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Freshwater lake ecological alga control method

A lake and ecological technology, applied in chemical instruments and methods, biological water/sewage treatment, water/sludge/sewage treatment, etc., to achieve the effect of simple method, strong operability and good recyclability

Inactive Publication Date: 2014-12-24
ZHEJIANG OCEAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002]With the increasing impact of human activities on water ecosystems, cyanobacterial blooms have become a sign of eutrophic water bodies around the world, resulting in deterioration of water quality and ecosystem damage. The structure and function are destroyed, and toxins are produced at the same time, especially the rapid proliferation of algae caused by eutrophication of the water body, which brings great trouble to drinking water, increases the cost of water treatment, and makes it difficult to guarantee the quality of effluent water. cause great harm to aquatic animals
[0003]Aiming at severe eutrophication of water bodies, various countries around the world have developed various algae removal methods, including chemical methods that use strong oxidants and algicides as algae removal methods. Adding medicaments achieves the purpose of algae removal, but in the process of algae removal, by-products harmful to the human body may be produced, especially the use of oxidants causes the algae to burst and lead to the release of intracellular toxins; the physical and chemical methods represented by air flotation, This method uses methods such as air flotation, membrane filtration, and ultrasonic algae removal. Although no by-products are produced, the operation is complicated and the operating cost is high; some biological methods are used to control algae and algae removal, usually by feeding silver carp, bighead carp and other fish and Using large shellfish to control the occurrence of cyanobacterial blooms is widely used at present, but there are certain problems: the commonly used silver carp and silver carp are mostly silver carp and silver carp, and silver carp and silver carp cannot control themselves in lakes. For breeding, silver carp and silver carp that are artificially propagated and cultivated in ponds need to be put into the lake every year. The operating cost is relatively high, which is not conducive to long-term circulation operation; large-scale shellfish have a strong drainage effect from the outlet holes and have a greater impact on the bottom of the water body. The large stirring effect makes the N and P deposited in the bottom silt disturbed and enters the water body, which is not conducive to the reduction of the N and P content in the water body, resulting in poor algae control effect

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] The fence area is 1000 square meters. On March 27, 2013, the emergent plants were transplanted into the enclosure. The transplant density was 4 plants per square meter. The width of the enclosure was 100cm. The emergent plants were set up. In the enclosure, to avoid the spread of Nymphoides, its roots are rooted at the bottom of the lake to facilitate the absorption of N and P. On May 2, 2013, the yellow-tailed carp and the lepidopteran with a body length of 6-8 cm were released. The amount of yellow-tailed carp is 2000, and the amount of yellow-tailed carp is 4000. The yellow-tailed carp and the yellow-tailed carp feed on detritus, diatoms, green algae, cyanobacteria, aquatic insects, etc., and can filter and eat various water bodies. Debris, algae, etc. in the layer, put 3,000 fish bones of 1-1.5 years old after 50 days. The fish bones are omnivorous fish. The stocking of the fish bones is convenient for the reproduction of the yellow-tailed carp The number is controll...

Embodiment 2

[0025] The area of ​​the fence is 1500 square meters, and the emergent plant scallion was transplanted into the enclosure on March 28, 2013. The transplant density was 6 plants per square meter, and the width of the enclosure was 150cm, in May 2013. No. 5 is stocked with 6-8cm yellow-tailed mackerel and lepidoptera: 3750 yellow-tailed lepidoptera and 7500 lepidoptera, and 1-1.5-year-old flower fish bones will be added 50 days later 5625 tails. The purse seine management is the same as in Example 1.

[0026] In the fence area of ​​Example 2, the water body was turbid before the fence, the transparency of the water body was 1.75m, and the total phosphorus content was 53mg / m 3 , The total nitrogen content is 1100 mg / m 3 , The content of chlorophyll a is 36.2 mg / m 3 . The water quality test was carried out three months after the stocking of the flowerbone fish. The test results were: the water transparency was 2.6m, and the total phosphorus content was 23mg / m. 3 , The total nitrogen...

Embodiment 3

[0028] The area of ​​the fence is 2000 square meters. On March 29, 2013, the emergent plants Nymphaea, water onion and Alisma orientalis were transplanted into the fenced area. The transplant density was 5 plants per square meter, and the width of the fenced area was 200cm. , On May 8th, 2013, the yellow-tailed carp and the lepidopteran with a body length of 6-8cm were released. Among them, the yellow-tailed lepidoptera was 6,000 and the lepidopteran was 12,000, and they were released after 50 days. -9000 fish bones of 1.5-year-old flowers. The purse seine management is the same as in Example 1.

[0029] In the fence area of ​​Example 3, the water body was turbid before the fence, the transparency of the water body was 1.83m, and the total phosphorus content was 48mg / m 3 , The total nitrogen content is 1123 mg / m 3 , The content of chlorophyll a is 33mg / m 3 . The water quality test of the fishbone fish was carried out for three months after stocking. The test results were: the wa...

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Abstract

The invention discloses a freshwater lake ecological alga control method which comprises the following steps: (1) setting up a net fencing region; (2) setting up an isolation region, wherein emergent aquatic plants are transplanted in the isolation region and the transplanting density is 4 to 6 plants per square meter; (3) putting in filter feeding fishes, wherein the ratio of the filter feeding fishes to omnivorous fishes is 2:1. The method disclosed by the invention is simple and easy to operate, has strong maneuverability, has no secondary pollution and prevents algal bloom by mixed culture of the filter feeding and omnivorous fishes; fragments, alga, zooplankter and the like in each layer of a water body are caught; alga content is reduced; the water body environment is more completely purified; the emergent aquatic plants are convenient to adsorb N and P and reduce the eutrophication degree of the water body; in addition, xenocypris davidi bleeker and plagiognathops microlepis are naturally bred without being put in every year, density control is implemented in a harvesting manner of catching big fishes and leaving small fishes in the later period, the operation cost is reduced, and caught fishes also can bring certain additional economic benefits.

Description

technical field [0001] The invention belongs to the technical field of environmental ecological engineering, and in particular relates to an ecological algae control method for freshwater lakes. Background technique [0002] With the increasing impact of human activities on water ecosystems, cyanobacterial blooms have become a sign of eutrophic water bodies around the world, resulting in deterioration of water quality, damage to the structure and function of ecosystems, and the production of toxins, especially in eutrophic water bodies. The rapid proliferation of algae caused by trophication has brought great troubles to drinking water, increased water treatment costs, made it difficult to guarantee the quality of effluent water, and brought great harm to humans and aquatic animals. [0003] In view of the severe eutrophication of water bodies, countries around the world have launched various algae removal methods. There are chemical methods that use strong oxidants and alg...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F3/32
Inventor 方苏杭胡金保
Owner ZHEJIANG OCEAN UNIV
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