SU1157899A1 - Spillway crest - Google Patents

Abstract

WATER DISCHARGE, including a pressure tunnel, conjugated with a sink that has a hydraulic lock in the bottom, which is characterized by the fact that, in order to increase throughput by creating a discharge pressure above the free flow tunnel out of the tunnel, it is equipped with a core disposed in its center, and the interface of the pressure tunnel with the well is tangential, with the standpipe diameter equal to 2-2.5 widths of the supply conduit, and the core diameter is 0.7-0.8 and the riser.

Description

one .

The invention relates to hydraulic engineering and can be used on culvert and spillway facilities.

A spillway drop is known, which includes a supply conduit, a discharge pipe and a funnel connecting them.

Its disadvantage is low throughput due to leakage of the funnel.

Also known is the discharge of a spillway, which includes a downstream tunnel, which is adjacent to a drainage basin, which has a water seal at the bottom.

The disadvantage of the differential is the possibility of flow de-aeration in the drain, which leads to air accumulation in the upper part of the drain and a decrease in the throughput capacity of the spillway.

The aim of the invention is to increase the throughput by creating in the exit section of a pressure tunnel a reduced pressure above

surface free flowing from the tunnel flow.

The goal is achieved by the fact that in a spillway discharge, including a pressure tunnel, coupled with a drain, having a hydraulic lock in the lower part, the stand is equipped with a core located in its center, and the pressure tunnel match with the drain is made tangential, wherein

00 standpone diameter is 2-2.5 width

from the supply conduit, and the diameter of the grayer of the drain is O, 7–0.8 of the diameter of the sink.

The drawing shows an application of the proposed differential at the outlet of the spillway tunnel.

The delta contains a pressure tunnel 1, at the outlet of which a hundred to 2 is installed, imextions in its lower part are a hydraulic lock 3. Along the axis of a stand 2 a core 4 is located. The diameter of a stand 2 is 2-2.5 times the width of the discharge line 1, and the core 4 is 0.70, 8 of the diameter of the stack 2. The drop works as follows. Water flows from the pressure tunnel l 1 to a hundred to 2 tangentially. At the same time, in the stand 2, a vortex motion is created. During the swirling motion of the high-speed flow, intense aeration arises and air is carried away by water. The air pressure in the stand 2 drops, and thus the increase in throughput of the differential is achieved. Further, the stream, the passage through a hundred to 2, flows around the core 4 and goes to the lower pool. The diameter of stand 2 must be equal to 2–2.5 width of tunnel 1. If this ratio is less than 2, then not all the flow receives a vortex motion, but only the part adjacent to the wall of stand 2. At the same time, the outer part of the flow intersects hundred to 2 along a straight line and strikes the opposite wall, disrupting the helical nature of the internal flow; If the ratio of the diameters of the stand 2 and the tunnel 1 is more than 2.5, the flow in stand 2 takes up an insignificant part of the cross section, which leads to inefficient use of the cross section of stand 2 in order to maintain the vacuum in stand 2 the core 4 replacing the air core of the vortex flow. Taking into account the thickness of the water layer on the walls of the stand 2, the diameter of the core 4 is set to 0.6-0.8 of the diameter of the stand 2. If these dimensions are not observed, the flow deaeration is observed. Of particular importance is the invention for increasing the throughput of existing spillway structures.

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Claims (1)

WATER DISCHARGE DIFFERENCE, including a pressure tunnel, interfaced with a riser having a water seal in the lower part, characterized in that, in order to increase the throughput, by creating a reduced pressure in the outlet section of the pressure tunnel over the surface of the freely flowing out stream from the tunnel ?! ka, the riser is equipped with a core located in its center, and the pressure tunnel is connected tangentially with the riser, while the diameter of the riser is 2–2.5 of the width of the inlet conduit, and the core diameter is 0.7–0.8 of the diameter of the riser. 1 .