SU577278A1 - Stream energy absorber for spillways - Google Patents

Description

(54) POTENTIAL ENERGY FLOW FOR WATER DISTRIBUTION STRUCTURES

The invention relates to hydraulic engineering, in particular, to a device for quenching the excess energy of the flow in the bottom of the spillway structures.

A quencher is known for energy flow for hydraulic structures, including a sloping threshold of individual elements that taper in the direction of the upstream 11.

However, such a structure is suitable for extinguishing the energy of a stream having relatively low speeds, since at high speeds, due to the impact of the jet on the vertical face of the well, gushing and reduction of the damping capacity of the device is also possible. In addition, due to the poorly streamlined shape of the output threshold, the emergence of a C-Vitaly is possible at the site behind the well.

A water flow quencher is known in the form of a water wall, which is a continuous threshold with a vertical or inclined upper and lower facets 2.

The disadvantage of this construction is the fact that the water tank

: a tank with a vertical pressure edge causes jetting. In order to eliminate this phenomenon and to form a jump in front of the wall, it is necessary to increase the height of the wall. In addition, the upper faces of the water wall are subject to cavitation due to the presence of direct, poorly streamlined; corners.

The aim of the invention is to increase the efficiency of the quenching of the energy of the shock - the prevention of cavitational damage.

This is achieved by the fact that the top face is adjacent to the bottom edge of the tip of a curvilinear outline protruding in the direction of the upstream, and through the natural part parallel to the flow axis there are slots with tapering side walls.

FIG. 1 shows a flow energy quencher, general view; in fig. 2 - the same plan view; on .fig. 3 - installation of a stream energy quencher in the downstream.

The energy damper of the flow includes a water wall 1, having a top 2 n vizovoy 3 grzani, coupled with a tip 4

curvilinear shape. In the bottom hour there are through holes 5, the side walls 6 of which are tapered in the direction of flow.

Energy quenching is as follows.

The stream, approach to the extinguisher, partly follows the downstream through slot 5, which is located in its lower part, and the remaining part of the stream after a corresponding rise of the water horizon in front of the extinguisher

and the formation of a jump is poured over the combator comb, below which it is connected with the stream passing through the slots and expanded in plan to the width of the channel.

The separation of the flow and the subsequent connection of its two parts, directed at an angle to each other, determines the additional quenching of the excess energy of the flow, as a result of which the height of the anticipated extinguisher can be set lower than the height of the water wall of the usual type with vertical to obtain a given wall pressure face on

25-30%.

The curved contour of the comb absorber, the adopted shape of the slits and rounding

the input angles of the slits prevent the risk of cavitation. The oblique pressure face with a curved tip provides a change in the direction of the flow, twisting it, while eliminating photos and promoting the formation of a jump in front of the damper.

Claims (2)

1. USSR author's certificate hfe 212138, cl. E 02 B 8/06, 1966. 2. Chugaev, R. D. Hydraulics, L., Enegi, 1971, p. 371. V. „/.„ /