Water quality purification microorganism ecological unit, water quality purification microorganism ecological system and method of water quality purification microorganism ecological system

A technology of microbial ecology and water quality purification, which is applied in the field of water purification microbial ecological units and water purification microbial ecosystems, can solve the problems of inability to achieve stable and sustainable effects, algae-eating insects cannot survive the winter safely, and microorganisms are difficult to achieve comprehensive effects. The effect of sustainable eutrophication water purification, restoration of natural ecological purification function, and improvement of water purification efficiency

Pending Publication Date: 2019-04-16
ZHEJIANG NORMAL UNIVERSITY
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AI Technical Summary

Problems solved by technology

At present, the main measures for the treatment of eutrophic water bodies are as follows: first, use physical treatment methods, including environmental remediation, sewage discharge pipes, rainwater diversion, sediment dredging, introduction of clean water sources for dilution, and enhanced oxygen-increasing aeration, etc., to achieve temporary or Slow natural purification effect, but practice shows that purely physical methods cannot effectively solve the problem of water purification of eutrophic water bodies
The second is to use biological treatment methods of animals and plants. At present, the main methods of biological treatment methods include: the first is to install water pumps to make the water body flow and circulation enhance dissolved oxygen in water to improve the efficiency of aerobic bacteria water purification, but use water pumps to improve water cycle aeration and oxygenation, While consuming energy, it is not filtered through microbial carriers, and a large number of microorganisms in the VBNC state that cannot function are difficult to achieve comprehensive effects; the second is to introduce nitrification and denitrification bacteria to adjust the composition of microorganisms in the water to enhance the purification effect of denitrification and phosphorus removal, but the introduction of foreign bacteria The species are directly put into the water area, because there is no carrier for stable habitat and the lack of compatibility with the local indigenous microbial population, it is difficult to form a dominant flora and gradually degrade and die out, and cannot achieve stable and sustainable effects; the third is to plant landscape plants, including Direct planting of aquatic plants and captive plants based on artificial floating islands absorb nitrogen and phosphorus nutrients and improve dissolved oxygen in water to achieve a certain water quality purification effect, but a large number of captive artificial floating island plants are likely to cause secondary pollution, and the cost of seasonal planting and removal of plant remains is high ; Fourth, algae-eating insects artificially bred during cyanobacteria outbreaks have obvious sensory effects of clean water, but cannot regulate water quality. Studies have shown that due to cyanobacteria outbreaks, protein-rich organic matter remains accumulate in the bottom mud of the water area, and anaerobic fermentation produces a large amount of water. Toxic H 2 S, the overwintering eggs of algae-eating insects that usually sink in the bottom mud, once they come into contact with the toxic substances in the bottom mud of the water area H 2 S. The eggs die directly or the larvae are poisoned and die after hatching, and the population gradually dies out, eventually leading to the break of the ecological food chain
Although the current biological treatment methods for eutrophic water bodies have realized that adding algae-eating insects can reduce the total amount of cyanobacteria cells and improve the sensory effect of water transparency, but ① the algae-eating insects still face the danger of not being able to survive the winter safely. The population base is difficult to maintain, and the symptoms are not cured; ②Although the total number of cyanobacteria cells is reduced, the water quality cannot be effectively controlled, and a sustainable ecological food chain relationship cannot be formed
Moreover, the current methods are all scattered purification methods, which are not ideal for flowing waters, and the effect for non-flowing waters is also extremely slow. It usually takes more than 2 years and continuous addition of foreign microorganisms to maintain a certain effect, which cannot be achieved. Continuous water purification purpose

Method used

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  • Water quality purification microorganism ecological unit, water quality purification microorganism ecological system and method of water quality purification microorganism ecological system
  • Water quality purification microorganism ecological unit, water quality purification microorganism ecological system and method of water quality purification microorganism ecological system
  • Water quality purification microorganism ecological unit, water quality purification microorganism ecological system and method of water quality purification microorganism ecological system

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Experimental program
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Effect test

