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Microbial agent and its preparation method and application in sewage treatment

A technology of microbial agent and compound microbial agent, which is applied in the field of microbial agent and its preparation, can solve the problems of complex preparation method, high cost of chemical method, weak purification ability, etc., and achieve solid overall structure, simplified preparation steps, and not easy to collapse solution effect

Active Publication Date: 2022-02-08
新疆河润科技股份有限公司
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Problems solved by technology

[0002] Sewage treatment is the process of purifying sewage to make it meet reuse or discharge standards. With the increasingly severe global environment and resource situation, the existing sewage treatment technology is gradually unable to meet the social development process and pursue the principle of sustainable development. needs
At present, common methods of sewage treatment include traditional physical methods, chemical methods and new biological methods. Physical methods are the most environmentally friendly and energy-saving, but there must be problems with weak purification capabilities. Chemical methods also have defects such as high cost and high requirements. It is favored by people. However, because most of the traditional sewage treatment microbial agents are in a liquid state, the agent and its additives cannot be recovered after use. This increases the cost again on the basis of the high cost of the biological method itself. In addition, Since the bacteria liquid is put into the waste water or sludge environment to be treated and dispersed directly, although the bacteria directly contact with the solution or suspension of the material to be treated, it also causes the growth environment of the bacteria to be directly opened to the sewage environment, resulting in bacterial colonies The growth environment is extremely unstable, which has a serious negative impact on the growth and survival of the bacterial flora and its treatment effect on sewage
However, the existing technology for preparing sewage treatment bacterial agents into a solid state is still immature, and the particle carrier / support structure is unstable or has a poor fixation effect on the bacterial flora, and the surface structure of the particles is unstable, and the material is easily broken after long-term use. Recycling, the use of a large amount of chemical substances or carbon sources / nitrogen sources that can be dissociated during the preparation process will cause secondary pollution to the water body. In order to solve these problems, multi-layer coating and programmed heat treatment can be used in the preparation process of solid bacterial agents and other methods, through such preparation steps and adjusting parameters such as raw materials, ratios, temperatures, and time in each layer and each step, to solve the above-mentioned problems, but the cost of doing so is that the preparation method is complicated, and the preparation environment, equipment and personnel requirements More, increase manpower, material resources and resource costs

Method used

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  • Microbial agent and its preparation method and application in sewage treatment
  • Microbial agent and its preparation method and application in sewage treatment
  • Microbial agent and its preparation method and application in sewage treatment

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Experimental program
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Effect test

Embodiment 1

[0037] Embodiment 1 prepares microbial bacterial agent:

[0038] (1) Mix the porous carbon material, biological carbon source, starch adhesive, and carbon sponge evenly, add sterile water, mix evenly, let stand, granulate, and dry;

[0039] (2) The particles obtained in step (1) are soaked in the compound microbial bacterial liquid;

[0040] (3) The granules obtained in step (2) are taken out and subjected to programmed cold / heat treatment to obtain solid granular microbial bacterial agents.

[0041] The porous carbon material in step (1) is bamboo charcoal powder. The biological carbon source in step (1) is wheat bran; the biological carbon source is in powder form with a particle size of 150-200 mesh. The starch adhesive in step (1) includes composite starch adhesive or modified starch adhesive, etc., and the main component is starch or modified starch, purchased from the market. The carbon sponge in step (1) is in powder form with a particle size of 0.2-0.5mm. The mass ...

Embodiment 2

[0050] Embodiment 2 prepares microbial bacterial agent:

[0051] (1) Mix the porous carbon material, biological carbon source, starch adhesive, and carbon sponge evenly, add sterile water, mix evenly, let stand, granulate, and dry;

[0052] (2) The particles obtained in step (1) are soaked in the compound microbial bacterial liquid;

[0053] (3) The granules obtained in step (2) are taken out and subjected to programmed cold / heat treatment to obtain solid granular microbial bacterial agents.

[0054] The porous carbon material in step (1) is bamboo charcoal powder. The biological carbon source in step (1) includes bran and straw, and the mass ratio of the two is 3:1; the biological carbon source is in powder form, and the particle size is 150-200 mesh. The starch adhesive in step (1) includes composite starch adhesive or modified starch adhesive, etc., and the main component is starch or modified starch, purchased from the market. The carbon sponge in step (1) is in powder ...

Embodiment 3

[0063] Embodiment 3 prepares microbial bacterial agent:

[0064] (1) Mix the porous carbon material, biological carbon source, starch adhesive, and carbon sponge evenly, add sterile water, mix evenly, let stand, granulate, and dry;

[0065] (2) The particles obtained in step (1) are soaked in the compound microbial bacterial liquid;

[0066] (3) The granules obtained in step (2) are taken out and subjected to programmed cold / heat treatment to obtain solid granular microbial bacterial agents.

[0067] The porous carbon material in step (1) is bamboo charcoal powder. The biological carbon source in step (1) includes bran and straw, and the mass ratio of the two is 3:1; the biological carbon source is in powder form, and the particle size is 150-200 mesh. The starch adhesive in step (1) includes composite starch adhesive or modified starch adhesive, etc., and the main component is starch or modified starch, purchased from the market. The carbon sponge in step (1) is in powder ...

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Abstract

The invention discloses a microbial bacterial agent and its preparation method and application in sewage treatment, and relates to the field of environmental protection and microbial technology. The microbial bacterial agent is a granular solid, and the particles have a layered structure. Core, support layer and lightweight layer, wherein, the core and the support layer both include porous carbon materials, bio-carbon sources, starch adhesives, carbon sponges and composite microbial bacterial fluids, and the lightweight layer includes porous carbon materials, bio-carbon sources, starch Adhesive, carbon sponge. The present invention adopts one-step molding, which greatly simplifies the preparation steps of granular solid materials that require a layered structure. By cooperating with step parameters such as program cold / heat treatment, the bacterial agent provided by the present invention can be simplified in the preparation method. On a basic basis, it can also solve the problems existing in the structure of solid microbial agents. The structure of the bacterial agent is stable, and the efficiency of removing ammonia nitrogen is high.

Description

technical field [0001] The invention relates to the field of environmental protection and microorganism technology, in particular to a microbial agent, a preparation method thereof and an application in sewage treatment. Background technique [0002] Sewage treatment is the process of purifying sewage to make it meet reuse or discharge standards. With the increasingly severe global environment and resource situation, the existing sewage treatment technology is gradually unable to meet the social development process and pursue the principle of sustainable development. demand. At present, common methods of sewage treatment include traditional physical methods, chemical methods and new biological methods. Physical methods are the most environmentally friendly and energy-saving, but there must be problems with weak purification capabilities. Chemical methods also have defects such as high cost and high requirements. It is favored by people. However, because most of the traditio...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12N11/14C02F3/34C12R1/125C12R1/38C12R1/01C12R1/645
Inventor 王宏志韩高阳董亮
Owner 新疆河润科技股份有限公司
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