RU2257444C2 - Method for forming fish attractive flow (variants) and fish pass structure head - Google Patents

Abstract

FIELD: hydraulic building, particularly fish pass structures for passing spawner fish through support structures to spawning and meadow areas.

SUBSTANCE: method involves turning louver plates through predetermined angle relative longitudinal fish pass structure axis; supplying water with working flow rate to attract fish by opening supplying unit for a given extent to define outer borders of fish attractive flow. During fish attractive flow forming additional water flow is fed to extreme louver plates or to all louver plates, wherein water flow speed exceeds critical speed of fish to be directed to fish pass structure. Accumulated fish movement to upper pool is accomplished with additional water flow supply to louver plates to provide continuity of fish-attraction process.

EFFECT: increased stability of outer fish attractive flow borders.

17 cl, 16 dwg

Description

The invention relates to hydraulic engineering, and in particular to methods and structures intended for passing fish producers through retaining structures to spawning and feeding grounds.

Closest to the technological scheme is the method of forming a fish attracting stream [1], which consists in turning the louvre system by a predetermined angle relative to the longitudinal axis of the fish passage structure, supplying the working water flow rate to the attraction by opening the power supply unit by a specified amount and forming the external boundaries of the attracting stream .

The disadvantage of this method is the low degree of controllability of the external boundaries of the attracting fish stream.

The closest in technical essence and the achieved result is the head of the fish passage structure [1], which includes a louvre system with vertical louvre plates fixed on the axis of rotation, installed in the input section of the fish passage channel with the possibility of turning the blinds at an acute angle to the longitudinal axis of the fish passage structure .

The disadvantage of this tip is the low efficiency of controlling the location of the external borders of the fish attracting stream.

The aim of the invention is to create effective hydraulic conditions at the entrance to the fish passage structure, ensuring the formation of stable external boundaries of the fish attracting stream.

The invention consists in the following.

According to claim 1 of the claims. When forming a flow that attracts fish, the louvre plates turn at an acute angle to the longitudinal axis of the fish passage structure and, thus, create favorable hydraulic conditions for directing the fish to the entrance to the fish passage path. In order to stabilize the location of the external borders of the attracting “plume” against the background of the hydraulic structure of the spillway front, the operating service supplies additional flow to the extreme louvre plates. In this case, the speed in the generated hydraulic jets exceeds the critical swimming speed of the fish to be passed into the upper pool, which makes it possible to stabilize the external boundaries of the attracting “plume”. Given the magnitude of the average flow rate at the spillway, the speed in the generated hydraulic jets can be adjusted to maintain the specified coordinates of the external boundaries of the attracting stream, which allows you to attract fish from places with its maximum concentration located in the area of the downstream search.

During the transfer of fish to the upper pool of the hydroelectric complex (refers to fish passage facilities such as fish lifts and fish gateways), the flow of additional flow does not stop, which ensures the continuous attraction of fish to the entrance to the fish passage structure and the stability of the formation of the attracting stream and its external borders.

According to claim 2 of the claims. Saturation of hydraulic jets with air from the atmosphere allows you to simulate the spillway stream, which is also intensely saturated with air and attracts fish to the gates of the spillway dam of the waterworks. In addition, with an increased concentration of fish living in the surface horizons of the watercourse, air-water jets form an attracting stream at the surface due to the drag of the mass of additional flow to the surface (flotation effect).

According to claim 3 of the claims. The technology for forming a fish attracting stream according to a variant of the method is in many respects similar to the basic variant. The main difference is as follows. The addition of an additional flow rate to all the louvre plates makes it possible to increase the power of the flow attracting the fish, as well as to create a multi-gradient (re-gradient) planned speed diagram, which gives the fish the opportunity to select acceptable speed sections for moving forward. During the operation of transferring fish to the upper pool, this option not only ensures the continuity of the process of attracting fish, but also enhances the power of the attracting "plume".

According to claim 4 of the claims. Saturation of hydraulic jets with air from the atmosphere allows you to simulate the spillway stream, which is also intensely saturated with air and attracts fish to the gates of the spillway dam of the waterworks. In addition, with an increased concentration of fish living in the surface horizons of the watercourse, air-water jets form an attracting stream at the surface due to the drag of the mass of additional flow to the surface (flotation effect).

