RU2633556C2 - Complex fish protection device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: complex fish protection device includes at least one flow developer with nozzles that is positioned horizontally, or vertically, or horizontally and vertically at the same time. Each separate flow developer can be installed on any horizon and in any section line of a water source. The number of nozzle rows in each separate flow developer, and the number of nozzles in each individual row can be from 1 or more and vary within the same device. The installation angle and the nozzle diameter of each individual nozzle can be any and vary within the same device. The device includes an electric screen consisting of 1 or more cassettes, on which electric current is supplied, forming an electric field. Each individual electric screen cassette is represented by a set of plates, or bars, or rods, or a mesh fabric, made of electrically conductive material, which may have the vertical, horizontal or sloping arrangement, the rectilinear, curvilinear, or zigzag shape. The number of plates, or bars, or rods in each individual cassette of the electric screen can be from 2 or more and vary within the same device. The installation pitch and the inclination angle of the plates, rods or rods, the dimensions of the mesh fabric cells in each individual cassette of the electric screen can be any and vary within the same device. Each individual cassette of the electric screen can be installed on any horizon and in any section line of the water source. Wherein the cathode can be represented by one or more cassettes of the electric screen, and all the remaining or some of the remaining cassettes of the electric screen become anodes. Alternatively, each subsequent or several subsequent cassettes of the electric screen, or through one cassette or group of cassettes of an electric screen, or in staggered order, can become a cathode.

EFFECT: improving the operation efficiency of the device, reducing the probability of fish and debris entering the water intake, creating optimal hydraulic conditions for the transit flow, ensuring the removal of fish from the water intake area, reducing the probability of bigger fish entering the water intake.

3 cl, 27 dwg

Description

The claimed technical solution relates to the field of fisheries and can be used for directional movement of fish, mainly to protect zones of fish accumulation or their movement paths from getting fish into the water intake.

A known method of diverting fish from water intake structures, including the supply of water jets in the zone of accumulation of fish in front of the water intake front. To optimize the process of protecting fish and diverting them from the direct impact zone of hydroelectric power stations and other major sources of danger, water jets are supplied from a mobile jet generator, which is moved along the water intake front in places where fish are accumulated, and a local drift flow is organized in front of the mobile jet generator using water jets, in which fish are captured, held and moved from the source of danger to a safe place in the reservoir. A mobile jet generator in places of fish gathering is moved mainly at twilight and at night (see RF patent for invention No. 2354776, IPC EV 02/08, dated 09/08/2007).

A known method of protecting fish at water intakes from watercourses, including the supply of water by a group of stream formers from the field of water intake into the transit stream. In order to increase the efficiency of fish protection, water is supplied by a group of stream formers from the area of supply of water to the transit stream at the slopes of the fish and (or) water is supplied by another group of stream generators to the area of supply of water from the horizons of the transition stream where there is no fish slope (see copyright certificate USSR No. 1148935, IPC Е02В 8/08, dated February 21, 1983).

A disadvantage of the known designs is the lack of efficiency of the device, the possibility of fish and garbage getting into the water intake; both methods are aimed at preventing juvenile fish from entering the water intake and do not prevent larger fish from entering the water intake.

The objective of the proposed technical solution is to increase the efficiency of the device, reducing the likelihood of fish and garbage getting into the water intake, creating optimal hydraulic conditions (direction and speed) of the transit flow, ensuring the removal of fish from the water intake area, and reducing the likelihood of larger fish entering the water intake.

The task is achieved in that a comprehensive fish protection device is proposed, including at least one stream former with nozzles located in one or more rows on the stream former and an electric screen consisting of cassettes to which an electric current is supplied, forming an electric field.

The stream former of a comprehensive fish protection device can be located horizontally or vertically or horizontally and vertically at the same time (with the number of stream former in the device from 2 or more). Each individual flow former as part of an integrated fish protection device can be installed on any horizon and in any section of the water source (Fig. 1, 6, 10). The location of each individual flow generator is selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the location of the water intake and the claimed technical solution (direction and speed of currents in the water intake zone, fish distribution zone at the location of the fish protection device horizontally and vertically of the water source, dimensionally -specific composition of protected fish) to create the most optimal hydraulic conditions at the installation site of the device, cn special fish diversion from the water catchment area.

