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A system and method for the regeneration and reactivation of solid-phase loaded high-viscosity microbial materials and the recycling of carriers

A solid-phase loading and solid-phase carrier technology, applied in the field of microbiology, can solve problems such as clogged spraying facilities, and achieve the effects of recycling, reducing energy consumption, and simple operation

Active Publication Date: 2017-10-13
SOUTHEAST UNIV
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Problems solved by technology

[0004] The purpose of the present invention is to provide a system and method for the regeneration and resurrection of solid-phase loaded high-viscosity microbial materials and the recycling of carriers, so as to effectively improve the regeneration and resurrection rate of microorganisms, realize the recycling of carriers, and solve the problem of carriers blocking spraying facilities difficult problems, engineering applications can be realized in the form of vehicles

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  • A system and method for the regeneration and reactivation of solid-phase loaded high-viscosity microbial materials and the recycling of carriers

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Embodiment Construction

[0032] The present invention will be further described below in conjunction with the accompanying drawings.

[0033] Such as figure 1 Shown is the system for regeneration and reactivation of solid-phase loaded high-viscosity microbial materials and carrier recycling of the present invention, including powder supply system 1, reverse dissolution and settlement system 2, secondary dissolution and overflow system 3 and natural settlement and overflow System 4.

[0034] The powder material supply system 1 comprises a powder material box 101. A screw rod 102 is arranged in the powder material box 101. The screw rod 102 is connected with a drive motor 105 for driving its rotation. The outlet of the powder material box 101 is provided with a motor 103 and connected with a The delivery pipe 104 is connected to the powder feeding port 201 of the reverse dissolution and sedimentation system 2 .

[0035] The top of one side of the reverse dissolution and sedimentation system 2 is provi...

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Abstract

The invention discloses a system and a method for regenerating a solid phase load high-viscosity microbial material and recycling carriers. The microbial material is added to a powder box of a powder supply system, and is conveyed to a reverse dissolving settling system; water enters the reverse dissolving settling system from a water inlet; after entering the reverse dissolving settling system, the powder and the water are reversely stirred, evenly mixed and dissolved under the action of a stirrer; after a microbial strain is dissolved in the water, a microbial bacterial liquid crude product is prepared, and solid phase carriers settle; the microbial bacterial liquid crude product is conveyed to a secondary dissolving overflow system, and the microbial bacterial liquid crude product is evenly mixed and dissolved once again; the microbial bacterial liquid further treated by the secondary dissolving overflow system is conveyed to a natural settling overflow system, and naturally settles under the effect of gravity; the residual solid phase carriers settle and enter a settling chamber, and the prepared microbial bacterial liquid directly enters a spray facility. The system and the method disclosed by the invention are simple in operation, obvious in effect and friendly to environment; the regenerating rate of microbial thallus is effectively improved, and recycling of the carriers is realized.

Description

technical field [0001] The invention belongs to the interdisciplinary science and technology in the fields of microbiology and environmental science, and relates to a method for regenerating and reviving solid-phase loaded high-viscosity microbial materials and recycling the carrier. Background technique [0002] Microorganisms are the earliest organisms that appeared on the earth. They have become ubiquitous and diverse huge biomass on the earth, and they widely participate in the rock-forming and mineral-forming processes in nature. Based on the process of microbial rock formation and mineralization in nature, microorganisms are separated from nature, and the long cementation process in nature is controlled in a short period of time through artificial regulation, and a wide variety of microbial materials are prepared, which are widely used in foundations. Reinforcement, slope protection, dust control, heavy metal passivation, organic matter degradation and construction pre...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12M1/02C12M1/00C12N1/00
CPCC12M45/00C12N1/00
Inventor 钱春香詹其伟
Owner SOUTHEAST UNIV
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