RU2404323C1 - Device for protection of water intake against fish and garbage ingress - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device is arranged in the form of waterproof wall, which protects water receiving window against the main watercourse. Waterproof wall represents a dihedral surface with single rib, which is shaped in plan as a broken line consisting of two links that form a linear angle of dihedral angle between each other. One end of broken line is connected to coastal edge of the main watercourse upstream relative to water receiving window, and the second end stays free, to form narrow channel with coastal edge of the main watercourse downstream relative to water receiving window. At the same time upstream face of waterproof wall forms a blunt angle of less than 180° in plan with upstream coastal edge, and in downstream face of waterproof wall there is one or more through holes with systems of jet-forming nozzles. Jet-forming heads are connected with distributing headers provided inside waterproof wall. Through holes are arranged opposite to water receiving window, besides jet-forming nozzles of through holes are arranged at the side of the main watercourse and are directed towards the main watercourse. At the same time waterproof wall faces main watercourse by its dihedral angle.

EFFECT: significantly simplified layout of water intake, improved reliability of its operation and efficient protection of young fish against ingress into water intake.

12 cl, 14 dwg

Description

The invention relates to hydraulic engineering, and in particular to devices designed to protect surface water intake structures, water intake of hydroelectric power stations and other deep water intakes from the ingress of fish and debris.

Known fish protection device of the water intake structure [1], including a culvert screen, a water supply pipe, main and additional jet forming nozzles, where additional nozzles serve to periodically change the position of the hydraulic jets relative to the intake front.

The disadvantages of this fish protection device are the low efficiency of protecting juvenile fish from getting into the water intake facilities, as well as the low delay of garbage in front of the water intake structure.

A known device for controlling the water withdrawal mode [2], including a water intake in communication with the watercourse and located on the edge of the coastal edge, suction nozzles connected to the pump, a flow former and means for forming a hydraulic jet in the watercourse, which is made in the form of a channel with a pressureless flow mode. The output of the means for forming a hydraulic stream in a watercourse is located upstream of the water inlet, with the marks of the bottom of the channel and watercourse coinciding, and the flow of water is located downstream of the water inlet and is oriented downstream of the watercourse.

The disadvantages of this device for controlling the water withdrawal mode are the design complexity and insufficiency of the created hydraulic conditions in the zone of influence of the water intake for the effective protection of juvenile fish from getting into the water intake, as well as the inability to remove garbage from the suction pipes.

Known fishbait device including an ejector installation with a central inlet [3]. The ejector installation is installed vertically and coaxially with the fish receiving part of the reservoir made in the form of a cylindrical well, and the outlet head of the pressure conduit is oriented upward in the direction of the fish outlet and equipped with a jet forming nozzle made at an acute angle to the pressure conduit, and the inlet part of the ejector installation is made in the form of a box, installed coaxially with a pressure conduit and having two slotted fish receiving holes located horizontally in diametrically opposite end parts an orob having rotation around a vertical axis by means of jet thrust created by nozzles connected to the pressure line of the ejector and made asymmetrically with slotted fish receiving holes, while the upper edge of the well is inclined towards the fish outlet located at the level of the upper edge and made in the form of a ring-shaped tray coaxial to the well and axis of the ejector installation.

The disadvantage of this fish and fish removal device is the complexity of the design, high operating costs and low efficiency of the removal of fish into the fish.

The closest in technical essence is the entrance head of the fish passage [4], which includes the lower part of the fish passage located in the lower pool, made in the form of a stepped or inclined tray or channel with a longitudinal slope towards the upper pool, containing vertical dividing walls and an input dividing wall, forming the entrance chamber of the fish passage, with the floating holes of rectangular, square or round shapes placed in them along the entire width of the fish passage chambers, while the perimeter of the holes is located the wives are jet-forming nozzles at an angle or parallel to the axis of the holes equipped with barriers, so that the nozzles are located inside the exit portions of the inlet hole formed by the visors and are parallel to the plane of the adjacent shielding wall of the barrage, and the nozzle outlet openings are located directly in the inlet holes between the planes of the side surfaces transverse dividing walls or in autonomous channels. The input dividing wall of the fish passage of the inlet head of the fish passage with the inlet hole is made in plan in an arc of a circle to form a cylindrical surface, and the inlet hole is located along the entire length of the inlet separation wall of the fish passage of the inlet head of the fish passage.

The disadvantage of this design is the inability to use it to protect the intake structure from ingress of young fish and garbage.

The aim of the invention is the creation of a new device for protecting the water intake, which provides effective protection of the water intake structure from the ingress of fish and its young, as well as natural and household waste.

The invention consists in the following.