If there is no transit flow in the device location zone, it is advisable to place the stream generator vertically so that the jets flowing from the stream forming nozzles will create optimal hydraulic conditions (direction and speed) of the transit stream, ensuring the removal of fish from the water intake area.

With a horizontal arrangement of the flow former, water, air or an air-water mixture can be supplied to the nozzles of the flow former, providing redistribution of fish from the lower horizon of the stream to the upper and further from the water intake zone using an ascending jet, or air or water-air curtain.

With simultaneous horizontal and vertical arrangement of stream-forming agents within the same device (with the number of stream-forming agents in the device from 2 or more), an ascending jet, or air or water-air curtain formed by a horizontally located stream-forming device, provides redistribution of fish from the lower horizon to the upper horizon of the stream. Further, the jet curtain, formed by a vertically positioned stream former, ensures the removal of fish and garbage from the water intake area.

The number of rows of nozzles in each individual flow generator and the number of nozzles in each individual row can be from 1 or more and vary within the same device. The installation angle of each individual nozzle of the flow generator and the diameter of the nozzle of each individual nozzle can be any and vary within the same device. These parameters are selected depending on the hydraulic and ichthyological conditions at the installation site (direction and velocity of the currents in the area where the water intake and fish protection device are located, the fish habitat in the place where the fish protection device is located, both horizontally and vertically, of the water source, size and species composition of protected fish) for creating the most optimal hydraulic conditions at the installation site, contributing to the removal of fish from the zone of water intake.

To improve the efficiency of the device, the claimed technical solution further comprises an electric screen, consisting of cassettes, which are supplied with electric current, forming an electric field.

Each individual cassette of the electric screen is a set of plates, or rods, or rods, or mesh fabric made of electrically conductive material. The number of cassettes in the electric screen is from 1 or more. The number of plates, or rods, or rods in each individual cassette of the electric screen can be from 1 or more and vary within the same device. The plates, rods or rods that make up the cassettes of the electric screen can have a vertical, horizontal or inclined arrangement, have a rectilinear, curvilinear or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon, i.e. have any geometric shape. The installation step and the angle of inclination of the plates, rods or rods, mesh size of the mesh web in each individual cassette of the electric screen can be any and vary within the same device. These parameters are selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the area where the water intake and fish protection device are located, size and species composition of protected fish) to create the most optimal electric field parameters at the installation site contributing to the removal of fish from the water catchment area.

The installation of plates, rods or rods in cassettes of the electric screen at different angles to the approach flow, depending on the hydraulic conditions in the zone of functioning of the water intake, allows you to change the hydraulic structure of the flow, choosing the most optimal option, which is important when using behavioral electric fish protection devices, since there are no the possibility of creating a aligned hydraulic structure of the approach flow.

Each individual cassette of the electric screen as part of an integrated fish protection device can be installed on any horizon and in any section of the water source, depending on the hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the water intake area, fish habitat at the place where the fish protection device is located, horizontal and vertical water source, size and species composition of protected fish) to create the most optimal conditions at the installation site contributing to the removal of fish from the water catchment area.

The implementation of the cassettes in the form of a set of platinum, or rods, or rods, or mesh fabric creates a visual effect of a continuous impenetrable barrier for fish.

Options for creating an electric field can be different, based on the ichthyological situation in the area of the water intake, the alignment and the horizon of the placement and functioning of the device.

The cathode can be one or more cassettes of the electric screen, and all the remaining or some of the remaining cassettes of the electric screen become anodes. The cathode can be one or more plates, or one or more rods or rods in one cassette of an electric screen, and all or some of the remaining plates, rods or rods in a single cassette of an electric screen become anodes. The cathode can be each subsequent or several subsequent in the chain of cassettes of the electric screen, or each subsequent or several subsequent in the chain of plates of the cassette of the electric screen, or each subsequent or several subsequent in the chain of rods or rods of the cassette of the electric screen, or through one cassette or group of cassettes screen, either through one plate or group of plates of one cassette of an electric screen, or through one or a group of rods or rods of one cassette of an electric screen screen, or staggered.

