RU2339760C1 - Fish-pass operating method meant for fish passing from hydrosystem's afterbay into forebay (versions) - Google Patents

Abstract

FIELD: water engineering.

SUBSTANCE: invention refers to water engineering, and namely to method of fish passing through support structures into meadows and breeding areas. Method consists in forming controllable water flow throughout the length of fish-passing path. Water flow depends on available working head and type of fish being passed, and is initiated in each fish-pass compartment as result of water flow supply into jet-forming heads located along perimeters of inlet holes provided in division walls and directed to forebay's side. Next step of method is forming of two rows, either parallel or set at an angle to inlet hole axis, of submerged parallel hydraulic jets, and producing, during interrelation of these rows, water jets resistant to main flow moving across fish-passing path through fish-pass compartments from forebay, and thus creating favourable conditions for fish passing through inlet holes in the direction of forebay. According to the first version at the first stage of fish-pass operation, fish pass is filled with water from hydraulic system's afterbay. For this purpose the fish-pass bottom gate is opened, and either fish-pass inlet compartment or fish-pass inlet head is filled with water up to hydraulic system's afterbay. After that there shall be activated jet-forming heads' system on the inlet, i.e. first fish-pass division wall, and there shall be increased water level in fish-pass inlet compartment or fish-pass inlet head up to design level. After jet-forming heads' system arranged on the second fish-pass division wall next to inlet fish-pass division wall is filled with water, it is put into operation, and water level in the second fish-pass compartment next to fish-pass inlet compartment or fish-pass inlet head is increased up to design level. After jet-forming heads' system arranged on the third fish-pass division wall is filled with water, it is put into operation, and water level in the third fish-pass compartment is increased up to design level. After jet-forming heads' system arranged on the fourth fish-pass division wall is filled with water, previous cycles are repeated for many times in similar way till jet-forming heads' system provided on upper fish-pass division wall is filled with water. After jet-forming heads' system provided on upper fish-pass division wall is filled with water, fish-pass top gate is opened and at the same time jet-forming heads' system on upper fish-pass division wall is put into operation. According to the second version at the first stage of fish-pass operation, fish pass is filled with water from hydraulic system's forebay with subsequent water filling from hydraulic system's afterbay. In this case the fish-pass top gate is slightly opened and water flow is supplied, and then fish-pass is filled with water. After fish-pass inlet compartment or fish-pass inlet head is filled with water up to design level, jet-forming heads' system on inlet fish-pass division wall is activated with simultaneous fish-pass bottom gate opening. After that jet-forming heads' systems on all the rest fish-pass division walls are activated at one and the same time, and then fish-pass top gate is fully opened.

EFFECT: invention improves control efficiency of fish-pass initial operating stage.

2 cl, 12 dwg

Description

The invention relates to hydraulic engineering, and in particular to a method for attracting and transferring fish producers through retaining structures to spawning and feeding grounds.

The prototype of this invention is a method of passing fish through the fish passage tract of the fish passage, proposed by A. Chistyakov. (RF patent No. 2236501, cl. ЕВВ 8/08, published. 2004.09.20), which consists in creating a controlled water flow along the entire length of the fish passage tract, while the controlled flow, depending on the difference in the levels of the upper and lower pools and the type of fish passed, create in each chamber of the fish passage as a result of supplying an additional flow of water to the system of jet-forming nozzles located above and below the longitudinal axis of the inlet hole located in the transverse baffle, and directed at an angle to each other and towards the upstream, followed by two rows of flooded hydraulic jets and the creation of the combined hydraulic interaction of these hydraulic jets of hydraulic resistance to the flow coming through the fish passage and the fish passage chambers from the upper pool, and thereby favorable conditions for the fish to pass through the inlet opening towards the upper pool, and the hydraulic jets are formed directly in the inlet hole of the transverse septum, made along the entire perimeter of the fish passage hole and are pre-twisted.