According to claim 1 of the claims. The implementation of the waterproof wall that encloses the intake window from the main watercourse, in the form of a two-sided surface with one edge, which in the plan view has the shape of a broken line consisting of two links forming a linear angle of the two-sided angle between them, will allow to obtain a streamlined head of the water intake structure and provide reliable protection of the water intake window of the water intake from river sediments, garbage, fish and its young, moving downstream of the main watercourse. Due to the fact that in the plan view the waterproof wall is connected at one end to the coastal edge of the main watercourse upstream of the water intake window, and its second end remains free, forming a narrow strait with the coastal edge of the main watercourse downstream of the water intake window, they provide power to the water intake from section of the main watercourse, where the concentration of fish, garbage and river sediment is minimal. The design of the device for protecting the water intake with the upstream side of the waterproof wall, which forms an obtuse angle less than 180 ° in the plan view with the upstream coastal edge, where one or more passage openings with jet-forming nozzle systems are made in the downstream face of the waterproof wall, and the jet-forming nozzles of the through holes are located on the side of the main watercourse and directed towards the main watercourse, while waterproof with the tenka with its dihedral angle also faces the main watercourse, will allow for an efficient transit garbage-discharge flow that will remove fish and debris entering the inside of the device to protect the intake, as well as settled debris, algae and the formation of a water intake window from the filter screen downstream of the main watercourse relative to the intake protection device.

According to claim 2 of the claims. The implementation of square-shaped access holes will allow you to get a few waste collection flows.

According to claim 3 of the claims. The implementation of the round-shaped passage openings will allow you to get the same effect as in the case of claim 2, however, in this case, the garbage collection flow will have a more uniform velocity field over the entire area of the passage opening.

According to claim 4 of the claims. The execution of the through holes of a rectangular shape will allow the formation of through holes of any width. In this case, we obtain one or more waste collection flows of any width, up to the width of a larger width of the intake opening.

According to claim 5, claims. The implementation of the downstream face of the waterproof wall parallel to the plane of the filter screen of the intake window will allow a more uniform flow structure to be formed in the inner region of the intake protection device, which will improve the cleaning of the filter screen of the intake window from debris, algae and formations deposited on it.

According to claim 6, claims. The implementation of the through hole in the waterproof wall of a smaller width compared with the width of the intake window will allow the formation of garbage discharge in the inner area of the device to protect the intake of a smaller width than the intake flow. In this case, the garbage discharge will not have any effect on the operation of the intake.

According to claim 7 of the claims. Making a through hole in a waterproof wall of the same width compared to the width of the intake window will allow the formation of a waste-discharge flow in the inner region of the device to protect the intake of the same width, as well as the intake flow. At the same time, the garbage discharge branch will cover the entire width of the water intake window.

According to claim 8 of the claims. The implementation of the through hole in the waterproof wall of a larger width compared with the width of the intake window will allow the formation of garbage discharge in the inner area of the device to protect the intake of a wider width than the intake flow. In this embodiment, the garbage collection flow will cover the entire internal area of the device to protect the intake.

According to claim 9, the claims. The implementation of the upper and lower edges of the through-hole in the waterproof wall at the same level with the corresponding edges of the water intake window will allow the formation of a waste-discharge flow at the same level with the intake flow.

According to claim 10 of the claims. The implementation of the upper edge of the passage hole in the waterproof wall above the level of the upper edge of the water intake window will allow the formation of garbage-discharge flow above the level of the intake flow.

According to claim 11, the claims. The implementation of the lower edge of the passage hole in the waterproof wall below the level of the lower edge of the water intake window will allow the formation of garbage-discharge flow below the level of the intake flow.

According to paragraph 12 of the claims. The implementation of the upper edge of the through-hole in the waterproof wall above the level of the upper edge of the water intake window and the implementation of the lower edge of the through-hole in the waterproof wall below the level of the lower edge of the water intake window will allow the formation of a waste discharge flow above and below the level of the intake flow.

The solution to this problem is achieved by creating a new design of the device to protect the intake from fish and garbage. Graphic material that explains the essence of the invention is presented in the following figures:

figure 1 - diagram of a device for protecting the intake from getting into it fish and garbage in a plan view;

figure 2 - the same, made several through holes;

figure 3 - the same, located downstream the face of the waterproof wall is made parallel to the plane of the filter screen of the water intake window;

figure 4 - the same, the through hole in the waterproof wall is made of the same width compared with the width of the water intake window;

figure 5 - the same, the through hole in the waterproof wall is made of a larger width compared with the width of the water intake window;

6 is a diagram of a device for protecting the water intake from getting fish and garbage into it in the section with a vertical plane, the through hole is made at the same level with the water intake window;