The result is a “strong” cathode field, and a “weak” pulsating anode field, creating an extensive repellent zone, orienting and leading the fish away from the protected intake.

To increase the efficiency of the device, the complex fish protection device may additionally include at least one horizontal or vertical wall or horizontal and vertical walls at the same time. Moreover, each individual vertical and / or horizontal walls can be made blind or permeable and consist of separate plates. The number of vertical and / or horizontal walls in a complex fish protection device may be from 1 or more. The installation angle of each individual plate of a permeable horizontal or vertical wall to the center line of the integrated fish protection device and the installation step between each two separate plates can be any and vary within the same device. The number of vertical and / or horizontal walls in the device, the installation angle of each individual plate to the center line of the integrated fish protection device, and the installation step of each individual plate are determined depending on the design features of the water intake structure, hydraulic conditions at the installation site and the size and species composition of the protected fish .

The installation angle of each individual horizontal and / or vertical wall to the intake stream can be any and vary within the same device. The installation of horizontal and / or vertical walls at different angles to the approach flow, depending on the hydraulic conditions in the zone of functioning of the water intake, allows you to change the hydraulic structure of the stream, choosing the most optimal option to ensure the most efficient transportation of fish to a safe area of the water source.

The horizontal and / or vertical walls support the jet curtain, formed by a vertically positioned stream former, or the jet or air or water-air curtain, formed by a horizontally located stream former, which creates a stream (or curtain) that is more formed and more resistant to deformation when exposed to flows water of various directions and sizes, which ensures the removal of fish from the water intake area.

The horizontal and / or vertical walls contribute to cutting off the desired horizon or alignment of the stream, where young fish live, preventing it from entering the water intake structure and ensuring the removal of fish from the water intake area.

Each individual horizontal and / or vertical wall in the device can be placed on any horizon and in any section of the flow horizontally and vertically of the water source. The choice of the location of the horizontal and / or vertical walls depends on the design features of the water intake structure, hydraulic and ichthyological conditions at the location of the device (directions, flow rates, size and species composition of protected fish, fish distribution at the location of the fish protection device horizontally and vertically of the water source ) So, when they are placed in the upper horizon of the water source, fish and garbage are removed from the surface horizon of the water source; when located in the lower horizon - fish and garbage are removed from the lower horizon of the water source, etc. The role of a blind vertical and / or horizontal wall can be performed by the wall of a hydraulic structure.

The complex fish protection device may additionally include at least one filter screen, made in the form of a set of plates installed at an angle to the flow, or in the form of a mesh web. The plates that make up the filter screen can have a vertical, horizontal or inclined arrangement, have a rectilinear, curvilinear or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon, i.e. have any geometric shape. The installation angle of each individual filter screen to the flow can be any and vary within the same device. The step and angle of installation of each individual plate to the flow, the mesh of the mesh cloth in each individual filter screen can be any and vary within the same device. These parameters are selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the area where the water intake and fish protection device are located, size and species composition of protected fish) to create the most optimal hydraulic parameters at the installation site, contributing to the removal of fish from the water intake area.

Each separate filter screen as part of an integrated fish protection device can be installed on any horizon and in any section of the water source, depending on the hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the water intake area, the distribution of fish at the horizontal location of the fish protection device, and vertically of the water source, size and species composition of protected fish) to create the most optimal hydraulic conditions at the installation site Twa promoting withdrawal of fish from the water intake coverage.

When streams flow around the filter screen from the nozzles of the flow former, a stream is formed that contributes to the removal of fish outside the zone of influence of water intake. When the jet stream created by the stream former runs onto the plates or the mesh surface of the filter screen, turbulent disturbances form on the outer surface of the filter screen, which affect the behavior of the fish, contributing to their independent departure from the zone of the device and water intake. The implementation of the filter screen from plates installed at an angle to the intake flow, or from a mesh web creates a visual effect of a continuous impenetrable barrier for fish.

