KR20160015979A - Manufacturing method of ocher foam ball of microbes adsorption type for green algae removal - Google Patents

Abstract

The purpose of the present invention is to provide a method for producing a microorganism adsorbed red clay foam ball. To this end, formed is a hardening body which is porous and has the compression strength, so that a foam ball can adsorb, while floating above the water for a long time, green tide microorganism owing to inherent characteristics of red clay which is an eco-friendly material, thereby increasing removal efficiency by immersing, into the hardening body, microorganism capable of removing green tide. According to the present invention, the method for producing the microorganism-adsorbed red clay foam ball comprises the following steps: forming a binding material by mixing red clay with an activating agent for creating the compression strength; mixing a binding material and water so as to produce a red clay paste; mixing the red clay paste with a bubble group which is generated by a bubble generator, so as to form red clay foamed slurry; depositing the slurry into a globular shaped mold and then curing the same thereafter; and immersing microorganism culture fluid therein.

Description

Technical Field [0001] The present invention relates to a microbial adsorption type green algae removal method for removing green algae,

TECHNICAL FIELD The present invention relates to a method for producing a loess bubble ball for removing green algae in a river, a river, a lake, and the like by using a characteristic of the loess soil to form a spherical loess bubble hardener and adsorbing the microorganism, Which is a method for manufacturing an ocher bubble ball.

River, lake, and slow-flowing rivers are eutrophicated, and the accumulation of suspended green algae, etc., accumulates to aggregate the water, thereby changing the surface of the lake to green, which adversely affects fresh water and causes serious problems in the ecosystem.

The present invention is a technique for removing green algae generated in rivers and rivers by using environmentally friendly materials. Conventional green algae removal methods include physical and chemical methods using energy, using mechanical devices, and the like. It is a necessary system.

Since all the wastes and pollutants generated in rivers and rivers are settled in the sediments and decomposed and decomposed, they consume dissolved oxygen and generate toxic substances. As a physical method to remove green algae, Can be prevented in advance, but it is not effective in the case where the area subject to algae removal is large.

When a water turbine is used, the water is rotated like a spinning wheel and artificially shuffled to supply oxygen to the bottoms of rivers and rivers, preventing the phosphorus from coming out from the floor and preventing the fish from dead, but it is not effective in improving water quality. It costs a lot.

There are chemical methods for removing green algae, such as polymer agglomeration method, loess spraying method, iron absorption method, ozone method, and ultrasonic treatment method. However, there is a fear of damage due to destruction of aquatic ecosystem. It is economically inefficient because it requires infrastructure expansion.

Ultrasonic treatment method In case of above, it is impossible to apply to environment-friendly green algae removal method or large area by destroying air bags of green algae and sinking green algae down to the surface of water.

Since loess is widely used for removing green algae, loess is loaded on a barge and it is randomly sprayed by a sprayer. So it is precipitated quickly by heavy loess powder, allowing time for adsorption and coagulation of microorganisms There is a technical limitation that the purification efficiency is greatly reduced.

Therefore, in order to minimize damage to the green algae phenomenon, there is a need for an environmentally friendly green algae removal technology that does not affect the environment by using environmentally friendly materials, has a high efficiency of removing green algae, is easy to manufacture, and is economical.

The present invention forms a cured body having a porous compressive strength so as to absorb the microorganisms of the living organism while floating on the water surface utilizing the inherent characteristics of an eco-friendly material, which is an eco-friendly material. The microorganisms adsorbing the greenhouse are immersed in the cured body, And to provide a method for producing a microorganism adsorbing type loess bubble ball.

In order to accomplish the above object, the present invention provides a method for producing a green sheet, which comprises mixing yellow soil with an activator for expressing compressive strength to form a binder, mixing water with the binder to produce an ocher paste,

The method of manufacturing an ocher bubble ball in which an ocher bubble slurry is prepared by mixing a group of bubbles generated through a bubble generator in the ocher paste, and then the ocher bubble ball is poured into a spherical form, cured and immersed in a microbial culture solution. Principle.

A method for manufacturing a microbial adsorption type loess bubble ball, which is a specific embodiment of the present invention, comprises the steps of: mixing an activator and water with a yellow ocher, which is an eco-friendly material, to produce an ocher paste;

Blending the ocher paste with air bubbles to produce an ocher bubble slurry;

Pouring and curing the ocher paste in a spherical form to produce an ocher bubble ball having an outer shape of a ball and a porous inner shape;

And dipping the loess bubble ball in a microorganism culture liquid for a predetermined period of time.

The present invention relates to a method for producing a green algae bubble ball by using an eco-friendly material such as yellow loam as a main material and forming a spherical aldehyde bubble ball immersed in a microorganism adsorbing a green algae microorganism, floating on the water surface, adsorbing the microorganism floating at a depth of 10 cm to 50 cm, Precipitated and decomposed spontaneously,

The ocher bubble ball floats on the surface of water and can absorb the microorganisms living in the surface waters. It forms an external shape and an internal structure capable of efficiently adsorbing microbes, Thereby improving the water quality environment, reducing the environmental load on the water-contaminated watershed area, and providing the circulation ecosystem because it does not nourish the aquatic ecosystem.

Brief Description of the Drawings Fig. 1 is a view showing a manufacturing process of a yellow-green bubble ball according to an embodiment of the present invention.