Fig.7 is the same, the upper edge of the through hole in the waterproof wall is made above the level of the upper edge of the water intake window;

Fig.8 is the same, the lower edge of the through hole in the waterproof wall is made below the level of the lower edge of the water intake window;

Fig.9 is the same, the upper edge of the through hole in the waterproof wall is made above the level of the upper edge of the water intake window, while the lower edge of the through hole in the waterproof wall is also made below the level of the lower edge of the water intake window;

figure 10 is a view of the through holes in the waterproof wall from the side of the main watercourse, the through holes are made square in shape;

11 is the same, the through holes are made round;

Fig - the same, the through holes are made in a rectangular shape;

Fig. 13 is a schematic diagram of a plan view of a device for protecting a water intake from getting fish and garbage into it with one through hole;

Fig.14 is the same, with several through holes.

A device for protecting the water intake from getting fish and garbage into it is placed near the coastal edge 1 of the main watercourse 2 (Figs. 1-5, 13-14). The device includes a waterproof wall 3, enclosing the water intake window 4 from the main watercourse 2. The waterproof wall 3 of the device for protecting the water intake structure is a two-sided surface with one edge, which in plan view has the shape of a broken line consisting of two links forming between is the linear angle α of the dihedral angle, and the waterproof wall 3 with this dihedral angle α is facing the main watercourse 2. One end of the polyline is connected to the coastal edge 1 the main watercourse upstream with respect to the water intake window 4, and the second end remains free, forming a narrow strait 5 with the coastal edge 1 of the main watercourse 2 downstream relative to the water intake window 4. The upstream face of the waterproof wall 3 forms a plan view with upstream by the coastal edge 1 obtuse angle β less than 180 °. In the downstream face of the waterproof wall 3 opposite the water intake window 4, one (several Figs. 1, 3-5, 13) or several passage openings 6 (Figs. 2, 14) are made with systems of jet nozzles 7 (Figs. 6- 9), and the jet-forming nozzles 7 of the through holes 6 are located on the side of the main stream 2 and directed towards the main stream 2. The role of the shielding walls 8 of the barrier visor is played by the faces of the outlet part of the through hole 6 (Figs. 6-12). The power of the jet-forming nozzles 7 is carried out by means of distributing headers 9, made in a waterproof wall 3 (Fig.6-9).

In addition, the through holes 6 can be made square in shape (figure 10).

In addition, the through holes 6 can be made round in shape (11).

In addition, the through holes 6 can be made rectangular in shape (Fig.12).

In addition, the downstream side of the waterproof wall 3 can be parallel to the plane of the filter screen 10 of the water intake window 4 (FIG. 3).

In addition, the through hole 6 in the waterproof wall 3 can be made smaller than the width of the water intake window 4 (figure 3).

In addition, the through hole 6 in the waterproof wall 3 can be made of the same width compared to the width of the water intake window 4 (figure 4).

In addition, the through hole 6 in the waterproof wall 3 can be made wider than the width of the water intake window 4 (figure 5).

In addition, the upper and lower edges of the passage hole 6 in the waterproof wall 3 can be made at the same level with the corresponding edges of the water intake window 4 (Fig.6).

In addition, the upper edge of the passage hole 6 in the waterproof wall 3 can be made above the level of the upper edge of the water intake window 4 (Fig.7).

In addition, the lower edge of the passage hole 6 in the waterproof wall 3 can be made below the level of the lower edge of the water intake window 4 (Fig. 8).

In addition, the upper edge of the passage hole 6 in the waterproof wall 3 can be made above the level of the upper edge of the intake window 4, while the lower edge of the passage hole 6 in the waterproof wall 3 can also be made below the level of the lower edge of the intake window 4 (Fig. 9) .

A device to protect the intake from getting fish and garbage into it works as follows.

When you turn on the pumping station 11 for water intake to the consumer, a water intake flow 12 is formed (Fig.13-14). A small part of the flow rate for consumption needs is taken and fed through distributing manifolds 9, made inside the waterproof wall 3, into the system of jet-forming nozzles 7 through holes 6, which form hydraulic jets 13 (Fig.6-14). Hydraulic jets 13, interacting with each other, form, depending on the number of through holes 6, one (Fig. 13) or several total flows 14 (Fig. 14). The total flows 14 from the side of the main watercourse 2 behind the waterproof wall 3 form a transit garbage-discharge stream 15. The garbage-discharge stream 15 discharges fish and its young through the passage 6 and also the debris that has fallen into the inner region 16 of the device for protecting the water intake, downstream of the main stream 2 regarding a device for protecting the water intake. In addition, the intake 12 and the waste collecting current 15 contribute to the formation in the inner region 16 of the device for protecting the intake of the whirlpool region 17, which separates the settled debris, algae and the formation from the filter screen 10 of the intake window 4. Separated debris, algae and formations from the filter screen 10 also by means of the waste-discharge current 15, it is discharged downstream of the main watercourse 2 relative to the device for protecting the intake. The water is drawn to the consumer through a narrow strait 5 from the whirlpool region 18 formed by the garbage collection stream 15, which is free from the presence of fish and garbage.