Distinctive features of the prototype of the claimed technical solution are as follows: the stream former of the integrated fish protection device can be placed horizontally or vertically or horizontally and vertically at the same time, with the horizontal arrangement of the stream generator, water, air or an air-water mixture can be supplied to the nozzles of the stream generator, the stream former in the complex fish protection device can be installed on any horizon and in any alignment of the water source, the amount rows of nozzles in each individual flow generator and the number of nozzles in each separate row can be from 1 or more and vary within the same device, the installation angle of each individual nozzle of the flow generator and the nozzle diameter of each individual nozzle can be any and vary within the same device; the device restrains the electric screen, consisting of cassettes, which are supplied with electric current, forming an electric field; each individual cassette of an electric screen is a set of plates, or rods, or rods, or a mesh cloth made of an electrically conductive material; the number of cassettes in the electric screen is from 1 or more, the number of plates, or rods, or rods in each individual cassette of the electric screen can be from 1 or more and vary within the same device, plate, rods or rods that make up the electric cassettes screen, can have a vertical, horizontal or inclined arrangement, have a rectilinear, curved or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon, i.e. have any geometric shape, installation step and the angle of inclination of the plates, rods or rods, mesh mesh size in each individual cassette of the electric screen can be any and vary within the same device, each individual cassette of the electric screen can be installed on any horizon and in any alignment water source, options for creating an electric field with an electric screen can be different; the device may further comprise at least one horizontal and / or vertical wall or horizontal and vertical walls at the same time, while the vertical and / or horizontal walls are made blind or permeable, consisting of separate plates, the installation angle of each individual plate is horizontal and / or vertical wall to the centerline of the device, the installation step between each two separate plates and the installation angle of each individual horizontal and / or vertical with The intake water can be any and vary within the same device, each individual horizontal and / or vertical wall can be installed on any horizon and in any section of the water source, the horizontal and / or vertical wall can be made in the form of a stationary structure and fixed to a hydraulic structure or on supports, or in the form of a floating structure and installed on floating pontoons; the device may additionally include at least one filter screen made in the form of a set of plates installed at an angle to the flow, or in the form of a mesh web, while the plates that make up each individual filter screen can have vertical, horizontal or inclined arrangement, have a rectilinear, curvilinear or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon, the angle of installation of each individual filter screen to the stream can be any and vary within one device, the step and angle of installation of each individual plate to the flow, mesh mesh in each individual filter screen can be any and vary within one device, each individual filter screen as part of an integrated fish protection device can be installed on any horizon and in any alignment of the water source.

The essence of the proposed technical solution is illustrated by the figures:

in FIG. 1 schematically shows a particular case of the device (as part of the device 1 vertical flow generator, 1 horizontal flow generator, 1 vertical electric screen, 1 horizontal wall, 1 vertical filter screen);

in FIG. 2 schematically shows a special case of the device (as part of the device 1 vertical flow generator, 1 horizontal flow generator, 1 vertical electric screen, 2 horizontal walls, 1 vertical wall, 1 vertical filter screen);

in FIG. Figure 3 schematically shows a particular case of the device (as part of the device 1 vertical flow generator, 1 vertical electric screen, 1 horizontal wall, 1 vertical filter screen);

in FIG. 4 schematically shows a particular case of the device (as part of the device 1 vertical flow generator, 1 horizontal flow generator, 1 horizontal electric screen, 1 horizontal wall, 1 vertical filter screen);

in FIG. 5 schematically shows a particular case of the device (as part of the device 1 vertical flow generator, 1 horizontal electric screen, 1 horizontal wall, 1 vertical filter screen);

in FIG. 6-9 schematically show particular cases of the device when placing the vertical and horizontal elements of the device at different horizons and in different sections of the flow of the water source horizontally and vertically;

in FIG. 10-12 schematically shows possible layout options for the flow former (s) and cassettes (s) of the electric screen as part of the device.

