RU2196202C2 - Fish protecting device - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: invention can be used to protect young fishes in water intakes. Fish protecting device of water intake has approach, water intake and fish outlet channels provided with bottom and side walls, barrier and impervious to water wall installed at angle to flow in approach channel between its slope and barrier. Said barrier is made water permeable, with side flat vertical wall of approach channel, within the limits of barrier, arranged as angle α relative to barrier plane. Said angle is calculated by formula. Bottom of approach channel is horizontal lengthwise the channel. Barrier can be made in form of grid, louvers or vertical rods. Proposed device improves efficiency of protection of young fishes. EFFECT: reduced cost of building and operating expenses, improved reliability in operation. 8 cl, 2 dwg

Description

 The invention relates to hydraulic engineering and can be used to protect juvenile fish at any water intake facilities of water management located on waterways and ponds.

 A device is known (SU 1715948, class E 02 B 8/08, 1986), including the inlet, intake, fish outlet channels containing the bottom and side walls, a barrier and a waterproof wall placed at an angle to the flow in the supply channel between its slope and the barrier consisting of waterproof plates installed in the inlet channel with the possibility of rotation around their vertical axes and connected to the drive installed along the direction of flow, the drive is made individual for each waterproof plate, and d but the fish outlet channel is located above the bottom of the inlet channel and connected to it by an inclined section.

 A disadvantage of the known device is the low fish protection efficiency of juvenile fish due to the uneven distribution of filtering speeds along the obstacle and the high construction and operational cost.

 The objective of the invention is to increase the efficiency of protection of juvenile fish and the reliability of fish protection devices, as well as reducing construction and operating costs.

относительно плоскости преграды,
где α - угол наклона боковой стенки подводящего канала относительно плоскости преграды;
m - коэффициент скважности преграды;
V_я - средняя скорость в ячейках преграды;
V - средняя скорость в подводящем канале водозабора;
k - интегральный коэффициент стеснения живого сечения преграды,
k=k_з•k_оп=1.25,
где k_з - коэффициент запаса, учитывающий возможность засорения преграды k_з=(1.1-1.2);
k_оп - коэффициент стеснения живого сечения каркасом k_оп=(1.05-1.1).The problem is achieved in that in the fish protection device of the water intake structure, including the inlet, water intake, fish outlet channels containing the bottom and side walls, a barrier and a waterproof wall placed at an angle to the flow in the supply channel between the slope and the barrier, according to the invention, the barrier is made permeable while the side wall of the supply channel within the obstacle is located at an angle

relative to the plane of the barrier,
where α is the angle of inclination of the side wall of the supply channel relative to the plane of the barrier;
m is the coefficient of duty cycle barriers;
V _I - the average speed in the cells of the barrier;
V is the average speed in the intake channel of the intake;
k is the integral constraint coefficient of the living section of the barrier,
k = k _s • k _op = 1.25,
where k _z - safety factor, taking into account the possibility of clogging of the barrier k _z = (1.1-1.2);
k _op - the constraint coefficient of the living section of the frame k _op = (1.05-1.1).

 In addition, the side wall of the inlet channel is made rectilinear, the intake channel is located perpendicular to the plane of the barrier, and the bottom along the entire length of the water supply channel is horizontal. It is advisable to perform the barrier in the form of a grid, or in the form of a louvre grille, or in the form of vertical rods.

 This device creates the same conditions for the removal of juvenile fish along the entire length of the barrier, and also meets not only optimal hydraulic conditions, but also the necessary biological requirements for the length of the barrier. The water supply channel provides the device with the necessary water flow. A water intake channel supplies filtered water through an obstacle to a water intake structure. The uniformity of the flow of water into the intake canal is ensured by the perpendicularity of its location relative to the plane of the barrier, as well as the presence of a vertical flat inclined wall in the inlet channel located at an angle α relative to the plane of the barrier. It should be borne in mind that violation of these requirements leads to a decrease in fish protection efficiency of the device. A waterproof wall, placed at an angle to the flow in the inlet channel between its slope and the barrier, provides juvenile fish and garbage extraction from the barrier. A permeable barrier prevents juvenile fish and garbage from entering the water intake canal. The fish channel is designed to divert juvenile fish and debris that have passed the barrier into a reservoir.