The present invention allows to significantly simplify the layout of the water intake, to increase the reliability of its operation and the effectiveness of protecting juvenile fish from getting into the water intake. When implementing a device for protecting water intake, the use of mesh screens and moving elements that injure fish is not required. In the case of using this device, the fish and its juveniles protected and diverted to safe areas of the reservoir are not injured and remain viable.

Information sources

1. A.S. 1191517 USSR, IPC ⁴ Е02В 8/08. Fish protection device of the water intake structure / V.A. Kuliabko, A.A. Sivkov, V.M. Sinyavskaya, E.N. Gavrilov (USSR). - No. 3730505 / 29-15; stated on 04/20/84; Publ. 11/15/85, Bull. No. 42. - 3 p.

2. Pat. 2245413 RF, IPC ⁷ Е02В 8/08, 9/04. The method of controlling the water withdrawal regime and its device implementing / N.A. Ivanova, V.N. Shkura, V.N. Shkura, A.A. Chistyakov (RF). - No. 2003113371/03; claimed May 6, 2003; publ. January 27, 2005, Bull. No. 2. - 8 p.

3. Pat. 2250298 RF, IPC ⁷ Е02В 8/08. A method of transporting juvenile fish to a fish breeder and a fish bait and fish breeder carrying out it / A.A. Chistyakov, A.V. Novoydarsky, V.N. Shkura (RF). - No. 2003121539/03; claimed 10.07.2003; publ. 04/20/2005, Bull. No. 11. - 13 p.

4. Pat. 2337210 RF, IPC ⁸ Е02В 8/08. Entrance head of the fish passage / O.G. Vvedensky (RF). - No. 2007106987/03 of the Russian Federation; claimed 02/26/2007; publ. 10/27/2008, Bull. No. 30. - 9 p.

Claims (12)

1. Device for protecting the water intake from getting fish and debris into it, made in the form of a waterproof wall with a through hole with a system of jet-forming nozzles that communicate with distributing collectors made inside the waterproof wall, characterized in that the waterproof wall enclosing the water intake window from the main watercourse, is a two-sided surface with one edge, which in plan view has the shape of a broken line consisting of two links forming a linear l of a dihedral angle, one end of the broken line is connected to the coastal edge of the main watercourse upstream with respect to the water intake window, and the second end remains free, forming a narrow strait with the coastal edge of the main watercourse downstream of the watercourse window, while the upstream side is waterproof forms a wall in a plan view with an upstream coastal edge obtuse angle less than 180 °, and in the downstream face of the waterproof wall one or several passage openings with jet-forming nozzle systems in such a way that the orifice is located opposite the water intake window, and the jet-forming nozzle of the through-hole is located on the side of the main watercourse and directed towards the main watercourse, while the watertight wall also faces its dihedral angle towards the main watercourse. 2. The device according to claim 1, characterized in that the through holes are made square in shape. 3. The device according to claim 1, characterized in that the through holes are made round. 4. The device according to claim 1, characterized in that the through holes are made in a rectangular shape. 5. The device according to claim 1, characterized in that the downstream face of the waterproof wall is parallel to the plane of the filter screen of the water intake window. 6. The device according to claim 1, characterized in that the through hole in the waterproof wall is made smaller than the width of the water intake window. 7. The device according to claim 1, characterized in that the passage hole in the waterproof wall is made of the same width compared to the width of the water intake window. 8. The device according to claim 1, characterized in that the through hole in the waterproof wall is made wider than the width of the water intake window. 9. The device according to claim 1, characterized in that the upper and lower edges of the passage hole in the waterproof wall are made at the same level with the corresponding edges of the water intake window. 10. The device according to claim 1, characterized in that the upper edge of the through hole in the waterproof wall is made above the level of the upper edge of the water intake window. 11. The device according to claim 1, characterized in that the lower edge of the through hole in the waterproof wall is made below the level of the lower edge of the water intake window. 12. The device according to claim 1, characterized in that the upper edge of the through hole in the waterproof wall is made above the level of the upper edge of the water intake window, while the lower edge of the through hole in the waterproof wall is made below the level of the lower edge of the water intake window.

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