Indoor test device for researching fish cluster effect

A test device and a technology of colony effect, which is applied to the field of indoor test devices for studying fish colony effect, can solve the problems of fish school coercion effect, small device, uneven flow state in the vertical direction, etc., and achieves reduced coercion effect and good simulation effect. , to ensure the effect of accuracy

Pending Publication Date: 2022-08-09
CHINA THREE GORGES PROJECTS DEV CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] Although the above devices can all be used to study the behavior of fish, and can also make the water flow in the water tank have different flow rate gradients, but on the one hand, these devices are small and have a strong coercive effect on fish schools. The water flow division is not obvious, especially the flow state is not uniform in the vertical direction, and the flow state of the natural river is not simulated, so the indicators of the fish colony effect obtained are not accurate

Method used

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  • Indoor test device for researching fish cluster effect
  • Indoor test device for researching fish cluster effect
  • Indoor test device for researching fish cluster effect

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] like figure 1 As shown, the experimental device for indoor research on fish swarming effect given in this embodiment includes a water tank 1, a fishing net, a rectifying grid, a baffle 21, a propeller propulsion group, a motor group and a camera group.

[0034] The water tank 1 is directly fixed on the ground and is a rectangular box body made of tempered plexiglass, with a length of 19m and a width of 3.93m, and a water guide wall 4 is vertically arranged along the length direction of the water tank at 1 / 4 of the inner side. The water guide wall 4 is open at both ends, and divides the water tank 1 into a water circulation open channel 5 and a simulated river channel 6, and communicates with each other through the two open ends. The water circulation open channel 5 has a width of 0.9m and a length of 17m. The corner of the end retaining wall (ie, a corner of the water tank) has an angle of 90°, a radius of 0.9m and a height of 1m. The water inlet pipe 2 of the water ta...

Embodiment 2

[0043] The experimental device for indoor research on fish colony effect given in this example is also as follows Figure 1-5 As shown, including the water tank 1, the fishing net, the rectifier grid, the baffle plate 21, the propeller propulsion group, the motor group and the camera group, etc., the structure and connection relationship are exactly the same as those of the embodiment 1, and they will not be repeated here.

[0044] Different from Example 1: 1) the length of the water tank 1 is 45m, the width is 5.13m, the length of the water guide wall 4 is 40m, and the width of the separated water circulation open channel 5 is 1.2m; 2) the length of the test area 11 is 36m, The width is 3.9m; 3) There are 9 grid plates 20 of the rectifier grid I18, 6 rectifier grids II19, and the length of the baffle plate 21 is 1.8m; 4) Make the flow through the two rectifier grids I, II18, 19 and no The flow velocity of the low flow velocity zone 22 formed by the simulated river channel 6 t...

Embodiment 3

[0047] The experimental device for indoor research on fish colony effect given in this example is also as follows Figure 1-5 As shown, including the water tank 1, the fishing net, the rectifier grid, the baffle plate 21, the propeller propulsion group, the motor group and the camera group, etc., the structure and connection relationship are exactly the same as those of the embodiment 1, and they will not be repeated here.

[0048] Different from Example 1: 1) the length of the water tank 1 is 60m, the width is 6.53m, the length of the water guide wall 4 is 55m, and the width of the separated water circulation open channel 5 is 1.5m; 2) the length of the test area 11 is 48m, The width is 5m; 3) There are 12 grid plates 20 of rectifier grid I18, 8 grid rectifier grids II, and the length of the baffle plate 21 is 2.5m; The flow velocity of the low flow velocity area 22 formed by the test area 11 of the simulated river channel 6 is 0-0.4m / s, the flow velocity of the medium flow v...

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Abstract

The invention discloses a test device for indoor research of fish cluster effect, which comprises a water tank 1, a fish blocking net, a propeller propulsion group, a motor group, a camera group, a damping grid and a flow separation plate 21, a water guide wall 4 with two open ends is arranged in the water tank 1, and the water tank is divided into a water flow circulation open channel 5 and a simulated river channel 6; the simulated river channel is divided into a test area 11 and an adaptation area 12 by the fish blocking net; the propeller propelling set is installed at the open end of the water tank downstream water guide wall 4 and connected with the motor set. The camera group is positioned right above the simulated river channel test area 11; and the two rectifying grids 18 and 19 and the positions without the rectifying grids are matched with the flow isolating plate together, so that the test area 11 forms a low-flow-speed area 22, a medium-flow-speed area 23 and a high-flow-speed area 24 along the water flow flowing direction. The method has a good simulation effect on the natural river channel, the stress effect on fish schools is greatly reduced, and the continuous swimming speed, the critical swimming speed and the burst swimming speed of the obtained fish schools are closer to the real situation of the natural river channel.

Description

technical field [0001] The invention belongs to the technical field of test devices for simulating the influence of environmental hydraulic changes on fish colony effects, in particular to an indoor test device for studying fish colony effects. Background technique [0002] Most of the world's fish are gregarious fish, and studies of fish school behavior and evolution have shown that swarming is beneficial to individual fish, resulting in reduced risk of predation, easier access to food resources, and better mate selection. And reduce energy consumption, improve the efficiency of information transmission. [0003] There are three main indicators to evaluate whether fish are clustered, namely cohesion index, coordination index and repulsive force index. Among them, the cohesion index includes the centroid of the fish school, the distance between the nearest neighbors, the cluster area, etc., which mainly evaluates whether the individual fish has a tendency to approach the ne...

Claims

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Application Information

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IPC IPC(8): A01K61/10A01K63/00
CPCA01K61/10A01K63/00Y02A40/81
Inventor 唐锡良严忠銮安瑞冬卢晶莹陈旻孙干薛敬阳朱天然
Owner CHINA THREE GORGES PROJECTS DEV CO LTD
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