Experimental system and method for quantifying preference hydraulic factor interval of fish

An experimental system, fish technology, applied in fish farming, climate change adaptation, application, etc., can solve problems such as ineffective guidance of fish habitat, redundant experiments, small range of turbulent intensity changes, etc., to achieve convenient indoor Experiments and field experiments, a wide range of uses, and good durability

Inactive Publication Date: 2020-05-22
CHANGJIANG RIVER SCI RES INST CHANGJIANG WATER RESOURCES COMMISSION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, most of the studies on fish preference hydraulic factor intervals use closed circulation tanks for experiments. The fish effect is often difficult to meet expectations
The fish forced to swim measurement method in the uniform flow of the pipe not only lacks physiological basis, but also lacks practical significance, and cannot effectively guide the construction of the hydrodynamic environment of the fish habitat.
Relevant studies have shown that fish behavior is jointly affected by water flow velocity and turbulence intensity, among which turbulence intensity is the main factor affecting fish behavior, while some domestic scholars only qualitatively pointed out that turbulence has an important impact on fish behavior, but failed to quantify it. Another part of the scholars used the grid turbulence generator to generate turbulence to study the range of turbulence intensity in which fish can maintain their normal swimming posture under different turbulence fields, and based on this, they concluded that the range of turbulence intensity preferred by fish is , but the turbulence field generated by the grid turbulence generator has a small range of turbulence intensity changes, and the experiment is cumbersome, and the experimental fish is forced to swim in this experiment, the generated turbulence field is different from the flow state of the natural river. There is a large gap, the application of the experimental results is limited, and it cannot be used to guide engineering practice

Method used

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  • Experimental system and method for quantifying preference hydraulic factor interval of fish
  • Experimental system and method for quantifying preference hydraulic factor interval of fish
  • Experimental system and method for quantifying preference hydraulic factor interval of fish

Examples

Experimental program
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Embodiment 2

[0059] Based on the experimental system and method steps of Embodiment 1, the implementation of the following experiments can be realized:

[0060] like Figure 5-9 , described water tank 1 width should be greater than 3 times of target experiment fish body length, according to the average body length of used experimental grass carp is (12.13 ± 1.96) cm, selected width is the tank of 50cm, and 4 diameters of turbulence generator are set as 10cm, the ball center of the turbulent flow generator 4 is 8cm away from the bottom of the water tank 1, turn on the frequency converter water pump 15, adjust the water flow rate of the frequency converter water pump 15 so that the water flow rate of the water tank is 18cm s -1 , adjust the blade opening of the tailgate 9 so that the water depth in the tank 1 is 18 cm. After the turbulent flow field in the tank 1 is stable, randomly select an experimental fish and place it between the block 7 and the partition 8. After adapting to the water ...

Embodiment 3

[0063] Based on the experimental system and method steps of Embodiment 1, the implementation of the following experiments can be realized:

[0064] like Figure 5-9 , the width of the tank 1 should be greater than 3 times the length of the target experimental fish body, according to the average body length of the experimental bighead carp used is (11.29 ± 1.85) cm, the selected width is a tank of 50 cm, and the diameter of the turbulence generator 4 is 10 cm , the center of the turbulent flow generator 4 is 10cm away from the bottom of the water tank, turn on the frequency converter water pump 15, and adjust the outlet water flow of the frequency converter water pump 15 so that the water flow rate of the water tank is 17 cm·s in sequence -1 、26cm·s -1 and 35cm s-1 . Under a constant turbulent flow field, repeat the experiment of the above-mentioned Example 2, the analysis shows that the preferred flow velocity range of bighead carp with a body length of (11.29±1.85) cm is 16...

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Abstract

The invention provides an experimental system and method for quantifying a preference hydraulic factor interval of fish. The experiment system comprises a water groove device and a data analysis system, wherein the water groove device comprises a water groove, a water inlet box and a tail water box which are arranged at two ends of the water groove and communicate with the water groove, and a rectification grid, a turbulence perturbator, a blocking net, a separation net, a tail door and a water circulation system which are arranged in the water groove; and the data analysis system comprises aCCD camera, a telescopic T-shaped support, a video recorder and a data processor. According to the invention, on the basis of an open water groove, a constant turbulence field is generated through theturbulence perturbator, and the preference hydraulic factor interval range of target experimental fish is obtained by analysis according to the real-time recorded upstream movement track change of the fish. The experimental system provided by the invention is reasonable in design and reliable in data for determining the preference hydraulic factor interval range of the fish, can provide help forconstruction of the hydrodynamic environment of a fish habitat and design and optimization of fishway hydraulic parameters; meanwhile, the water groove is convenient to be disassembled, assembled andtransported, and facilitates indoor experiments and field experiments.

Description

technical field [0001] The invention relates to the field of ecological hydraulics, in particular to an experimental system and method for quantifying fish preferred hydraulic factor intervals. Background technique [0002] After the construction of hydropower projects, a series of ecological changes in water areas are caused, such as the natural ecological attributes of rivers such as hydrology, water temperature and connectivity. Among them, the migratory channels of upward fishes were blocked, and most of the habitats of non-migratory fishes were lost, which made it difficult for the original fishes in the river to reproduce normally, and the diversity and number of fishes decreased sharply. Therefore, fish habitat restoration and fishway construction are of great significance for alleviating and restoring fish diversity and quantity. However, most of the water flow in natural rivers is turbulent, and the hydrodynamic environment is complex. Quantitatively determining th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K61/10A01K63/00
CPCA01K63/003A01K63/006A01K61/10Y02A40/81
Inventor 宋基权王冬李清清尹正杰许继军吕志祥定培中陈述董玲燕杨春花宋雅静肖雪吴江
Owner CHANGJIANG RIVER SCI RES INST CHANGJIANG WATER RESOURCES COMMISSION
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