According to claim 5, the claims. The implementation of the extreme louvre plates and their axes hollow allows bypass galleries to feed into their internal space an additional flow of water to attract fish and to form the outer borders of the stream attracting fish. The presence on the end parts of the blinds facing the downstream side of the outlet openings allows the formation of hydraulic jets forming an attracting flow.

According to claim 6, claims. The execution of the outlet holes discretely in height of the louvre plates makes it possible to form local hydraulic jets with high speeds and at the same time allows the fish to move into the fish passage channel.

According to claim 7 of the claims. The execution of the round outlet holes allows the use of the classical cross-sectional shape of hydraulic jets - flooded axisymmetric jets having high parameters during their propagation in the stream.

According to claim 8 of the claims. The execution of the rectangular outlet holes arranged vertically allows additional flow to be supplied in narrow streams, which does not prevent the fish from overcoming the swimming hole formed by the louvre system.

According to claim 9, the claims. The implementation of the exhaust holes in the form of a vertical slit is an option, while the flow is evenly distributed along the depth and forms a uniform distribution both in depth and in width of the inlet head of the fish passage path.

According to claim 10 of the claims. The execution of the round outlet with nozzles increases the efficiency of the formation of the initial sections of the hydraulic jets, their characteristics and, including, the range of impact (distribution) on the external flow.

According to claim 11, the claims. The supply of the vertical end parts of the blinds facing the downstream side with perforated boxes, the boxes being fixed along the end part of the blinds with the formation of an air supply cavity in which nozzles are mounted, fixed on the inner surface of the boxes, allows air to be ejected from the atmosphere. Hydraulic jets at the initial stage of their work (4-8 seconds) pump out the volume of liquid from the air supply cavity, and then eject the air coming from the atmosphere, while water-air hydraulic jets are formed at the outlet of the nozzles (for the effect, see p. 2 and p. 4 formulas discussed above).

According to paragraph 12 of the claims. The implementation of all the louvre plates hollow, as well as their axes, allows you to submit an additional flow rate over the entire width of the inlet of the fish passage, which increases the efficiency of its distribution in the downstream of the waterworks.

According to claim 13 of the claims, (see claim 6 of the claims discussed above).

According to claim 14, (see claim 7 of the claims discussed above).

According to paragraph 15 of the claims, (see paragraph 8 of the claims discussed above).

According to clause 16 of the claims, (see clause 10 of the claims discussed above).

According to claim 17, (see claim 9 of the claims discussed above).

The solution to this problem is achieved by implementing a new method for forming a fish attracting stream and its variant, as well as creating a new design for the inlet head of the fish passage structure. Graphic material that explains the essence of the invention is presented in the following figures:

figure 1 - the input tip of the fish structure, plan;

figure 2 - the same, in the case of rotation of the louvre plates at a given angle to the longitudinal axis of the structure;

figure 3 - design of the louvre plates, cross section;

figure 4 - the input part of the head, plan, structure of the fish attracting currents at the time of transfer of the accumulated fish to the upper pool;

5 is the same, in the case of supplying an additional flow rate to all louvre plates;

6 is a plate of blinds, a view from the side of the downstream, a variant of the round outlet;

Fig. 7 is a louvre plate, view from the downstream side, a variant of rectangular outlet openings;

Fig. 8 is a louvre plate, view from the downstream side, a variant of the outlet in the form of a vertical slit;

Fig.9 is a louvre plate, view from the side of the downstream, a variant of the round outlet openings provided with nozzles;

figure 10 - louvre plate, view from the side of the downstream version with perforated boxes;

11 is a section aa in figure 10, the design of the means for supplying atmospheric air to saturate the hydraulic jets with air;

12 is an input part of a fish passage structure, an isometry, a power supply system of louvre plates;

13 is a variant of the louvre plates, all the louvre plates work to supply additional flow, the exhaust openings are round;

Fig. 14 is a variant of the louvre plates, all the louvre plates work to supply additional flow, the outlet openings are rectangular;

Fig. 15 is a variant of the louvre plates, all the louvre plates work to supply additional flow, the outlet openings in the form of vertical slots;

Fig - structure of the attracting stream, plan, the formation of external borders.

