KR20010003825A - Media coated with microscopic organism and method for coating them - Google Patents

Abstract

PURPOSE: Microorganism-embedded media and coating method thereto are provided to reduce acclimation period of microorganisms compared to conventional wastewater treatment using insertion fiber coated with microorganisms. CONSTITUTION: The coating method comprises the steps of: (1) mixing water with microorganisms, such as Pseudomonas, Zoogloea, Nocardia, and Archromobactor, respectively; (2) spraying the mixture on the blank media, and drying in the air; (3) spraying another mixture on the media, and drying in the air. The steps are repeated continuously until whole mixture is coated for about a month.

Description

Media coated with microscopic organism and method for coating them}

The present invention relates to a microbial complex, in particular, to a microorganism complex coated with a microorganism that can effectively decompose contaminants immediately after construction by selecting and coating in advance a microorganism having excellent degradability. In addition, the present invention also relates to a coating method for coating a microorganism having excellent degradability on the microbial complex.

Microbiological treatment of sewage, sewage, and wastewater treatment plants removes contaminants in sewage, sewage, and wastewater through microbial decomposition.

In order to remove contaminants using such a microbiological treatment method, conventionally, various types of microbial microbiota are produced and used. Among them, the representative microbial corps is described in detail in the Republic of Korea Patent Publication No. 98-74344 (name-microbial corps and its manufacturing method, Applicant-Yun Changjin et al.).

The technical contents are briefly described as follows.

As shown in FIG. 1, the microbial microbiota 10 of the prior art has a plurality of pores 12 formed by the combination of the fibrous tissues 11 and the fibrous tissues 11, which are loosely stretched along the lengthwise direction and are bonded to each other. And a hole 13 for penetrating the outer surface and the inner surface at predetermined intervals along the longitudinal direction of the fibrous structure 11 for smooth oxygen supply and gas discharge.

The cross section of the microorganism corps 10 thus configured is a "V" shaped having a predetermined thickness, the inside of which is the same fibrous tissue 11 as the surface is coupled to the inner surface and microorganisms having a strange shape can grow attached to Sufficient space is formed.

In the related art, the biofilm was formed on the surface of the microbial microbiota 10 by a natural method by placing the microbial microbiota 10 configured as described above in an aeration tank or a contact tank for a long time. Thus, it takes two to three months for the biofilm to naturally form on the surface of the microbial complex, and when it is determined that the biofilm has been formed after such a period, microorganisms are frequently introduced from the outside to remove contaminants. Disassembling.

However, even if microorganisms are introduced from the outside, the microorganisms do not actively decompose contaminants while actively taking 2 to 3 months to actively decompose contaminants.

In other words, in the case of using the conventional microbial microbiota, normal operation of the treatment plant is impossible for at least 6 months, which inevitably contaminates contaminated sewage, sewage, and wastewater.

In addition, when using a conventional microbial microbial zone, highly skilled technicians should always be arranged to observe the work by affecting the formation of biofilms according to the concentration of organic matter in sewage, sewage, and wastewater.

In addition, in the case of using the conventional microbial complex, there is a problem that the biofilm is easily detached as the foreign matter is accumulated on the surface of the microbial complex and the biofilm is formed.

In addition, in the case of using the conventional microbial microbiota, there is a problem that the microorganisms that decompose the nitrogen composition (NH ₄ ⁺ , NH ₂ ^_ , NH ₃ ^_ , N-henic acid, etc.) are not sufficiently secured in the biofilm and thus the treatment efficiency is lowered. have.

In addition, when decomposing contaminants by frequently introducing microorganisms from the outside while using the conventional microbial microbiota, the decomposition ability of contaminants is degraded by the generation of sclerobacterial biofilms, which inevitably contaminates sewage, sewage, and wastewater. Discharge problems occur.

Therefore, the present invention has been made to solve the problems of the prior art as described above, microorganism corps coated with microorganisms that can effectively decompose contaminants immediately after construction by selecting a microorganism having excellent decomposition ability in advance The purpose is to provide.

In addition, the present invention is to provide a coating method for selecting and coating a microorganism having excellent degradability to the conventional microbial complex.

1 is a perspective view of a microorganism culturing zone of the prior art,

2 is a perspective view showing a microorganism complex coated with a microorganism according to an embodiment of the present invention,

Figure 3 is a block diagram for explaining the coating method of microbial complex according to the present invention,

Figure 4 is a graph comparing the decomposing capacity of the contaminants of the microbial complex of the present invention and the microbial complex of the prior art.

♠ Explanation of symbols on the main parts of the drawing ♠

20: microbial corps

According to the present invention for achieving the above object, in the microbial complex to microbiologically decompose contaminants generated from sewage, sewage, wastewater, etc., among the plurality of microorganisms effectively pollutants generated from sewage, sewage, wastewater, etc. Degrading microorganisms are coated on the surface.

In addition, according to the present invention, each of the spawn of microorganisms that effectively decompose contaminants generated in sewage, sewage, wastewater are separately mixed with each other in the stored water to produce a respective mixture, a mixture of one kind of the mixture Spraying and then coating the commonly used microbial corps in a shower type, and drying and coating the mixture, and spraying and spraying a different type of mixture to the microbial corps coated with a kind of microorganism It includes, and repeatedly spraying the mixture by spraying the mixture until the desired microorganisms are all coated on the microbial complex.