Embodiment 1

[0026] A kind of water purification microbial ecological unit, such as Figure 1~2 As shown, the microbial ecological unit for water quality purification includes a frame 1, the bottom outer wall of the frame 1 is respectively provided with a water inlet 1-1 and a water outlet 1-2, the cross section of the frame 1 is square, and the bottom part of the frame 1 The outer wall is in the shape of a fence, and the gap between two adjacent fences forms a water inlet 1-1. The frame 1 is provided with a filter material layer 2 and a water outlet pipe 3; the filter material layer 2 divides the frame into a first accommodation chamber 1-3 and a second accommodation chamber 1-4 from top to bottom, and the water outlet pipe 3 has a water inlet port 3-1 and the water outlet 3-2, the water inlet 3-1 is located in the first accommodation chamber 1-3, and the height of the water inlet 3-1 relative to the horizontal plane is smaller than the height of the top of the frame 1 relative to the hor...

Embodiment 2

[0039] A water purification microbial ecosystem, such as Figure 4 Shown, comprise several water purification microbial ecological units as described in embodiment 1, wherein, several water quality purification microbial ecological units share the same water circulation flow water pump, the water outlets of adjacent 2 water quality purification microbial ecological units Connected to each other, the water circulation flow water pump realizes the water circulation of the whole water purification microbial ecosystem by pumping the water in the water outlet of a water purification microbial ecological unit.

[0040] Connecting multiple water purification microbial ecological units in series improves the efficiency of sewage treatment, and can adaptively set the number of water purification microbial ecological units in series according to the water pollution situation and the area of ​​polluted water areas. In addition, a water circulation pump controls the entire water purificati...

Embodiment 3

[0043] Indoor purification experiment of eutrophic water body

[0044] The nutrient-rich water obtained by using the artificial formula design was inoculated with natural blue-green algae to carry out the continuous flow pilot test in the bioreactor. The concentrations of total phosphorus, total nitrogen and chlorophyll a in the influent water samples were (22.1±1.9) mg / L, (16.1±2.1)mg / L, (220.1±23.5)μg / L, after 90 days of operation, the average removal rates of total phosphorus (TP), total nitrogen (TN), and chlorophyll a (Chla) reached 94.2 %, 91.0% and 93.9%, continuous debugging and operation for 24 months, the three indicators can maintain a stable effect above 90%.

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Abstract

The embodiment of the invention discloses a water quality purification microorganism ecological unit. The water quality purification microorganism ecological unit comprises a frame, a water inlet anda water outlet are respectively formed in the outer wall surface of the bottom end of the frame, and the frame is internally provided with a filtering material layer and a water outlet pipeline; the frame is divided into a first accommodating cavity and a second accommodating cavity by the filtering material layer from top to bottom, the water outlet pipeline is provided with a water inlet end anda water outlet end, and the water inlet end is located in the first accommodating cavity; the water inlet end relative to the horizontal plane height is lower than the top end of the frame relative to the horizontal plane height, the water outlet end is communicated with the water outlet, and the second accommodating cavity is communicated with the water inlet; the filtering material layer is formed by piling of several volcanic ash soil particles, and VBNC strains used for removing nitrogen and phosphorus are implanted in the volcanic ash soil particles. heterotrophism denitrifying phosphate-accumulating bacteria groups are implanted in the volcanic ash soil particles, the activation of local function microorganisms is improved and adjusted, stable dominant bacterial groups are formed, and the purpose of improving the effect of purifying water quality is achieved.

Description

technical field [0001] The embodiments of the present invention relate to the technical field of water treatment, in particular to a water purification microbial ecological unit, a water purification microbial ecosystem and methods thereof. Background technique [0002] Water is the source of life, and about 70% of the human body is made up of water. Therefore, the purification of polluted water bodies and the restoration of the natural ecological environment have far-reaching significance in the present and future. The causes of water body eutrophication mainly come from exogenous and endogenous pollution. The former includes domestic sewage rich in nitrogen and phosphorus nutrients from industry and agriculture, cities, towns, and rural areas, and road surface runoff enters waters including rural entrance ponds, rivers and lakes. The latter The main reason is that eutrophication leads to the outbreak of phytoplankton algae, and the remains of eutrophic animals and plants a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F3/34C02F3/32
CPCC02F3/327C02F3/34C02F2003/001C02F2301/08C02F2209/08C02F2209/16C02F2203/006
Inventor 丁林贤苏晓梅付惠玲
Owner ZHEJIANG NORMAL UNIVERSITY
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