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Fishway inlet adaptable to water level change and designing method thereof

A design method and water level change technology, applied in climate change adaptation, water conservancy engineering, sea area engineering, etc., can solve the problem of increasing construction investment costs, post-operation costs and equipment operation and maintenance costs, increasing the difficulty of energy dissipation body design and research, and increasing the number of fish To solve problems such as the difficulty of channel operation and management, achieve good water level and amplitude adaptability, improve the efficiency of fish passing, and improve the efficiency of fish intake

Inactive Publication Date: 2015-03-25
CHINA INST OF WATER RESOURCES & HYDROPOWER RES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, frequent changes in the water level lead to an inconstant amount of supplementary water, and multiple valves need to be opened and closed to adapt to changes in the supplementary water volume. The opening and closing conditions of many gates are strictly controlled by the automatic control system based on the information of the water level rise and fall, which increases the construction investment in the early stage The cost, post-operation cost and equipment operation and maintenance costs have increased the difficulty of fishway operation and management to a certain extent; the water flow velocity in the diversion pipeline is usually higher than the flow rate in the main body of the fishway, and it changes adaptively with the opening and closing of different valves, so The energy dissipation body is required to attenuate the flow velocity of different high water flows in the water diversion pipeline to the constant flow velocity in the main body of the fishway, which increases the requirements for the adaptability of the energy dissipation body of the pipeline and increases the difficulty of the design and research of the energy dissipation body; when the water level is high, it is required A large amount of water should be added to the fishway to increase the flow rate of the vertical seam jet. Excessive water replenishment will cause waste of water resources and loss of water storage energy. For example, the maximum water replenishment of the fishway of the Santo Antnio Hydropower Station is 52m3 / s, and the excess flow of the fishway itself 10m 3 / s, it can be seen that the maximum water supply of the Presidimum Island suction flow system is equivalent to 5.2 times of the fishway's own flow rate

Method used

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  • Fishway inlet adaptable to water level change and designing method thereof
  • Fishway inlet adaptable to water level change and designing method thereof
  • Fishway inlet adaptable to water level change and designing method thereof

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Embodiment 1

[0048] Present embodiment is a kind of fishway inlet that adapts to water level fluctuation, as figure 1 , 2 , 3 shown. It includes: a vertical seam fishway with at least two 180° turning sections 4, the vertical seam fishway includes a plurality of pools 3 with inclined bottoms connected to form a straight section, and the water pools are arranged between The bulkhead 1 on the left bank or the right bank is separated from the straight section guide plate 2 arranged on the right bank or the left bank and is relatively staggered from the bulkhead, and the fishway entrance includes a vertical slot entrance 7 that is side by side with at least one 180° turning section, The height 401 of the turning side wall 4 of each 180° turning section parallel to the vertical seam entrance is the working water depth of the section, and the turning side wall is provided with a water retaining side wall 6, and the water retaining side wall A gap 5 for entering fish is provided.

[0049] This...

Embodiment 2

[0054] This embodiment is a design method of the fishway inlet adapting to water level fluctuations described in Embodiment 1. The concrete steps of described method are as follows:

[0055] The vertical seam entrance floor elevation can determine the minimum water depth of the vertical seam section, which is calculated according to the following formula:

[0056] h inlet = H min - h min

[0057] In the formula, H inlet ——Elevation of vertical seam entrance floor, H min ——Minimum water level of vertical seam inlet, h min ——The minimum water depth of the vertical slot inlet;

[0058] The maximum water depth and minimum water depth of the vertical seam inlet determine the minimum flow velocity and maximum flow velocity of the vertical seam section respectively. Calculate the maximum water depth and minimum water depth of the vertical seam inlet according to the following formula:

[0059]

[0060]

[0061] where h max ——Maximum water depth of vertical seam inlet...

Embodiment 3

[0082] This embodiment is an improvement of the second embodiment, and is a refinement of the second embodiment about the vertical slot inlet. The width of the vertical slot type inlet described in this embodiment is 3 / 20 to 4 / 20 times of the width of the fishway. This parameter is determined according to the characteristics of migratory fish species, size, habits and so on.

[0083] The more optimized value is: 3 / 20 times.

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Abstract

The invention relates to a fishway inlet adaptable to water level change and a designing method thereof. A vertical slot type fishway provided with at least one 180-degree turning section is provided and comprises a straight section formed by connection of multiple pools, and the bottom of each pool is oblique. The fishway inlet comprises a vertical slot type inlet, wherein the vertical slot type inlet and the at least one 180-degree turning section are arranged side by side, the height of the turning side wall of each 180-degree turning section parallel to the vertical slot type inlet is equal to the operating depth of the section, a water retaining side wall of arranged on each turning side wall, and a fish inlet notch is formed in each water retaining side wall. The vertical slot type fishway is arranged in a foldback mode by arranging the 180-degree turning sections, and the 180-degree turning sections and an inlet of the fishway are located on the same side. Meanwhile, by means of reasonable setting of the bottom elevation of the 180-degree turning sections and the heights of the side walls, when the downstream water level of a water retaining building changes, water in the fishway can automatically flow out through the corresponding fishway inlet notch or overflow through the notches of the 180-degree turning sections, and high water level change adaptability is realized.

Description

technical field [0001] The invention relates to a fishway inlet and a design method adapted to water level fluctuations, a hydraulic facility and a design method, an environmental protection facility and a design method, and a hydraulic facility and a design method for protecting fish ecology. Background technique [0002] The entrance of the vertical slot fishway is usually arranged on the downstream bank of the water blocking structure. The change of the discharge flow makes the downstream water level unsteady, and the large fluctuation of the water level makes it difficult to arrange the vertical slot fishway as a single entrance. The downstream water level of water-blocking structures in my country usually varies greatly (for example, the downstream water level of a hydropower station located in the Tibet Autonomous Region has a water level variation of 7m). To adapt to large fluctuations in the water level downstream of the water blocking structure. For daily adjustment...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02B8/08
CPCY02A40/60E02B8/085
Inventor 孙双科边永欢郑铁刚柳海涛夏庆福姜涵吕强
Owner CHINA INST OF WATER RESOURCES & HYDROPOWER RES
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