The tip of the fish passage structure includes a louvre system 1 with vertical louvre plates 2 mounted on the axis of rotation 3, mounted in the inlet section of the fish passage channel 4 with the possibility of turning the louvre plates 2 at an acute angle to the longitudinal axis of the fish passage structure by means of a drive (not shown). The extreme louvre plates 2 and the axis 3 of their rotation adjacent to the side walls of the tray 4 are hollow and communicated with each other, while the hollow axis 3 is connected to the bypass galleries 5, fed from the upstream, and the vertical end parts 6 of the extreme louvre plates 2 facing the downstream, made with exhaust holes 7.

In addition, the outlet openings 7 can be made discrete in height of the louvre plates 2.

In addition, the outlet openings 7 may be circular in shape.

In addition, the outlet openings 7 may be rectangular in shape.

In addition, the outlet openings 7 can be made in the form of a vertical slit.

In addition, the outlet openings 7 may be provided with nozzles 8 made coaxially with the outlet openings 7.

In addition, the end part 6 of the louvre plates 2, facing the downstream side, can be equipped with perforated boxes 9 with nozzles 8, and the perforated boxes 9 are fixed along the end part 6 of the louvered plates 2 with the formation of the air supply cavity 10 in communication with the atmosphere, nozzles 8 are fixed on the inner surface of the perforated boxes 9, and the holes of the nozzles 8, perforated boxes 9 and end parts 6 of the louvered plates 2 are aligned.

In addition, the louvre plates 2 and their axles 3 located between the extreme louvre plates 2 adjacent to the side walls of the tray 4 can be hollow and communicated by the distributing manifold 11 with bypass galleries 5, while their end parts 6 are made with outlet openings 7 .

In addition, the outlet openings 7 may be discretely positioned along the height of the louvre plates 2.

In addition, the outlet openings 7 may be circular in shape.

In addition, the outlet openings 7 can be made rectangular in shape.

In addition, the round outlet 7 may be provided with nozzles 8 made coaxially with the outlet 7.

In addition, the outlet openings 7 can be made in the form of a vertical slit.

The method of forming a fish attracting stream is as follows.

Simultaneously with the main flow supply to the tray 4 of the fish passage path, additional flow is supplied to the extreme louvre plates 2 adjacent to the side walls of the tray 4. At the same time, hydraulic jets 12 flow from the outlet openings 7, which form the external borders of the flow attracting the fish (Fig. 1) and allow to stabilize their planned location regardless of changes in the hydraulic structure of the flow in the downstream (for example, an increase or decrease in the amount of discharged flow through the spillway otin hydro). This is especially true for the option of installing the louvre plates 2 at an angle when the louvre system 1 is rotated with respect to the longitudinal axis of the structure (Fig. 2), when the attracting stream experiences the dynamic influence of a satellite stream generated from the spillway side. The speed in jets 12 is higher than the critical swimming speed of fish to be passed into the upper pool, which allows to stabilize the external boundaries of the attracting stream. In the process of transferring fish to the upper pool (refers to fish lifts and fish gateways - structures with forced transfer of fish), the flow of additional flow to the extreme louvre plates 2 does not stop, which ensures the continuity of the attraction process and the stability of the formation of the external boundaries of the attracting stream.

It is possible to implement the method in the case when the hydraulic jets 12 are pre-saturated with air from the atmosphere. In this case, an attracting stream is formed in the surface horizons of the downstream watercourse to attract mass concentrations of fish living mainly in the surface horizons.

According to an embodiment of the method, its implementation is possible in the case when an additional flow of water is supplied to all louvre plates 2 made hollow and communicating with hollow axles 3, which, in turn, are connected to a distributing manifold 11 connected to the bypass galleries 5. at the entrance to the tray 4 of the fish passage tract, a more powerful attracting current is created, which allows both attracting fish and stabilizing the attracting stream and its external borders 14 against the background of the hydraulic structure of the downstream. In addition, this variant of the method allows you to create a multi-gradient (re-gradient) planned speed diagram, giving the fish the opportunity to choose the most favorable speeds for moving towards the fish passage structure (figure 5).