A comprehensive fish protection device (Fig. 1-10), comprising at least one stream former 1 with nozzles 2 located in one or more rows on the stream former 1, and an electric screen 3, consisting of cassettes to which electric current is supplied, forming electric field.

The stream former 1 of the integrated fish protection device can be located horizontally or vertically or horizontally and vertically at the same time (Fig. 1) (with the number of stream former 1 in the device from 2 or more). Each individual stream former 1 as part of an integrated fish protection device can be installed on any horizon and in any section of the water source (Fig. 1, 6, 10). The location of each individual flow former 1 is selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the location of the water intake 7 and the claimed technical solution (direction and speed of the currents in the water intake zone, the distribution of fish in the place of placement of the fish protection device horizontally and vertically of the water source, size and species composition of protected fish) to create the most optimal hydraulic conditions at the installation site, method bstvuyuschih withdrawal of fish from the water intake coverage.

If there is no transit flow in the device location zone, stream former 1 should be placed vertically (Fig. 1) so that the jets flowing from the nozzles of stream former 1 will create optimal hydraulic conditions (direction and speed) of the transit stream, ensuring fish drift from the coverage area water intake 7.

With a horizontal arrangement of stream former 1, water, air or an air-air mixture 4 (Fig. 1) can be supplied to nozzles 2 of stream former 1 (Fig. 1), providing redistribution of fish from the lower horizon of the stream to the upper and further from the lower horizon of the stream using an ascending jet, or air or air-curtain 4 water intake zones 7.

With the simultaneous horizontal and vertical arrangement of flow generators 1 within the same device (Fig. 1) (with the number of flow generators 1 in the device from 2 or more), an ascending jet, or air, or air-air curtain 4, formed by a horizontally located flow generator 1, provides redistribution fish from the lower horizon to the upper horizon of the stream. Further, the jet curtain, formed by a vertically located flow-forming device 1, provides the demolition of fish and garbage from the zone of action of the intake 7.

The number of rows of nozzles 2 in each individual flow generator 1 and the number of nozzles 2 in each separate row can be from 1 or more and vary within the same device. The installation angle of each individual nozzle 2 of the flow former 1 and the diameter of the nozzle of each individual nozzle 2 can be any and vary within the same device. These parameters are selected depending on the hydraulic and ichthyological conditions at the installation site (direction and velocity of the currents in the area where the water intake and fish protection device are located, the fish habitat in the place where the fish protection device is located, both horizontally and vertically, of the water source, size and species composition of protected fish) for creating the most optimal hydraulic conditions at the installation site, contributing to the removal of fish from the zone of water intake.

To improve the efficiency of the device, the claimed technical solution further comprises an electric screen 3, consisting of cassettes, to which an electric current is supplied, forming an electric field.

Each individual cassette of the electric screen 3 is a set of plates, or rods, or rods, or a mesh cloth made of an electrically conductive material. The number of cassettes in the electric screen 3 is from 1 or more. The number of plates, or rods, or rods in each individual cartridge of the electric screen 3 can be from 1 or more and vary within the same device. The plates, rods or rods that make up the cassettes of the electric screen 3 can have a vertical (Fig. 1), horizontal (Fig. 4) or inclined arrangement, have a rectilinear (Fig. 1), curvilinear or zigzag shape, have a circle in cross section , triangle, square, rectangle, polygon, i.e. have any geometric shape. The installation step and the angle of inclination of the plates, rods or rods, mesh size of the mesh web in each individual cassette of the electric screen 3 can be any and vary within the same device. These parameters are selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the area where the water intake and fish protection device are located, size and species composition of protected fish) to create the most optimal electric field parameters at the installation site contributing to the removal of fish from the catchment area 7.

The installation of plates, rods or rods in the cassettes of the electric screen 3 at different angles to the approach flow depending on the hydraulic conditions in the zone of functioning of the intake 7 allows you to change the hydraulic structure of the flow, choosing the most optimal option, which is important when using behavioral electric fish protection devices, since operation there is no possibility of creating a aligned hydraulic structure of the approach flow.