One of the significant drawbacks of this method of passing fish through the fish passage channel of the fish passage is the difficulty in controlling the initial stage of the fish passage operation for passing fish from the lower pool of the hydraulic system to the upper pool, the risk arising from this, as well as the impossibility of carrying out full-scale routine maintenance.

The aim of the invention is to create favorable conditions for the most effective management of the initial stage of the fish passage for passing fish from the lower pool of the hydroelectric station to the upper pool and moving the fish along the length of the fish passage.

The invention consists in the following.

According to claim 1 of the claims. Due to the filling of the fish passage with water from the lower pool of the hydraulic system, maximum safety and ease of control of the initial stage of the fish passage for passing fish from the lower pool of the hydraulic system to the upper pool is achieved.

According to claim 2 of the claims (Option). Filling the fish passage with water from the upper pool of the hydraulic system, followed by adding filling with water from the lower pool of the hydraulic system, allows the initial stage of the fish passage to pass fish from the lower pool of the hydraulic system to the upper pool as soon as possible with a sufficient level of safety.

The solution to this problem is achieved by implementing a new method of operation of the fish passage for passing fish from the lower pool of the hydroelectric station to the upper pool and its variant. Graphic material explaining the essence of the proposed method is presented in the following figures:

figure 1 - fish passage, a longitudinal section, the initial state;

figure 2 is the same, a longitudinal section, the beginning of the filling of the input chamber of the fish passage (input head of the fish passage) (option 1);

figure 3 is the same, a longitudinal section, an increase in the water level in the inlet chamber of the fish passage (according to embodiment 1);

figure 4 - the same, a longitudinal section, an increase in the water level in the second chamber of the fish passage (option 1);

figure 5 - the same, a longitudinal section, an increase in the level of water in the third chamber of the fish passage (option 1);

6 is the same, a longitudinal section, the beginning of the filling of the exhaust chamber of the fish passage (exhaust tip of the fish passage) (according to option 1);

Fig.7 is the same, a longitudinal section, the opening of the upper shutter of the fish passage and the full filling of the fish passage with water (according to option 1);

Fig - the same, a longitudinal section, the beginning of the filling of the fish passage with water from the upper pool of the waterworks (option 2);

Fig.9 is the same, a longitudinal section, the inclusion of a system of jet-forming nozzles on the input dividing wall of the fish passage with the simultaneous opening of the lower shutter of the fish passage (option 2);

figure 10 is the same, a longitudinal section, the simultaneous inclusion of systems of jet-forming nozzles on all the dividing walls of the fish passage in addition to the working system on the input dividing wall of the fish passage (according to option 2);

11 is the same, a longitudinal section, the moment of the full opening of the upper shutter of the fish passage (option 2);

Fig - the same, a longitudinal section, the working condition of the fish passage.

The fish passage (Fig. 1) is located in the alignment of the dam of the waterworks and is made in the form of an open stepped or inclined spillway 1 (fish passage), connecting the upper and lower pools of the waterworks. Inside the fish passage path 1 (spillway), vertical (dividing) walls 2, 9 and 12 are installed, dividing the total pressure of the hydraulic system into parts and forming the chamber 3 of the fish passage. In the dividing walls 2, 9 and 12, fish passage (swimming) openings 4 are provided, equipped with barriers 5 formed by shielding barrier walls installed along the entire perimeter of the fish passage (swimming) holes 4 parallel to the axes of the jets. Inside the canopy visors 5, along the perimeters of the fish passage (swim) holes 4, there are jet-forming nozzles 6 parallel or at an angle to the axis of the fish passage (swim) hole 4. The jet-forming nozzles 6 are connected through distribution manifolds 7 to the pumps 8. The input (first) dividing wall 9 of the fish passage, dividing the lower tail of the hydraulic system from the inlet chamber 10 of the fish passage (inlet head of the fish passage), equip the lower gate 11 with the lower gate 11. The upper dividing wall 12 of the fish passage with the output dividing wall th 13, equipped on the downstream side with the upper shutter 14, form the outlet chamber 15 of the fish passage (the outlet tip of the fish passage).