The head of the fishing facility works as follows.

The operation service opens the shutter of the power unit and a water flow is fed through the tray 4 to the downstream channel, forming a “train” of speeds that attracts fish. At the same time, an additional water flow rate is also supplied to the bypass galleries 5, which is distributed to the extreme louvre plates 2. The hydraulic jets formed by the outlet openings 7, made on the end part of the louvre plates 2, facing the downstream side, make it possible to stabilize the planned location of the external borders of the attractive fish flow, and also intensify the process of attracting fish with different swimming ability.

The execution of the outlet holes 7 discretely in height of the louvre plates 2 allows you to create local hydraulic jets 12, which, when propagated, allow the fish to move in the stream before entering the tray 4. In addition, the jets 12 during their further distribution add an additional flow of water to their body, increasing the total mass of the stream involved in attracting fish.

The execution of the outlet round shape (Fig.6) allows you to use the classic cross-sectional shape of the flooded axisymmetric jets and their characteristics to achieve the goal - the formation of attracting fish flow and favorable hydraulic conditions before entering the tray 4.

The execution of the outlet openings 7 of a rectangular shape (Fig. 7) makes it possible to form flat hydraulic jets 12 oriented in a vertical plane, which does not interfere with the fish moving in the zone of their influence, and also contributes to the formation of a flow attracting the fish.

The implementation of the outlet openings 7 in the form of a vertical slit is an embodiment of the openings 7 and greatly simplifies the design of the water-distributing part of the louvre plates 2.

The supply of outlet openings 7 with external nozzles 8 makes it possible to increase the efficiency of the distribution of hydraulic jets in the downstream stream due to the formation of their initial sections (nozzle length 5-6 outlet diameters).

Supply of the end parts of the louvre plates 2 facing the downstream side with a system for saturating the hydraulic jets with atmospheric air, made in the form of perforated boxes 9, fixed along the end parts 6 of the louvre plates 2 and forming an air supply cavity 10, in which nozzles 8 are mounted, mounted on the inner surface of the boxes 9, allows you to pre-saturate the jet 12 with air coming from the atmosphere (Fig.11).

The physics of the saturation of jets 12 with atmospheric air is as follows.

When additional flow is fed into the inner space of the louvre plates 2 in the first 4-8 seconds, the hydraulic jets eject the volume of water enclosed between the end part 6 of the louvre plates 2 and the inner surface of the perforated boxes 9. Practically this volume is instantly activated and the hydraulic jets 12 actively eject air coming from the atmosphere. At the same time, water-air hydraulic jets expire from the outlet openings of nozzles 8, which make it possible to redistribute the attracting stream to the surface of the watercourse and create an intense attracting stream to attract fish that live mainly in surface horizons.

A variant of the operation of the head is possible, when an additional flow of water is fed into the interior of all the louvre plates 2 made hollow and connected to the hollow axes 3 of rotation. The uniform distribution of this flow rate is facilitated by the communication of the hollow axes 3 with the distributing manifold 11, which in turn communicates with the bypass galleries 5. In this case, a powerful flow of water is created at the entrance to the tray 4, which contributes to the intensive attraction of fish during the absence of the main attracting flow in the tray 4 (the operation of transferring fish to the upper pool is performed). The shape and configuration of the outlet openings 7 made in the inner louvre plates 2 are similar to the shape and configuration of the outlet openings 7 made in the outer louvre plates 2 (FIGS. 13, 14 and 15).

Regardless of the operating mode of the louvre system 1, the hydraulic structure of the stream, namely its external borders 14 (Fig. 16) characterize the fish attracting stream.

The proposed method and the head that implements it is one of the few designs that combine an integrated approach for the formation of a fish attracting stream at the entrance to the fish passage structure.