In the following, with reference to the accompanying drawings a preferred embodiment of the microorganism chromophore coating method for coating the microorganism according to the present invention will be described in detail.

In the drawings, Figure 2 is a perspective view showing a microorganism corps coated with a microorganism according to an embodiment of the present invention, Figure 3 is a block diagram for explaining a coating method of the microbial corps according to the present invention, Figure 4 is It is a graph comparing the decomposing capacity of the contaminants of the microbial complex of the present invention and the microbial complex of the prior art.

As shown in Figure 2, the microbial corps 20 of the present invention is formed in the same manner as the microbial corps of the prior art except that the microorganism is coated. Therefore, in the present invention, description of the shape of the microbial complex will be omitted.

In addition, the conventional microbial complex used in the present invention is applicable to any shape, including rod-shaped, cylindrical, block-like, and also applicable to any material, including plastic, ceramics.

At present, there are many kinds of microorganisms in nature. Many of these microorganisms have their own characteristics, and in the present invention, microorganisms that effectively decompose contaminants generated in sewage, sewage, and wastewater are coated with these microorganisms.

That is, the microorganisms used in the present invention include Pseudmonas, Zoogloea, Nocardia, Archromobactor, Flavobacterium, Bdellvibrio, Mycobacterium, Nitrosomonas, Nitrobacter, Sphaerotilus, Beggiatoa, Thiothrix, Lecicothirx, Geotrichum, Acbromobactor, Aerobactor, Saccousum, Bacillus Proc. have.

In the following, it will be described in detail how to coat such a microorganism in a conventional microbial complex.

First, as shown in FIG. 3, microorganisms that effectively decompose contaminants generated in sewage, sewage, and wastewater are selected (S1). The spawn of each of the selected microorganisms is then separated and mixed with the stored water. That is, the seed of one kind of microorganism is added to each of the plurality of storage tanks in which water is stored and mixed (S2).

In this way, when the spawn of each microorganism is mixed with water, one type of mixture of the spawn of microorganism and water is sprayed in a shower type at the upper part of the microorganism complex which is usually used (S3). Then, after drying the microbial complex by a natural drying method, the microscope observes whether a certain amount of microorganisms are coated (S4).

In this way, if a certain amount of microorganisms are coated, the mixture of the spawn of different kinds of microorganisms is sprayed by shower (S5). Then, after drying the microbial microbial zone by a natural drying method, it is observed under a microscope whether a certain amount of microorganisms are coated (S6). Repeat this process to coat the desired microorganisms on the microbial complex (S7).

By coating the microorganisms through the above process, the microorganism chromosome 20 coated with microorganisms as shown in FIG. 2 is formed.

As described above, in order to coat the microorganisms on the microbial complex, the above-described process must be performed continuously for 24 hours 1 month to 1 month and a half. Through this process, when the microorganisms are coated on the microbial microbial zone, the microorganisms are nutrient-free.

The coating of microorganisms in the nutrient-free state is to coat the microorganisms with excellent microorganisms by suppressing the growth of microorganisms. Even if the nutrients are not supplied to the microorganisms for 1 month to 1 and a half months, the microorganisms are kept intact while their reproduction is suppressed.

In the following, the microbial corps of the present invention and the microbial corps of the prior art will be described for the experimental results after the construction in the sewage, sewage, wastewater treatment plant respectively.

As shown in FIG. 4, when decomposing contaminants using a conventional microbial microbiota, contaminants are decomposed little by little after a long period of time, but the degradability is not excellent. On the contrary, when the microorganisms coated with the microorganisms of the present invention are used to decompose contaminants, the contaminants are decomposed to 10 ppm or less after 3 days of construction.

As described in detail above, the microorganism corps coated with the microorganism of the present invention can discharge the treated sewage, sewage, wastewater by decomposing the contaminants immediately after three days of construction.

In addition, the microbial complex of the microorganism of the present invention is coated with excellent microorganisms, so the resistance to water fluctuation is very high, and there is almost no desorption of the biofilm.

In addition, the microorganism chromosome coated with the microorganism of the present invention can not only efficiently process the nitrogen composition by decomposing the coated microorganism in the biofilm, but also can significantly reduce the amount of excess sludge generated.

In addition, the microorganism corps coated with the microorganism of the present invention is excellent in the ability to decompose the contaminants to reduce the size of the treatment plant can be improved economics due to the reduction of the area.

In the above description, the technical idea of the microorganism corpus coated with the microorganism of the present invention has been described with the accompanying drawings. However, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (2)

In microbial complexes that microbiologically decompose pollutants generated from sewage, sewage, wastewater, etc., A microorganism complex coated with microorganisms, characterized in that the microorganisms that effectively decompose contaminants generated from sewage, sewage, wastewater, etc. are coated on the surface. Generating respective mixtures by separately mixing the spawns of microorganisms that effectively decompose contaminants generated from sewage, sewage, and wastewater into stored water; Spraying and spraying a mixture of one of the above mixtures on a microbial corpus commonly used, followed by drying and coating; Spraying the mixture of different kinds to a microorganism complex coated with one kind of microorganisms and then drying and coating the mixture; A method of coating a microorganism on a microbial microbial cell, characterized in that the process of repeatedly spraying the coating and spraying the mixture until the desired microorganisms are all coated on the microbial microbial.