RU2634292C1 - Method for reducing mobility of upper layer of river or channel water flow - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device is used, consisting of a number of barrage barriers with negative buoyancy, arranged parallel to one another, not interconnected, equipped with fastening fixtures, each of which is permanently fixed in the upper layer of the water flow by means of floats, anchors and stretches, fixed on the shore and on floating crafts, bridging a part of the river or channel watercourse across.

EFFECT: reducing the flow rate of the upper layer of a river or channel water flow in a certain area to solve various technical or environmental problems.

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Description

The invention relates to hydraulic engineering, and in particular to methods of using hydraulic structures designed to extinguish the energy of unsteady water flows.

Known high-pressure deep spillway, made in the form of a pipe and equipped with a narrowing at the end of its pressure part, the narrowing is made in the form of pyramidal projections installed around the perimeter of the pipe, with a diameter of no more than a quarter in height and an angle of inclination of the water-cutting rib of not more than 15 ° to the longitudinal pipe axis (USSR Author's Certificate N 905362, class EB02 8/06, 1982).

This device has a low efficiency of quenching the energy of the flow, since mutual rotation of the jets is not provided and their impact on the fastening elements of the outlet channel is not ruled out. In addition, the amplitude of oscillations in the final alignment of the device, i.e. at the end of the water spreading section, it again creates wave motions due to the high flow velocity behind the protrusions and necessitates the use of expensive means of protecting the slopes of the outlet channel (channel).

Also known is the vortex damper of the flow energy, including a horizontal section of the conduit, installed at the end of it and located along the perimeter of the springboard socks, and the expansion of the water pipe, which is made in the form of an annular blanking chamber, and the springboard socks are located symmetrically relative to the vertical axis of the outlet section of the water pipe, that the lower toe-springboard is located diametrically opposite the free gap between the lateral toes of the springboards, while the lower toe-springboard is made of rectangular cross section and high - triangular (USSR Author's Certificate N 1030479, class ЕВВ 8/06, 1982).

The disadvantages of this absorber include the incomplete use of the internal volume of the annular chamber to extinguish water energy at variable flow rates in the pressure conduit, since only socks-jumps are installed in it in the outlet section of the conduit. As a result of this, only a part of the outlet section of the water conduit located when the flow is split at the exit to the annular chamber works, while the latter has low efficiency of quenching the energy of the wave flow, since the annular chambers have little effect on the wave flow when entering the discharge channel.

Energy absorbers are known in which the energy of the flow is reduced by increasing losses along the length of the head. This is achieved either by installing local resistances (for example, additional resistance in surge tanks), or by increasing the length losses (for example, in breakwaters due to the separation by horizontal plates of a free-running wave into separate layers that move between the plates).

Known as a breakwater (FR, patent N1517957, class ЕВВ 3/06, 1968), consisting of plates fixed to each other and to the bottom of a reservoir located one above the other. The front parts of the plates are bent down and therefore the plates not only absorb but also reflect the wave.

The disadvantage of this breakwater is that it is not economical due to the large consumption of material.

Also known is the breakwater (SU, A.S. N 673689, class ЕВВ 3/06, 1979), including horizontal plates located one above the other, fastened together by studs, ending with adjusting stops. A wave breaker may contain several sections interconnected by overlays. The distance between the plates decreases in depth from top to bottom from 1/15 to 1/60 of the length of the plate. The height of the breakwater is equal to the maximum wave height, and its length is two to three times its height.

The disadvantage of this breakwater is that it is ineffective and economically unprofitable due to the high consumption of bonded plates.

The present invention expands the range of technical capabilities designed to dampen the speed of the upper layer of an unsteady water stream of a river or channel.

A way to reduce the mobility of the upper layer of the river or channel water stream is to use a device consisting of many negative buoyancy barriers located parallel to each other, not connected to each other, equipped with fasteners, each of which is stationary mounted in the upper layer of the water flow by means of floats, anchors and stretch marks, fixed on the shore and on water boats, overlapping across part of the river channel or channel.

The proposed method allows to reduce the flow rate of the upper layer of the water flow of a river or channel in a specific area to solve various technical or environmental problems.

Claims (1)

A method of reducing the mobility of the upper layer of a river or canal water stream, which consists in using a device consisting of a plurality of negative buoyancy barriers located parallel to each other, not connected to each other, equipped with fasteners, each of which is fixedly mounted in the upper layer water flow by means of floats, anchors and stretch marks fixed on the shore and on watercraft, blocking across part of the river channel or channel.