Multi-order surface flow artificial wetland symbiotic ecosystem based on pond ridge and application method

A technology of artificial wetland and surface flow, applied in the direction of chemical instruments and methods, botanical equipment and methods, applications, etc., can solve the problems of secondary pollution, time-limited, long-term maintenance, etc., to avoid waste, novel structure, The effect of improving usage efficiency

Active Publication Date: 2016-05-25
HENAN UNIV OF ANIMAL HUSBANDRY & ECONOMY +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] One is the physical method, that is, through mechanical algae removal, pumping out old water, adding new water, etc., but it often treats the symptoms but not the root cause, and is time-limited, so it can only be used as an emergency measure;
[0004] The second is chemical methods, such as the use of chemicals to kill algae and bacteria, but it costs a lot and is easy to cause secondary pollution;
[0005] The third is microbial or plant methods, such as putting photosynthetic bacteria, Bacillus bitternii and other beneficial bacteria, or stocking algae-controlling organisms, or setting up biological floating ...

Method used

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  • Multi-order surface flow artificial wetland symbiotic ecosystem based on pond ridge and application method
  • Multi-order surface flow artificial wetland symbiotic ecosystem based on pond ridge and application method
  • Multi-order surface flow artificial wetland symbiotic ecosystem based on pond ridge and application method

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Embodiment 1

[0057] The multi-stage surface flow artificial wetland ecological symbiosis system based on the pond ridge of the present invention, see Figure 2-5 , including two adjacent aquaculture ponds 1, a pool ridge 8 for isolation is arranged between the two aquaculture ponds, and a plurality of adjacent aquatic plant planting areas with successively decreasing bottom heights are excavated on the pool ridge 8, forming multiple Step surface flow artificial wetland, the bottom of the breeding pond 1 is provided with a submersible pump 5, and the outlet of the submersible pump 5 is provided with an inlet pipe 6a connected to the highest first-order aquatic plant planting area 4a, and the adjacent pair of aquatic plant planting areas The second overflow pipe 7b that runs through is arranged on the ridge between them, and the third overflow pipe 7c that runs through is set on the ridge between the lowest first-order aquatic plant planting area 4c and the culture pond 1, forming a circulati...

Embodiment 2

[0078] The multi-stage surface flow artificial wetland ecological symbiosis system based on the pond ridge of the present invention, see Figure 6-9 , including two adjacent aquaculture ponds 1, a pool ridge 8 for isolation is arranged between the two aquaculture ponds, and a plurality of adjacent aquatic plant planting areas with successively decreasing bottom heights are excavated on the pool ridge 8, forming multiple Step surface flow artificial wetland, the inner cavity of the culture pond 1 is provided with an isolation ridge 9, and the isolation ridge 9 separates the inner cavity of the culture pond 1 into adjacent fish breeding areas 2 and lotus vegetable planting areas 3, and fish breeding areas 2 The bottom is provided with a submersible pump 5, and the outlet of the submersible pump 5 is provided with a water inlet pipe 6b communicating with the lotus planting area 3,

[0079] The fish breeding area 2 is adjacent to the lowest first-order aquatic plant planting area ...

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Abstract

The invention discloses a multi-order surface flow artificial wetland symbiotic ecosystem based on a pond ridge and an application method. The symbiotic ecosystem comprises two adjacent cultivation ponds, wherein the pond ridge for isolating is arranged between the two cultivation ponds; a plurality of aquatic plant planting areas which are adjacent in sequence and decreasing in bottom surface heights in sequence are dug on the pond ridge to construct a multi-order surface flow artificial wetland. Cultivation water bodies of the cultivation ponds are pumped into the multi-order surface flow artificial wetland through a diving pump to form water body circulation of the cultivation ponds and the multi-order surface artificial wetland and construct the symbiotic ecosystem. The symbiotic ecosystem is novel in structure, the cultivation water quality can be purified ecologically, the safety of aquatic products is promoted, the land utilization rate is increased effectively, and land waste is avoided; meanwhile, the pond ridge is reutilized, so that the income of peasants can be increased, the aim of increasing both production and income is fulfilled, and the demand of the national development strategy is met.

Description

technical field [0001] The invention relates to a multi-stage surface flow artificial wetland ecological symbiosis system based on a pool ridge and a method for using it, and relates to fish breeding, aquatic plant planting, and lower aquatic animal stocking, etc., and belongs to aquatic animal breeding, aquatic vegetable planting and water ecological environment Restoration technical field. Background technique [0002] The key to restricting the development of intensive aquaculture is the water quality of the aquaculture water body, and the water quality management of the aquaculture water body is the focus of the farmers. At present, there are several methods to deal with the water quality of aquaculture water bodies: [0003] One is the physical method, that is, through mechanical algae removal, pumping out old water, adding new water, etc., but it often treats the symptoms but not the root cause, and is time-limited, so it can only be used as an emergency measure; [...

Claims

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Application Information

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IPC IPC(8): A01K61/00A01K63/00A01G1/00A01G31/00C02F3/32C02F3/34
CPCA01G22/00A01G31/00A01K61/00A01K63/003C02F3/32C02F3/327C02F3/34Y02A40/81Y02P60/60Y02W10/10
Inventor 徐文彦宋良红祁真郭国军郭欢欢唐国盘齐子鑫秦改晓黄安群
Owner HENAN UNIV OF ANIMAL HUSBANDRY & ECONOMY
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