The method of operation of the fish passage for the passage of fish from the lower pool of the hydraulic system to the upper pool is as follows.

Filling the fish passage (Fig. 1) with water is carried out from the downstream of the hydraulic system. To do this, open the bottom gate 11 of the fish passage and fill the inlet chamber 10 of the fish passage (inlet head of the fish passage) with water until the level of the downstream end of the hydroelectric station is reached (Fig. 2). Next, include a system of jet-forming nozzles 6 on the inlet (first) dividing wall 9 of the fish passage and increase the water level in the inlet chamber 10 of the fish passage (inlet head of the fish passage) to the calculated level Н _Н (Fig. 3). The increase in water level in the inlet chamber 10 of the fish passage occurs due to ejection by hydraulic jets formed by the jet-forming nozzles 6 of an additional volume of water from the downstream end of the hydraulic system. Those. flooded hydraulic jets, moving in a mass of water, will suck in and draw particles of the surrounding fluid mass into the movement. This will lead to the fact that the water level in the upstream chambers of the fish passage will begin to rise to a value equal to N _N. The value of N _N is the maximum value of the pressure that can keep the water flow resulting from the interaction of hydraulic jets flowing out from the jet-forming nozzles 6 located along the perimeter of the fish passage (inlet) hole 4 in the inlet (first) separation wall 9 of the fish passage. Upon completion of filling the system of jet forming nozzles 6 with water on the second dividing wall 2 of the fish passage 9, next to the entrance dividing wall of the fish passage 9, this system of jet forming nozzles is turned on and the water level in the second chamber 3 of the fish passage next to the entrance chamber 10 of the fish passage (input tip of the fish passage) ), to the calculated level of H _CP.1 (figure 4). The increase in water level in the second chamber 3 of the fish passage also occurs due to ejection by hydraulic jets formed by the jet-forming nozzles 6 of an additional volume of water from the inlet chamber 10 of the fish passage (inlet head of the fish passage). Water is replenished in the input chamber 10 of the fish passage (input tip of the fish passage) from the downstream end of the hydroelectric complex due to the ejection of an additional volume of water with hydraulic jets formed by jet-forming nozzles 6 located along the perimeter of the fish passage (inlet) hole 4 in the inlet (first) separation wall 9 of the fish passage. The value of H _CP.1 is the maximum pressure that the water flow can hold, resulting from the interaction of hydraulic jets flowing from the jet-forming nozzles 6 located around the perimeter of the fish passage (inlet) hole 4 in the second separation wall 2 of the fish passage. After filling with water the system of jet-forming nozzles 6 on the third dividing wall of the fish passage, this system of jet-forming nozzles 6 is turned on and the water level in the third chamber 3 of the fish passage is increased (Fig. 5). The increase in water level in the third chamber 3 of the fish passage also occurs due to ejection by hydraulic jets formed by the jet-forming nozzles 6, of an additional volume of water from the underlying chambers of the fish passage to the calculated level of H _CP2 . After filling with water the system of jet-forming nozzles 6 on the fourth dividing wall of the fish passage, this system of jet-forming nozzles is turned on, and the previous cycles are repeated many times in the same way until the system of jet-forming nozzles is filled with water on the upper separation wall 12 of the fish passage (Fig. 6). The number of cycles depends on the number of chambers in the fish passage. Upon completion of filling with water, the system of jet-forming nozzles 6 on the upper separation wall 12 of the fish passage open the upper shutter of the fish passage 14 with the simultaneous inclusion of the system of jet-forming nozzles 6 on the upper separation wall 12 of the fish passage (Fig. 7). At the end of the complete filling of the fish passage chambers with water, the fish passage is adjusted to a certain value of the attracting flow along the entire fish passage path 1 and the fish are attracted and passed from the lower pool of the hydraulic system to the upper pool (Fig. 12).

