SU987018A1 - Water intake arrangement with curvilinear feed bed - Google Patents

Description

The invention relates to hydraulic engineering and can be used for water intake from rivers about abundant bottom sediments.

Known water intake structure "comprising a curved inlet channel [1].

The disadvantage of this water intake structure is that with increased coefficients of water intake. continuous washing of sediments into the downstream is not ensured.

Also known is a water intake structure with a curved inlet channel, including a shield dam, a channel regulator located on a concave bank, a curved dam with bottom holes adjacent to the shield dam, a catastrophic spillway and a discharge device Г2].

However, the sediment content in the selected water is high.

The aim of the invention is to reduce the content of sediment in the selected water.

The goal is achieved by the fact that the curved dam is made stepwise in height, with the low stage of the dam with a spillway ridge adjacent to the shield dam, and in the high stage of the dam with a blind ridge, bottom openings are made, the height of which decreases in the direction of the flow from normal * retaining level of the upper pool to the bottom of the channel.

1 shows a water intake structure, a top view, 'in FIG. 2. ₀ section aa in figure 1; on fig.Z - ce ^ιυ chenie B-B in Figure 1.

The water intake structure includes a curved inlet channel 1, a shield dam 2 and a channel regulator 3, located on a concave be15 regul, a curved dam 4, a discharge device 5. The low stage 6 of the dam 4 is adjacent to the shield dam 2 and has a spillway ridge 7. High stage 8 of the dam 4 has bottom holes 9. A spillway 10 is located along dam 4.

The device operates as follows.

The bottom openings 9 are made in 25 high stage 8 with a blind ridge having a length equal to one third of the length of the curved dam 4 ″ and adjacent to the convex bank. Thus, bottom holes 9 are made in the zone of maximum sediment concentration, localization of which is due to the lateral circulation of the flow in a curved channel and lateral discharge of water through the spillway ridge 7 and bottom holes 9. This allows for the removal of sediment j from the upper pool at low discharge costs .

Placing the bottom holes 9 at different heights above the bottom of the channel jq ensures uniform loading of their sediments, since the first downstream hole is fed from the upper clarified layers of the flow, as a result of which there is no danger of obstruction by the sediments of the initial section of the washing path. After passing through an atvor of bottom openings 9, the flow is freed from sediment and can be entirely fed into the channel, except for the minimum one. waste flow through bottom openings. During the passage of flood discharges, most of them are discharged into the downstream through the overflow ridge 7, which leads to a decrease in the number and size of bottom-25 openings 9. In addition, lateral discharge of flood discharges leads to an increase in the transverse circulation of the flow and increases the extraction of bottom sediments towards the bottom openings 9.30

Using the invention will reduce the sediment content in the selected water.

Claims (2)

sedimentation, the localization of which is due to the transverse circulation of the flow in a curved channel and lateral discharge of water through the overflow ridge 7 and bottom openings 9. This allows for the removal of sediment from the upstream with negligible discharge costs. Placing the bottom openings 9 at different heights above the bottom of the channel ensures a uniform load of sediments, since the first opening is fed from the upper clarified layers of the stream, as a result of which the danger of debris from the initial part of the washing path is eliminated. After passing through the bottom hole 9, the flow is released from the sediment and can be entirely fed into the channel, in addition to the minimum discharge flow through the bottom holes. With the passage of flood expenses, most of them are discharged to the lower reach through the ridge 7, which causes a decrease in the number and size of the openings 9. In addition, lateral discharge of flood expenses causes an increase in the transverse circulation of the flow and increases the extraction of bottom sediments towards the bottom openings 9 The use of the invention will make it possible to reduce the sediment content in the selected water. Claims The intake structure with a curved inlet channel includes a shield dam, a channel regulator located on a concave bank, a curved dam with bottom openings adjacent to the shield dam, a catastrophic weir, and a discharge device characterized in that reduction of sediment content in the selected water, a curved dam is made stepwise in height, with a low level of the dike with a spillway adjacent to the shield dam, and in the high level of ladies, with a blind ridge bottom holes are located, the height of which is reduced in the direction of flow from the normal upstream level to the bottom of the bed. Sources of information taken into account in the examination 1. I. Volkov. et al. Hydraulic Structures. M ,, Kolos, 1968, p.355, ris.279. 2. Authors certificate of the USSR 522303, cl. E 02 B 9/04, 1974. (prototype). .8 99 wooooo 9