RU2023803C1 - Fish protecting apparatus of water intaking structure - Google Patents

Abstract

FIELD: hydraulic technology. SUBSTANCE: water stream, using feeding canal goes into zone, where members of increased roughness are mounted in water intaking structure, and changes its space structure. Main part of stream in place, where bottom members of increased roughness are installed, changes its direction and goes to opposite bank of canal. Analogous action takes place in place, where surface members of increased roughness are installed. Fish fry, after entering zone of influence of members of increased roughness, leave dangerous zone and is carried away to inlets of fish leadaway. Garbage and fish fry free water stream enters water intake and goes to consumer. EFFECT: apparatus is used in hydraulic technology. 2 cl, 6 dwg

Description

 The invention relates to hydraulic engineering, in particular to fish protection devices designed to protect juvenile fish from getting into water intake structures.

 In FIG. 1 shows the proposed device, a view in plan; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1; in FIG. 4 shows the planned flow diagrams after the passage of the flow of reinforced roughness elements; in FIG. 5 - device, plan view, in the presence of visors; Fig.6 is a view of the visors from the side of the inlet channel.

 The fish protection device of the water intake structure includes surface 2 installed on the side walls of the inlet channel 1 and bottom 3 of the fish outlet 4 formed by horizontal and vertical partitions, reinforced roughness elements 5 made in the cross section of a triangular shape and installed in a row along the side walls of the inlet channel 1 in front of the heads 2 and 3 of fish branch 4.

 Elements of enhanced roughness 5 have a height equal to half the depth of the flow of the supply channel 1, and are located respectively above and below the horizontal plane, relative to which there are upper and lower horizontal partitions of the bottom 3 and surface 2 of the head of the fish branch 4, and the width of the inlet holes of the head 2 and 3 of the fish branch 4 is equal to half the width of the inlet channel 1, and in the alignment of the inlet openings of the heads 2 and 3, they form water inlets 6 located respectively above and below the don th surface 3 and two end walls.

 In addition, the device can be equipped with visors 7, a drive (not shown) and a vertical axis 8 located along the axis of the channel 1 from the side of the elements 5 reinforced roughness and adjacent to the front edges of the vertical partitions, while the visors 7 are mounted on the vertical axis 8 with the possibility independent rotation by means of a drive (for example, flexible rods connected to winding drums).

 Water purified from debris and juvenile fish, through the intake holes 6 enters the intake 9.

 Fish protection device of the intake works as follows.

 The flow of water passing through the inlet channel 1 enters the installation zone of the elements of enhanced roughness 5 and, as a result of running on them, deforms its spatial structure. At the installation site of bottom elements 5 of enhanced roughness, the main part of the flow is redistributed to the opposite bank of channel 1, a similar pattern is observed at the installation site of surface elements 5. Thus, the planned flow diagram is reorganized, the velocity characteristics of which largely contribute to the effective redistribution of juvenile fish towards the location inlet holes of surface 2 and bottom 3 of the head of fish branch 4. At the same time, the vertical velocity plot at the place of the mouth is deformed Novki enhanced roughness elements 5, respectively, where increasing the flow velocity above and below the location of the elements 5, which also improves the ability to flow in conveying direction 2 and end walls 3, 4 rybootvoda.

 In addition, elements 5 play a positive role in the redistribution of juvenile fish in that they create a boundary layer with an increased level of turbulence due to the flow of them along them. Young fish falling into the influence zone of elements 5 of increased roughness, sensing by the lateral line organs an increased level of turbulent pulsations of the boundary layer, actively leave the danger zone and redistribute along the width of channel 1 to its opposite bank. This process is also facilitated by the presence on this coast, in this thickness, of maximum flow velocities, due to which the young fish that left the zone with an increased level of turbulence are picked up by the high-speed flow and carried directly to the inlet openings of the heads 2 and 3 of the fish branch 4 (Fig. 4) .

 The flow of water, free from juvenile fish and garbage, enters the intake holes 6 and then into the intake 9 to the consumer.

 To increase the efficiency of the device in the conditions of changing the value of the transit flow rate (when changing the flow taken into the intake 9), visors 7 mounted on the vertical axis 8 located on the side of the elements of enhanced roughness 5 and adjacent to the vertical ends of the heads 2 and 3 located in the central alignment of the channel 1. When the visors 7 are mounted independently on the axis 8, by means of a drive (not shown, for example, flexible rods connected to winding drums) There is control over the effective selection of the stream saturated with juvenile fish and debris, and their redistribution to the inlet openings of the heads 2 and 3 of the fish branch 4. Visors 7 allow changing the width of the fishing front, which, given the change in the transit flow velocity (possibly changing the efficiency of the redistribution of the stream), allows cutting the width of the channel 1 garbage-saturated layer of the stream and direct it into the fish outlet 4.

 The proposed device can significantly increase the efficiency of removal of juvenile fish due to a more intensive redistribution of the spatial structure of the stream. In addition, by changing the position of the visors, it is possible to control not only the process of fish diversion, but also the process of water withdrawal to the intake, since in this case the visors play the role of hydraulic resistance, changing which you can change the magnitude of the selected expenses in the intake.

Claims (2)

 1. FISH PROTECTION DEVICE FOR THE WATER INTAKE STRUCTURE, including the surface and bottom heads of the fish drain installed on the side walls of the inlet channel formed by horizontal and vertical partitions, and reinforced roughness elements made in the cross section of a triangular shape and installed in a row along the side walls of the inlet channel in front of the fish ends characterized in that the elements of enhanced roughness have a height equal to half the depth of the feed channel, and are located respectively, above or below the horizontal plane, relative to which the upper and lower horizontal partitions of the bottom and surface heads of the fish branch are located, the width of the inlet holes of the fish branch heads equal to half the width of the inlet channel, and in the alignment of the inlet holes of the head sections they form water inlets located respectively above and below bottom and surface heads.  2. The device according to claim 1, characterized in that it is equipped with visors, a drive and a vertical axis located along the axis of the channel from the side of the elements of enhanced roughness and adjacent to the leading edges of the vertical partitions, while the visors are fixed on the vertical axis with the possibility of independent rotation by drive.

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