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

The present invention relates to a method for producing a cement mortar composition, which comprises the steps of mixing an activator with a mortar having a high degree of deodorization of loess and using environmentally harmless material properties, mixing a bubble group having a proper expansion ratio generated through a bubble generator,

In order to facilitate the adsorption of the gypsum microorganisms, an ocher bubble slurry in which the ocher and the bubbles are mixed is put in a spherical form and cured to form a ball-shaped ocher bubble ball in order to form a porous spherical body,

And the microorganism having excellent adsorption performance against the microorganism of the green algae is immersed in the algae bubble ball to produce the yellow loam bubble ball.

The microbial adsorption type ocher bubble ball for removing green algae according to the present invention mixes yellow soil, an activator and a mixing water to produce an ocher paste, mixes the bubbles generated through the bubble generator with ocher paste to produce an ocher bubble slurry ,

The ocher bubble slurry is poured into a spherical mold and cured to form a porous ocher bubble ball. The spherical ocher bubble ball is formed by pseudomonas aeruginosa ( Pseudomonas aeruginosa) aeruginosa) prepared by immersion in microbial culture media to for a predetermined period (5 to 9) adsorption AJ1.

In order to improve the adsorption capacity of the yellowish bubble ball, a continuous pore structure should be formed therein. For this purpose, yellow loess is used as a main material, and calcium hydroxide is used as an activating agent for manifesting the compressive strength. And the binder can be used in an amount of 300 to 500 kg per unit volume (1 m ³ ), and the loess and activator are mixed in an amount of 80 to 90 wt% and 7 to 10 wt%, respectively.

The binder is mixed with water to produce an ocher paste. The water binding ratio is suitably in the range of 40 to 60% depending on the required compressive strength (0.5 to 3 MPa), and the volume per unit volume (1 m ³ ) The remaining space is filled with air bubbles.

Currently, the amount of carbon emission is regulated internationally in order to reduce carbon dioxide. As the carbon market grows, domestic and foreign industries are trying to secure carbon credits for carbon dioxide reduction measures.

Therefore, by replacing cement with environmentally friendly material, it is possible to secure carbon emission rights and to be competitive in the carbon market. Also, loess is effective in removing green algae because of its excellent ability to agglomerate and adsorb algae.

The bubble generated through the bubble generator and the loess paste were mixed at 56 to 74% and 18 to 26%, respectively, per unit volume (1 m ³ ) to produce an ocher bubble slurry, the ocher bubble slurry was placed in a rectangular form The moon is cured to produce yellow bubble balls.

The above-mentioned loess bubble ball has a void formed therein to facilitate the adsorption of the microbes, and the outer microbes are formed into a spherical shape, and float on the surface of the water to effectively adsorb the microbes.

The loess bubble ball is immersed in the microbial culture solution for a required period of time (5 to 9 days) to improve the adsorption performance of the microorganism, and the microorganism is separated from the microbial broth, ( Pseudomonas aeruginosa) uses AJ1.

An embodiment of the loess bubble ball of the present invention is as follows.

<Examples> No Water coupling ratio
(%) Unit binding discretion
(kg / m ³ ) Binder ratio (%) Air void ratio
(%) importance Compressive strength Greenhouse removal rate
(Chlorophyll
-a concentration) ocher Activator One

40 to 60 300
80 ~ 90
7 to 10 74 0.34 0.8 Not more than 6 mg / m ³ 2 400 65.4 0.43 1.45 Not more than 7 mg / m ³ 3 500 56.7 0.53 2.1 Less than 9 mg / m ³

The foaming agent is one having excellent strength of the foaming film and elasticity and having a low foaming rate and capable of preventing shrinkage cracking during firing. The foaming agent has an appropriate dilution ratio of 2 to 5% by weight of water to be diluted with water, The rate is set at 1,000 to 1,500% to induce independent bubbles.

When the foaming ratio is less than 1,000%, the water content ratio in the bubbles is large, so the water-binder ratio increases and the compressive strength decreases. When the foaming ratio exceeds 1,500% Etc. may result in parcels.

The bubble liquid mixed with the water and the animal foam is sprayed to the bubble liquid which is generated by the high pressure compressor when the bubble liquid is pushed by the bubble generator by using the transfer pump and the bubble group formed through the bubble generator is transferred to the ocher paste Mix.

Claims (3)

Using yellow soil as an eco-friendly material as a main material, mixing an activator and water to produce an ocher paste;
Blending the ocher paste with air bubbles to produce an ocher bubble slurry;
Pouring the yellow clay paste into a spherical mold and curing the green clay paste to produce an ocher bubble ball having an outer shape of a ball shape and a porous inner shape;
And immersing the loess bubble ball in a microbial culture liquid for a predetermined period of time. The method of claim 1, wherein using the yellow soil and the activator consisting of the binder is 300 ~ 500kg per 1m ^3, and blending the binding agent with 80 to 90% by weight of loess as an activator 7 to 10% by weight,
The binder and the water is caused through the bubble generator are mixed so that the water binding agent ratio of 40-60% and using 2 foaming agent and 5% of the water weight of the bubbles and the ocher pastes respectively 56 ~ 74% per 1m ^3, Mixed at 18 to 26%
The activator is calcium hydroxide, and the microorganism is Pseudomonas aeruginosa, aeruginosa) type method for producing microbial adsorption ocher bubble balls for algae removal, characterized in that consisting of AJ1. The method of claim 1 or 2, wherein the foaming rate of the bubbles is 1,000 to 1,500%, and the predetermined period is 5 to 9 days.

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