Each individual cassette of the electric screen 3 as part of an integrated fish protection device can be installed on any horizon and in any section of the water source (Fig. 1, 4, 6, 8, 10) depending on the hydraulic and ichthyological conditions at the installation site of the device (direction and speed of currents) in the zone of water intake, the fish habitat in the place of placement of the fish protection device horizontally and vertically of the water source, size and species composition of protected fish) to create the most optimal conditions in the place devices that facilitate the removal of fish from the water catchment area.

The location of the electrodes in different water horizons, you can adjust the intensity of the electric field generated by the device at different horizons of the stream. The location of the electrodes at one depth or another or in one or another section of the water source depends on the size and type of fish inhabited in this water area and the nature of their distribution. For example, large fish are quite sensitive to the minimum effect of the electric field, therefore, first of all, it is the fish of larger sizes that are directed by the electric field created by the cassettes of the electric screen 3.

The implementation of the cassettes in the form of a set of platinum, or rods, or rods, or mesh fabric creates a visual effect of a continuous impenetrable barrier for fish.

Options for creating an electric field can be different, based on the ichthyological situation in the area of the water intake, the alignment and the horizon of the placement and functioning of the device.

The cathode may be one or more cassettes of the electric screen 3, and all the remaining or some of the remaining cassettes of the electric screen become anodes. The cathode can be one or more plates, or one or more rods or rods in one cassette of the electric screen 3, and all or some of the remaining plates, rods or rods in one cassette of the electric screen 3 become anodes. The cathode can be each subsequent or several subsequent in the chain of cassettes of the electric screen 3, or each subsequent or several subsequent in the chain of plates of the cassette of the electric screen 3, or each subsequent or several subsequent in the chain of rods or rods of the cassette of the electric screen 3, or through one cassette or a group of cassettes of the electric screen 3, either through one plate or a group of plates of one cassette of the electric screen 3, or through one or a group of rods or rods of one cassette electric screen 3, or staggered.

The result is a “strong” cathode field, and a “weak” pulsating anode field, creating an extensive repellent zone, orienting and leading the fish away from the protected intake 7.

In cases of the use of electric pickups in the water area where a fish with a body length of less than 50 mm lives, the efficiency of the functioning of the pickups decreases sharply. When operating a comprehensive fish protection device based on a complex combination of the action of stream former 1, aimed at creating optimal hydraulic conditions (direction and speed) of the transit stream, ensuring the removal of fish from the water intake area, and the electric field created by the electric screen 3, which reduces the likelihood of getting into the water intake larger fish, the efficiency of the device as a whole increases even when it is used in a reservoir where young fish of small sizes live erov.

The layout of the stream former 1 and the cassettes of the electric screen 3 as part of an integrated fish protection device may be different (Fig. 10-12).

The flow former (s) 1 can be located directly in front of the electric screen 3 (Fig. 11a; 12zh-k). The stream-forming agent (s) 1 can be located in the previous section in front of the electric screen 3 (Fig. 11b, d; 12c, e) or in the subsequent section (Fig. 11c, d; 12d, e). Stream-forming agent (s) 1 can be located in one alignment above or below the electric screen 3 (Fig. 11e, g; 12a, b).

To increase the efficiency of the device, the complex fish protection device may additionally include at least one horizontal or vertical wall 5 (Fig. 1) or horizontal and vertical walls 5 at the same time (Fig. 2). Moreover, each individual vertical and / or horizontal wall 5 can be made blind or permeable and consist of separate plates. The number of vertical and / or horizontal walls 5 in the complex fish protection device may be from 1 or more. The installation angle of each individual plate of a permeable horizontal or vertical wall 5 to the center line of the integrated fish protection device and the installation step between each two separate plates can be any and vary within the same device. The number of vertical and / or horizontal walls 5 in the device, the installation angle of each individual plate to the center line of the integrated fish protection device, and the installation step of each individual plate are determined depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed currents in the zone of the water intake, fish habitat in the place of placement of the fish protection device horizontally and vertically of the water source, azmerno-protected fish species composition).

