RU2495192C2 - Complex fish-protection structure of guard and guide action (kruon) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: complex fish-protection structure of guard and guide action comprises a horizontal element - a stationary structure in the form of a horizontal slab and a behavioural guide element (a screen). The horizontal slab adjoins a water intake structure and forms a gallery, through which the water intake flow moves into the water intake. The horizontal slab separates the flow into its upper and lower parts and creates a zone in the upper part, which does not communicate with the water intake flow, which is optimal for vital functions and reproduction of fish without risk of getting into the water intake. The guide element is made as vertical or inclined in the form of sections of an electric fish barrier, or a water-air curtain, or an air-bubble curtain, or a louver fish-protection device. The guide element is installed at the inlet to the gallery and provides for independent exit of fish from the lower part of the flow into the upper more comfortable zone of the water source. The horizontal slab is arranged below the water surface level. The length of the horizontal slab makes at least the height of the water intake window. The device may be installed in any conditions regardless of availability or unavailability of a transit flow. The device does not comprise a fish intake part that leads to the fish takeout.

EFFECT: increased efficiency of device functioning and expanded conditions of its application.

2 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.

Known fish protection device in the form of a visor wall, which is a shield mounted in a vertical plane on the approach to the tip of the intake structure at an angle to the flow (see, for example, P.A. Mikheev. Fish protection structures and devices. Publishing house "Roma", M., 2000; II Ripinsky. Fish protection devices for water intake facilities. Sovintervod, M., 1991; AV Ivanov. Fish protection handbook for the work of fish protection bodies. Gidroproekt M., 2005, etc. .).

The principle of operation of any wall is that the shield of the wall serves as a waterproof flow guide screen. An incoming water stream transporting surface-rolling young fish is formed into the surface stream with a lateral circulation, in which surface currents saturated with fish are directed from the intake to the fish drainage channel, and bottom-poor ones flow to the intake.

Since, according to the principle of action, all the wall walls are the same, and their structural differences in the light of the problems solved by the claimed technical solution are insignificant, any one can be selected for the prototype of the claimed device, for example, according to P.A. Mikheev.

The known wall is a stationary structure in the form of a vertical flat shield-shield mounted on the approach to the tip of the intake structure at an angle to the flow. The upper part of the shield is located above the surface of the water, and its lower edge is deepened.

Despite the fact that the sampling walls are essentially similar to all known fish protection devices, the sampling walls cannot fully replace them due to the limited capabilities of the latter. For example, unlike the known fish protection devices when using the sampling walls, the unwanted ingress of fish with bottom flows of water is not excluded. In addition, the sampling wall must be installed in transit flow.

The objective of the proposed technical solution is to increase the efficiency of the device and expand the conditions for its use.

This object is achieved by the fact that a comprehensive fish-protecting device of guiding and guiding action (KRUON) is proposed, consisting of a horizontal element - a stationary structure in the form of a horizontal ceiling adjacent to the water intake structure, forming a gallery through which the water intake flows into the water intake, and a behavioral guiding vertical or inclined element (screen), which is installed at the entrance to the gallery, in the form of sections of an electric fish separator, or a water-air scales or the air-bubble curtain or louver fish protection device. The length of the horizontal overlap is not less than the height of the intake window. Horizontal overlap divides the stream into its upper and lower parts, as a result of which a zone is created in the upper part that is not connected with the water intake, optimal for fish living, where the fish can stay and continue its life without the impact of the water intake and the risk of getting into the water intake. There is no need to divert fish from this zone and, accordingly, there is no need to include fish withdrawal in the structure. In the gallery, formed by horizontal overlap, the intake flow enters the intake.

Distinctive features of the prototype of the claimed technical solution are as follows: the device contains a behavioral, guiding vertical or inclined element (screen), which is installed at the entrance to the gallery, in the form of sections of an electric fish separator, or a water curtain, or an air-bubble curtain, or a louvre fish protection devices and provides independent fish withdrawal from the lower part of the stream to the upper to a more comfortable zone of the water source; stationary horizontal overlap adjacent to the water intake; stationary horizontal overlap is located below the surface of the water; the horizontal overlap length is not less than the height of the water intake window; the claimed technical solution does not contain a fish receiving part and fish removal; horizontal overlapping, dividing the stream into its upper and lower parts, creates in the upper part a zone that is not connected with the water intake stream, which is optimal for the life and reproduction of fish, and therefore there is no need to divert fish from this zone and, accordingly, there is no need to include fish drainage in structure composition; The claimed device can be installed in any conditions, both on a transit stream on channel water intakes, and in a reservoir in the supply channel.

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

figure 1 schematically (in section) shows a particular case of a device equipped with a sectional electric fish blocker;

figure 2 schematically (in section) shows a particular case of a device equipped with a water curtain.