In addition, as an option, a method of filling the fish passage (Fig. 1) with water from the upper pool of the hydraulic system is possible, followed by the addition of filling with water from the lower pool of the hydraulic system. To do this, open the upper shutter 14 of the fish passage, supply the water flow and fill the fish passage with water from the upper pool of the hydraulic system (Fig. 8). After filling the entrance chamber 10 of the fish passage (the entrance tip of the fish passage) with water to the calculated level Н _Н , the system of jet-forming nozzles 6 on the entrance separation wall 9 of the fish passage with the simultaneous opening of the lower shutter 11 of the fish passage is filled with water (Fig.9). Maintaining the water level H _H in the inlet chamber 10 of the fish passage is carried out by creating back pressure with hydraulic jets formed by the jet-forming nozzles 6 and placed around the perimeter of the fish passage (inlet) hole 4 in the inlet (first) separation wall 9 of the fish passage. The value of N _N is the maximum value of the pressure that can keep the water flow resulting from the interaction of hydraulic jets flowing out from the jet-forming nozzles 6 located along the perimeter of the fish passage (inlet) hole 4 in the inlet (first) separation wall 9 of the fish passage. After opening the lower shutter 11 of the fish passage, in addition to the working system of jet-forming nozzles 6 on the input (first) dividing wall 9 of the fish passage, simultaneously turn on the systems of the jet-forming nozzles 6 on all other other separation walls 2 and 12 of the fish passage (Fig. 10), and then open the upper shutter 14 of the fish passage (11). From the moment of adding to the working system the jet-forming nozzles 6 on the input (first) dividing wall 9 of the fish passage simultaneously turning on the systems of the jet-forming nozzles 6 on all other other separation walls 2 and 12 of the fish passage, the filling of the fish passage with water from the upper reservoir will be added and the filling of the fish passage with water from the lower basin waterworks (figure 10, 11). The increase in water level in the chambers of the fish passage takes place not only due to the flow of water from the upper pool of the hydraulic system, but also from the lower pipe of the hydraulic system due to ejection by hydraulic jets formed by the jet-forming nozzles 6, an additional volume of water along the chain from the lower chambers of the fish passage and further from the lower pipe of the hydraulic system . At the end of the complete filling of the fish passage chambers with water, the fish passage is adjusted to a certain value of the attracting flow along the entire fish passage path 1 and the fish are attracted and passed from the lower pool of the hydraulic system to the upper pool (Fig. 12).

The fish passage for the passage of fish from the lower pool of the hydroelectric station to the upper pool works as follows.

Fill the fish passage with water according to one of the options. Two options are possible here: filling with water from the lower pool of the hydraulic system or filling with water from the upper pipe of the hydraulic system, followed by adding filling with water from the lower pipe of the hydraulic system. Upon completion of the filling of the fish passage with water, the attracting flow is tuned to a certain amount, which is supplied along the entire fish passage path 1 (Fig. 12). The magnitude of the attracting flow is regulated by changing the initial velocity of the outflow of hydraulic jets from nozzles 6. The system of jet-forming nozzles 6, forming hydraulic jets, create hydraulic resistance in front of the inlet openings 4, making the passage of fish from the downstream chambers 10 and 3 into the upstream chambers 3 and 15 of the fish passage free and independent. The attracting stream helps attract fish to the fish passage.

The undoubted advantage of the proposed method of operation of the fish passage for the passage of fish from the lower tail of the hydraulic system to the upper tail is the ability to control the process of filling the fish passage with water due to the presence of lower 11 and upper 14 gates in the fish passage. In addition, the gates allow you to close the fish passage for routine maintenance and maintenance, as well as for periods of lack of fish migrations (figure 1, 12).