The horizontal and / or vertical walls 5 can be made in the form of a stationary structure and can be fixedly mounted to the hydraulic structure (Fig. 1) either on supports or in the form of a floating structure and can be installed on floating pontoons, and can be installed on any part of the pontoon.

The installation angle of each individual horizontal and / or vertical wall 5 to the intake flow can be any. The installation of horizontal and / or vertical walls 5 at different angles to the approaching stream, depending on the hydraulic and ichthyological conditions in the zone of functioning of the intake, allows you to change the hydraulic structure of the stream, choosing the most optimal option to ensure the most efficient transportation of fish to a safe area of the water source.

The horizontal and / or vertical walls 5 form a support for the jet curtain, formed by a vertically arranged flow generator 1, or a jet or air or water-air curtain 4 formed by a horizontally located flow generator 1, as a result, a stream (or curtain) is created that is more formed and more resistant to deformation when exposed on it water flows of various directions and sizes, which ensures the removal of fish from the zone of water intake 7.

The horizontal and / or vertical walls 5 contribute to cutting off the desired horizon or alignment of the stream where the young fish live, preventing it from entering the water intake structure 7 and ensuring the removal of fish from the zone of action of the water intake 7.

Each individual horizontal and / or vertical wall 5 in the device can be placed on any horizon and in any section of the flow horizontally and vertically of the water source (Fig. 2). The choice of location of each individual horizontal and / or vertical walls 5 depends on the design features of the water intake structure, hydraulic and ichthyological conditions at the device location (directions, current speeds, size and species composition of protected fish, fish distribution in the horizontal position of the fish protection device and vertically of the water source). So, when placing the wall 5 in the upper horizon of the water source, fish and garbage are removed from the surface horizon of the water source; when located in the lower horizon - fish and garbage are removed from the lower horizon of the water source, etc. The role of a blind vertical and / or horizontal wall 5 can be performed by the wall of a hydraulic structure (Fig. 1).

The complex fish protection device may additionally include at least one filter screen 6 (Fig. 1), made in the form of a set of plates installed at an angle to the flow, or in the form of a mesh web. The plates that make up the filter screen 6 can have a vertical, horizontal or inclined arrangement, have a rectilinear, curvilinear or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon, i.e. have any geometric shape. The installation angle of each individual filter screen 6 to the stream can be any and vary within the same device. The step and angle of installation of each individual plate to the flow and the axial line of the filter screen, mesh mesh in each individual filter screen 6 can be any and vary within the same device. These parameters are selected depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the area where the water intake and fish protection device are located, size and species composition of protected fish) to create the most optimal hydraulic parameters at the installation site, contributing to the removal of fish from the zone of water intake 7.

Each individual filter screen 6 as part of an integrated fish protection device can be installed on any horizon and in any section of the water source (Fig. 1, 6) depending on the design features of the water intake structure, hydraulic and ichthyological conditions at the installation site (direction and speed of currents in the zone the location of the water intake, fish habitat at the location of the fish protection device horizontally and vertically of the water source, the size and species composition of the protected fish) to create its optimum hydraulic conditions in the place of installation of the device to facilitate withdrawal of the fish from the water intake steps 7 zone.

When 6 jets flow around the filter screen from nozzles 2 of stream former 1, a stream is formed that contributes to the removal of fish outside the zone of influence of water intake 7. When the stream created by stream former 1 flows onto plates or the mesh surface of filter screen 6, turbulent disturbances are formed on the outer surface of the filter screen 6, which affect the behavior of fish, contributing to their independent departure from the zone of action of the device and water intake 7. The implementation of the filter screen 6 of the plates, installed claimed at an angle to the flow of water intake or a mesh fabric creates the visual effect of a solid impenetrable barrier for fish.

The task, which is to increase the efficiency of the device, reduce the likelihood of fish and garbage getting into the water intake, create optimal hydraulic conditions (direction and speed) of the transit flow, ensure the removal of fish from the water intake area, and reduce the likelihood of larger fish entering the water intake, is .

