SU1308693A1 - Water intake structure - Google Patents

Abstract

The invention relates to hydraulic engineering. The purpose of the invention is to increase the reliability of operation by reducing the flow of sediment into the water intake. The angle between the walls 2 is 90-125 °, the top 4 of the angle is located from the upper edge 5 of the water intake 1 at a distance of 0.4-0.5 in the length of the water intake 1. The length of the walls 2 is 0.6-0.7 in length water intake 1. The height of the walls is 1 -1.3 in height of the water intake 1. The water flow with bended sediments, raid on the walls 2, forms two screw streams, diverting w, their sediments from the water intake 1.3 Il. /: t I I I I If I I I I I I P. } 1 J i / i i i X 7/1 GO O OO C5 CO OO Phage. /

Description

The invention relates to hydraulic engineering, water management construction, and is intended for use in water supply systems based on rivers to protect water intakes from sediment loadings with a height of barrow reaching the top of the head, sludge, debris and fish fry entering them.

The purpose of the invention is to increase the reliability of operation by reducing sediment input to the water intake.

FIG. 1 shows a water intake structure, plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 - a construction, a plan view showing water lines.

The water intake structure contains a water intake 1 disposed at the bottom of the water course and a nanodirectional device installed in front of it, made in the form of walls 2, conjugated to each other at an angle of 90-125 ° in plan, and on top of the riverbed . On the lateral faces of the 3 inlets there are intake windows. The top 4 of the angle is located from the upper edge 5 of the water intake 1 at a distance of 0.4-0.5 lengths of the water intake 1, the length of the walls 2 is 0.6-0.7 the length of the water intake 1, and the height of the walls 2 is 1 - 1, 3 heights of the water intake 1. The positions 6 and 7 denote the flow and the bottom currents flowing through the walls 2 and the bottom currents, respectively.

Water intake works as follows.

The near-bottom current, which moves the bottom strata along the channel, when approaching the installed flooded walls 2 located at an angle to the flow, interacts with them and diverts the strands into the channel. The current lines of the flow 6 flowing through the walls are bent towards the axis of the water receiver 1, and the specific costs increase in the central part. The interaction of the lines of currents with the receiving water 1 leads to a twisting of the flow and the formation of two screw, symmetrical

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relative to the longitudinal axis of the water intake 1 currents with high speeds, which wash the side faces 3 of the water intake 1 and directed oblique bottom currents 7 throw the sediment to the side of the water intake 1, and also squeeze sandstorms moving along the channel from the water intake 1. Overflowed The walls of the 2 sediments are driven by an intense flow of screws from the intake windows into the river bed.

The installation angle of the walls 2 in the plan allows to obtain a stable helical flow. The length of the walls 2 allows you to reject the bottom of the ridge bypassing the intake of 1, and

g also skip the necessary part of the flow of the river bed after winding up with increased speeds along the intake front. Installing the top walls 2 at the top of the water intake 1 and above contributes to the intensification of the screw flow, and the planned location of the water intake 1 with respect to the guide walls 2 allows the water intake windows to be located in the zone of the most intense screw flow with maximum speed and suspension capacity.

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Claims (1)

Invention Formula A water intake structure including a water intake located at the bottom of the water course and a nano-directing device installed in front of it, made in the form of walls adjacent to each other at an angle in the plan, and directed towards the flow in order to increase reliability operation by reducing sediment input to the water intake, the angle between the walls is 90-125 °, the top of the angle is located from the upper edge of the water intake at a distance of 0.4-0.5 of its length, while the wall length is 0.6-0, 7 length intake And high walls that equals 1 -1.3 height of the receiving water. K-k FIG. 2 / / FIG.