The complex fish protection device of the guiding and guiding action (KRUON) consists of a horizontal element - a stationary structure in the form of a horizontal ceiling 1 adjacent to the water intake structure 2, forming a gallery 3 through which the water intake flows into the water intake 4, and a behavioral, guiding vertical or inclined element (screen) 5, which is installed at the entrance to the gallery 3, in the form of sections of an electric fish separator (Fig. 1), or a water-air curtain (Fig. 2), or an air-bubble curtain sys or a louvre fish protection device and ensures independent fish withdrawal from the lower part of the stream to the upper to a more comfortable zone of the water source.

In this case, the horizontal overlap length l is not less than the height of the water intake window h, i.e. l≥h. The distance from the upper point of the intake window to the horizontal overlap h ₁ can be any and is determined depending on the level of runoff of the reservoir or reservoir in which the claimed device is used, and the modes of operation of the intake. The supporting part of the horizontal overlap (not shown in the drawing) can be made in the form of columns or load-bearing walls. Sections of the electric fish separator can be installed both on the supporting columns, and attached to the horizontal ceiling 1 (figure 1).

Stationary horizontal overlap 1 divides the flow suitable for intake into its upper and lower parts, thereby contributing to the removal of debris and reducing wave loads on the behavioral, directing vertical or inclined element (screen) 5, which is part of the claimed device. The intake flow passes through the gallery 3, formed by a stationary horizontal overlap 1, and enters the intake 4.

The behavioral, directing vertical or inclined element (screen) 5 installed at the entrance to the gallery 5 is used as a deterrent, behavioral, directing element of an integrated device to ensure independent fish withdrawal to a more comfortable area of the water source and directs the fish from the lower part of the stream to the upper one. At the same time, horizontal overlap 1 creates zone 6, which is not connected with the water intake, optimal for the fish to live, where the fish can stay and continue its life without the impact of the water intake and the risk of getting into the water intake structure.

Unlike traditional sampling walls, the claimed technical solution does not contain a fish receiving part leading to a fish drain. Fish tap is not part of the claimed device, since there is no need for fish tap. The zone created above the horizontal ceiling, not communicating with the water intake, is optimal for the fish to live in, the fish can stay in it and continue its life without the impact of the water intake and the risk of getting into the water intake structure. There is no need to divert fish from this zone and, accordingly, there is no need to include fish withdrawal in the structure. In this regard, a significant simplification of the design and a significant reduction in capital costs, operating costs are achieved, the total water intake is significantly reduced in the absence of fish drainage flow.

The conditions for applying the claimed technical solution are expanding. Unlike traditional sampling walls, which should be located in reservoirs with a good transit flow to ensure the removal of fish into the fish drain and their further movement in the fish drain system, the claimed device can be installed in any conditions both on the transit stream on the channel water intakes and in the reservoir in the inlet channel in the absence of a transit stream, since there is no need to divert the fish to the fish drain and ensure its further movement through the fish drain system, in this connection There is also a need for transit flow.

In addition, the fish have a lesser negative impact, since the removal of fish using fish drainage and the passage of fish through the fish drainage system in many cases adversely affect the condition of the fish and can lead to injury and death. The claimed design does not involve the movement of fish, as a result of which they can be injured and which disrupts the process of their life and reproduction. The fish remains in the zone that is not connected with the water intake stream, optimal for its habitat, where it continues the life process without the impact of the water intake and the risk of getting into the water intake structure.

The task, which is to increase the efficiency of the device, expand the conditions for its use, reduce operating costs, has been completed.

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

The technical result of the claimed technical solution consists in increasing the efficiency of the device, expanding the conditions for its use, reducing capital costs, operating costs due to the absence of the need to use a fish drainage system in the structure, the overall water intake is significantly reduced in the absence of fish drainage flow.

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 (1)

A comprehensive fish-protecting device with a guiding and guiding action (KRUON), consisting of a horizontal element - a stationary structure in the form of a horizontal ceiling adjacent to the water intake structure, forming a gallery through which the water intake flows into the water intake, characterized in that the device does not contain a horizontal horizontal fish outlet overlapping, dividing the stream into its upper and lower parts, creates in the upper part a zone that is not connected with the water intake stream, optimal for life and reproduction of fish without the risk of getting into the water intake, and therefore there is no need to divert fish from this zone and there is no need to use fish drainage as part of the device, while stationary horizontal overlap is located below the surface of the water, the horizontal overlap length is not less than the height of the intake window, device can be installed in any conditions, regardless of the presence or absence of a transit current, the device includes a behavioral, directing vertical tilting or tilting element (screen) installed at the entrance to the gallery and consisting of a sectional electric fish trap, or a water-air curtain, or an air-bubble curtain, or a louvre fish protection device, which ensures independent fish withdrawal from the lower part of the stream to the upper to a more comfortable area of the water source .

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