 The proposed device is illustrated by drawings, where figure 1 shows a fish protection device, top view; figure 2 is a section aa in figure 1.

Fish protection device consists of a vertical waterproof wall 1 installed in the inlet channel 2 at an angle of 45 ^o to the direction of flow. The angle of 45 ^o is optimal, since in this case the wall 1 has the smallest length and the greatest extraction of the flow from the barrier 3 is achieved. louvre grille or in the form of vertical rods. The inlet channel 1 is divided into the intake 4, located perpendicular to the plane of the barrier, and the fish outlet 5. The inclined wall 6 of the inlet channel 1 is located at an angle α relative to the plane of the barrier and ensures uniform filtration along the entire surface of the barrier. The bottom of the device 7 along the entire length of the water supply channel is made horizontal.

The device operates as follows
When the water flow moves with the young fish along the inlet channel 2, thanks to the wall 1, the juveniles are pressed away from the barrier 3, installed parallel to the axis of the main stream, to the inclined wall 6, which, together with the intake channel 4, located perpendicular to the plane of the barrier 3, ensure uniform filtration costs along the entire front of the intake canal 4. When streamline elements 3 obstruct the flow of water, a boundary layer with increased turbulence appears, scaring away young fish around the entire front of the block hells 3. Protected juveniles are diverted to a safe place along the fish channel 5.

 This fish protection device is characterized by increased reliability and fish protection efficiency in operation.

относительно плоскости преграды 3 в ее пределах, обеспечивающий равномерность поступления путевого расхода в водоприемный канал 4. Расход воды для отвода молоди рыб из рыбоотводящего канала назначается по зависимости
Q_p=(0.05÷0.1)Q_в,
где Q_p - рыбоотводящий расход, направленный вдоль полотна преграды в рыбоотводящий канал;
Q_в - расход водозабора.The device is installed parallel to the axis of the passing stream and consists of an obstacle 3 (mesh, louvered from vertical rods), an inclined wall 6 having an angle of inclination

relative to the plane of the barrier 3 within it, ensuring uniform flow of the flow rate to the intake channel 4. The flow rate for the removal of juvenile fish from the fish channel is assigned according to
Q _p = (0.05 ÷ 0.1) Q _in ,
where Q _p - fish discharge flow directed along the canvas into the fish channel;
Q _in - water intake.

 The recommended ratio of the average water velocity in the gaps of the barrier to the average water velocity in the inlet channel for effective fish protection should be at least 0.5.

 The length of the barrier is recommended to take no more than 50 m.

 The proposed structural layout provides fish protection efficiency of not less than 70-85%.

 The use of this device is possible at any water intake facilities of water management located on waterways and ponds.

Claims (8)

1. Fish protection device of the water intake structure, including the inlet, water intake, fish outlet channels containing the bottom and side walls, a barrier and a waterproof wall placed at an angle to the flow in the supply channel between its slope and the barrier, characterized in that the barrier is permeable, the side wall of the feed channel within the barrier is at an angle

relative to the plane of the barrier,
where α is the angle of inclination of the side wall of the supply channel relative to the plane of the barrier;
m is the coefficient of duty cycle barriers;
V _I - the average speed in the cells of the barrier;
V is the average speed in the intake channel of the intake;
k is the integral constraint coefficient of the living section of the barrier,
k = k _s • k _op = 1.25,
where k ₃ - safety factor, taking into account the possibility of clogging of the barrier, equal to 1.1-1.2;
k _op - the constraint coefficient of the living section of the frame, equal to 1.05-1.1.  2. Fish protection device according to claim 1, characterized in that the side wall of the inlet channel is made flat.  3. Fish protection device according to claim 1, characterized in that the side wall of the supply channel is made vertical.  4. Fish protection device according to claim 1, characterized in that the intake canal is located perpendicular to the plane of the barrier.  5. Fish protection device according to claim 1, characterized in that the bottom along the entire length of the supply channel is horizontal.  6. Fish protection device according to claim 1, characterized in that the barrier is made in the form of a grid.  7. Fish protection device according to claim 1, characterized in that the barrier is made in the form of a louvre grille.  8. Fish protection device according to claim 1, characterized in that the barrier is made in the form of vertical rods.

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