was also shown to be removed. The specific processing efficiency is also described in detail in the embodiments of the present invention.

Claims (6)

An apparatus for treating organic malodorous wastewater, comprising: a pH reactor (2) including an inlet (1) through which malodorous matter is introduced, a circulator engine (11), a neutralizer inlet (10), and a sludge take-out tube (13); A biodegradation tank (14) filled with a circular ciliary media (4) and a porous perlite (12) and having a feeder and a sprayer (5) of a seed agent consisting of bacteria and fungi on the top; A dispersion partition plate (3) forming a boundary between the pH reactor (2) and the biodegradation tank (14); And a discharge port 15 for discharging the treated water passing through the reaction tank 2 and the biodegradation tank 14, wherein a first neutralization process is performed in the pH reaction tank 2 to perform the biodegradation tank 14. Waste water treatment apparatus, characterized in that the second deodorization process is carried out in. A method for treating malodorous wastewater using the apparatus according to claim 1, comprising the steps of: adjusting the pH in the pH reactor (2) and propagating bacteria and yeast by aeration and aerobic conditions; and The biodegradation tank (14) using a circular ciliated contact medium and a porous perlite, and the second step of propagating bacteria and fungi by providing a spawning agent is characterized in that the treatment method of odor wastewater. The biodegradation tank according to claim 2, wherein the biodegradation tank (14) is filled with a circular ciliated contact medium, a porous perlite (12), and a T-shaped watering device (5), and a separation plate (7). Odor treatment method in 4. The method according to claim 2 or 3, wherein the malodor inflow treatment reactor (2) has a high concentration of organic matter in the malodor, and particularly a malodor having a high NH ₃ concentration. The method for treating malodor influent according to claim 4, wherein the malodor concentration in the malodor is 500 ppm and has a pH of 3 to 8. The method according to claim 2 or 3, wherein microorganisms of Bacillus licheniformis, Bacillus megatarium, Achromobacter species, Thiobacillus intermedius bacteria, fungi, which are excellent in degrading odors against high concentrations of organic matter and hardly degradable odors when seeding existing microorganisms are seeded. (4) A method of filling the contact medium with these seed cultures at 60 ° C. by air drying to fix the fixed carrier in the second step.

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