The proposed method allows you to create safe and effective conditions for controlling the initial stage of the fish passage for the passage of fish from the lower pool of the hydraulic system to the upper pool, as well as a controlled water flow along the entire length of the fish channel, which maximally contributes to the free and independent passage of fish into the upper pool of the hydraulic system and provides high stability, efficiency and reliability of the fish passage.

Claims (2)

1. The method of operation of the fish passage for the passage of fish from the lower pool of the hydroelectric station to the upper pool, which consists in the formation of a controlled water flow along the entire length of the fish passage tract, depending on the difference in the levels of the upper and lower pools and the type of fish to be passed and the fish passage created in each chamber as a result of flow water into jet-forming nozzles located along the perimeters of the swimming holes made in the dividing walls and directed towards the upper pool, the subsequent formation of two parallel or at an angle m to the axis of the inlet of the rows of flooded parallel hydraulic jets and the creation of the joint stream of these series of jets of hydraulic resistance to the main stream, i.e. the zone of partially equal pressures entering the fish passage through the fish passage chambers from the upper pool, and thereby favorable conditions for the fish to pass through the swimming inlets towards the upper pool, characterized in that at the initial stage of the fish passage operation, filling the fish passage with water is carried out from the lower pool of the hydraulic system, To do this, open the bottom gate of the fish passage and fill the inlet chamber of the fish passage or the inlet head of the fish passage with water until the level of the downstream side of the hydraulic system is reached, and then the jet-forming system is turned on nozzles at the input, i.e. the first dividing wall of the fish passage and increase the water level in the inlet chamber of the fish passage or inlet head of the fish passage to the calculated level, after filling the system of jet forming nozzles on the second separation wall of the fish passage next to the entrance dividing wall of the fish passage, this system of jet forming nozzles is turned on and raised the water level in the second chamber of the fish passage, following the inlet chamber of the fish passage or the inlet head of the fish passage, to the calculated level, at the end of filling the system with water pipe forming nozzles on the third dividing wall of the fish passage, this system of jet forming nozzles is put into operation and the water level in the third chamber of the fish passage is increased to the calculated level; upon completion of filling the system of jet forming nozzles on the fourth separation wall of the fish passage with water, the previous cycles are repeated many times in the same way until the system of jet forming nozzles is filled with water on the upper dividing wall of the fish passage, at the end of filling the system of jet-forming nozzles on the top a separating wall fish ladder open top gate fish ladder system with simultaneous switching strueobrazuyuschih nozzles on the upper dividing wall fish ladder. 2. The method of operation of the fish passage for the passage of fish from the lower pool of the hydroelectric station to the upper pool, which consists in the formation of a controlled water flow along the entire length of the fish passage tract, depending on the difference in the levels of the upper and lower pools and the type of fish passed and the fish passage created in each chamber as a result of flow water into jet-forming nozzles located along the perimeters of the swimming holes made in the dividing walls and directed towards the upper pool, the subsequent formation of two parallel or at an angle m to the axis of the inlet of the rows of flooded parallel hydraulic jets and the creation of the joint stream of these series of jets of hydraulic resistance to the main stream, i.e. zones of partially equal pressures entering the fish passageway through the fish passage chambers from the upper pool, and thereby favorable conditions for the fish to pass through the swimming inlets towards the upper pool, characterized in that at the initial stage of the fish passage operation, filling the fish passage with water is carried out from the upper pool of the hydroelectric the subsequent addition of filling with water from the downstream end of the hydraulic system, for this, the upper gate of the fish passage is opened, the water flow is applied and the fish passage is filled with water, at the end of filling To the entrance of the fish passage entrance chamber or the entrance passage of the fish passage to the calculated level, they include a system of jet-forming nozzles on the entrance dividing wall of the fish passage with the simultaneous opening of the lower shutter of the fish passage, after which they simultaneously turn on the systems of jet-forming nozzles on all other other separation walls of the fish passage, and then fully open the upper shutter of the fish passage.

Images