The application of the claimed technical solution allows the use of elements known in the industry.

The technical result of the claimed technical solution is to increase the efficiency of the device, creating optimal hydraulic conditions (direction and speed) of the transit flow in the device’s area of operation, ensuring the removal of fish from the water intake area.

This technical solution can be used to protect the zones of accumulation of fish or their movement paths from the ingress of fish into the water intake.

Claims (3)

1. A comprehensive fish protection device comprising at least one stream former with nozzles, characterized in that the stream former is horizontally or vertically or horizontally and vertically at the same time, with a horizontal arrangement of the stream former, water, air or an air-water mixture can be supplied to the nozzles of the stream former, each separately the flow former can be installed on any horizon and in any section of the water source, the number of rows of nozzles in each individual flow The index and the number of nozzles in each individual row can be from 1 or more and vary within one device, the installation angle and nozzle diameter of each individual nozzle can be any and vary within one device, the device includes an electric screen consisting of 1 or more cassettes , to which electric current is supplied, forming an electric field, each individual cassette of an electric screen is a set of plates, or rods, or rods, or a mesh cloth made of an electrical wire The amount of material that can have a vertical, horizontal or inclined arrangement, a rectilinear, curvilinear or zigzag shape, the number of plates, or rods, or rods in each individual cassette of an electric screen can be from 2 or more and vary within the same device, installation step and the angle of inclination of the plates, rods or rods, mesh sizes of the mesh web in each individual cassette of the electric screen can be any and vary within the same device, each individual the cassette of the electric screen can be installed on any horizon and in any section of the water source, while the cathode can be one or more cassettes - plates, or rods, or rods - of the electric screen, and all the remaining or some of the remaining cassettes - plates, or rods, or the rods in one cassette — the electric screen — become anodes, or each subsequent or several cassettes that follow in the chain — plates, either rods, or rods — an electric screen, or ithout one cassette - plate or bar or rod - or a group of cassettes - plates or bars or rods - electrical screen or staggered. 2. A comprehensive fish protection device, including at least one stream former placed on any horizon and in any section of the water source, installed horizontally or vertically or horizontally and vertically at the same time, with nozzles located in one or several rows on the stream former, to which it can be supplied water, air or a water-air mixture, and an electric screen consisting of 1 or more cassettes made of electrically conductive material in the form of a set of plates, or rods, or rods, for a mesh web to which electric current is supplied, forming an electric field, characterized in that the device further comprises at least one horizontal and / or vertical wall or horizontal and vertical walls at the same time, with each individual vertical and / or horizontal wall are made deaf or water-permeable, consisting of separate plates, the installation angle of each individual plate of a permeable horizontal and / or vertical wall to the center line of the device, step the installation between each two separate plates and the installation angle of each individual horizontal and / or vertical wall to the water intake flow can be any and vary within the same device, each individual horizontal or vertical wall can be installed on any horizon and in any section of the water source, horizontal and / or vertical walls can be made in the form of a stationary structure and fixedly mounted to a hydraulic structure or on supports, or in the form of a floating structure and installed on floating pontoons. 3. A comprehensive fish protection device, including, placed on any horizon and in any section of the water source, at least one stream former, installed horizontally or vertically or horizontally and vertically at the same time, with nozzles located in one or more rows on the stream former, on which water, air or water-air mixture, and an electric screen consisting of 1 or more cassettes made of electrically conductive material in the form of a set of plates, or rods, or rods, or mesh cloth, which is supplied with electric current, forming an electric field, characterized in that the device further comprises at least one filter screen made in the form of a set of plates installed at an angle to the flow, or in the form of a mesh cloth, the plates of each individual filter screen can have a vertical, horizontal or inclined arrangement, a rectilinear, curvilinear or zigzag shape, in cross section have a circle, triangle, square, rectangle, polygon ik, the angle of installation of each individual filter screen to the flow, the step and angle of installation of each individual plate to the flow and the axial line of the filter screen, mesh mesh in each individual filter screen can be any and vary within the same device, each individual filter screen can be installed on any horizon and in any alignment of the water source.

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