Sources of information

1. A.S. USSR No. 1703781 (USSR). IPC E 02 B 8/08. "Method for passing fish through a retaining structure and device for its implementation." Authors: Chistyakov A.A., Shkura V.N. and Cherkasov V.A. Publ. BI No. 1, 1992.

Claims (17)

1. The method of forming a fish attracting stream, which consists in turning the louvre plates at a predetermined angle with respect to the longitudinal axis of the fish passage structure, supplying the working water flow rate to the attraction by opening the power unit by a predetermined amount and forming the external boundaries of the attracting stream, characterized in that when forming the external boundaries of the attracting flow into the extreme louvre plates supply an additional flow of water with speeds exceeding the critical swimming speed of the fish to be attracted eniyu in fish passage construction, wherein on translation time accumulated in fish upstream supply additional expense in extreme louvred plate is not stopped, ensuring the continuity of the process of attracting fish in structure formation and stability of the external borders flow attracts fish. 2. The method according to claim 1, characterized in that when the additional flow rate is supplied, hydraulic jets flowing from the outlet openings of the end parts of the louvre plates facing the downstream are pre-saturated with air from the atmosphere, forming a water-air hydraulic stream. 3. The method of forming a fish attracting stream, which consists in turning the louvre plates at a predetermined angle with respect to the longitudinal axis of the fish passage structure, supplying the working water flow rate to the attraction by opening the power unit by a predetermined amount and forming the external boundaries of the attracting stream, characterized in that when forming the external boundaries of the attracting stream to all louvre plates serve an additional flow of water at speeds exceeding the critical swimming speed of the fish to be attracted entering the fish passage structure, forming a multi-gradient planned speed diagram at the entrance to the fish passage structure, while the transfer of accumulated fish to the upper pool does not stop the flow of additional flow into the louvre plates, ensuring the continuity of the process of attracting fish to the structure and the stability of the formation of the external borders of the fish attracting stream . 4. The method according to claim 3, characterized in that when the additional flow rate is supplied, the hydraulic jets flowing from the outlet openings of the end parts of the louvre plates facing the downstream side are pre-saturated with air from the atmosphere, forming a water-air hydraulic stream. 5. The head of the fish passage structure, comprising a louvre system with vertical louvre plates fixed on the axis of rotation, installed in the inlet section of the fish passage channel with the possibility of turning the louvre plates at an acute angle to the longitudinal axis of the fish passage structure by means of a drive, characterized in that the extreme louvre plates and their rotation axes adjacent to the side walls of the tray are hollow and communicated with each other, while the hollow axes are connected to bypass galleries powered from the upper pool, and the vertical end parts of the extreme louvered plates facing the lower pool are made with outlet openings. 6. The head according to claim 5, characterized in that the outlet openings are made discrete in height of the louvre plates. 7. The head according to claim 6, characterized in that the outlet openings are made round. 8. The head of claim 6, wherein the outlet openings are rectangular. 9. The tip according to claim 5, characterized in that the outlet openings are made in the form of a vertical slit. 10. The head according to claim 7, characterized in that the outlet openings are provided with nozzles made coaxially with the outlet openings. 11. The head according to claim 7, characterized in that the end part of the louvre plates facing the downstream side is provided with perforated boxes with nozzles, and the perforated boxes are fixed along the end part of the louvered plates with the formation of an air supply cavity in communication with the atmosphere, while the nozzle fixed on the inner surface of the perforated boxes, and the holes of the nozzles, perforated boxes and the end parts of the louvered plates are aligned. 12. The head according to claim 5, characterized in that the louvre plates and their axes located between the extreme louvre plates adjacent to the side walls of the tray are hollow and communicated by the distributing manifold with bypass galleries, while their end parts are made with outlet openings. 13. The head of claim 12, wherein the outlet openings are discrete in height of the louvre plates. 14. The head of claim 12, wherein the outlet openings are round. 15. The head of claim 12 or 13, characterized in that the outlet openings are rectangular. 16. The head of claim 12, or 13, or 14, characterized in that the outlet openings are provided with nozzles made coaxially with the outlet openings. 17. The head of claim 12, wherein the outlet openings are made in the form of a vertical slit.

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