SU1020503A1 - Water intake for mountain rivers - Google Patents

Abstract

1. DRAINAGE CONSTRUCTION FOR THE MOUNTAINS. REK, including a spillway dam with a sloping guide shelf, a water slab, a water intake gallery with a water intake threshold, located under the water drainage dam, and a diversion channel, and also with tea In order to reduce the flow of pumps into the water intake gallery, the lower part of the direction of the shelf is provided with a horizontal visor, and the bottom of the diversion channel is located below the water-stove by 0.3-0.6 of its household depth. 2. The construction according to claim 1, except for the fact that the length of the horizontal canopy is 1.6-2.0 water depths on the canopy.

Description

The invention relates to hydraulic engineering, namely to water intake facilities for mountain rivers.

A water intake structure for mountain rivers is known, including a dam <a water intake gallery, located. under its threshold and an overlapped lattice £ 1].

The water intake in such structures is made from the lower layers of the stream saturated with bottom pumps, which, entering the water intake gallery, quickly clog the gaps of the gratings, which significantly reduces the efficiency of the water intake. And during the passage of floods and mudflows, such water intake facilities are brought in with solid materials and lose their functions.

A water intake structure for mountain rivers is also known, including a spillway dam with an inclined guide shelf, a water slab, a water intake gallery with a water intake threshold located under the water-dam, and a discharge channel [2].

In the water intake gallery of this device, along with the withdrawn flow rate of water, a large amount of sediment transported by the flow enters. ''

The purpose of the invention is the reduction of sediment in the intake gallery.

This goal is achieved by the fact that the lower part of the guide shelf is equipped with a horizontal visor, and the bottom of the outlet channel is located 0.3-0.6 below its water base.

Moreover, the length of the horizontal visor is equal to 1.6-2.0 of the water depth on the visor.

In FIG. 1 shows a water intake structure, a longitudinal section along the axis; in Fig.2 - the same top view,

In the channel 1, a water dam 2 is installed, having a comb 3, an inclined guide shelf 4, in the lower

visor 5. Behind dam 2, a water plate 6 is installed with elements 7 forming a cracked threshold. Under the dam 2 there is a water intake gallery 8 with a water intake threshold 9. A discharge channel 10 is located behind the water-discharge plate.

The construction works as follows.

Through the ridge 3 of the spillway portion of the dam 2, and then along the guide shelf 4, the stream, falling on the visor 5, removes its outflow and is discharged at the required distance into the discharge channel, t, e, into the lower pool, the bottom of which is lowered to Q, 3-Q , 6 of its household depth, which contributes to the transport of sediment with the flow. Part of the clarified iodine, changing its direction by 180%, enters through the intake threshold 9 into the intake gallery 8.

Studies conducted on a pilot water intake on a mountain river, with the design of a water intake without a visor show that about 10% of bottom sediment is deposited in the downstream. Experiments conducted on a laboratory model of the same type of water intake, but already equipped with a visor and with a lowered downstream bottom (i.e., according to the proposed water intake design) show that all bottom sediments are carried downstream.

Thus, a quiet flooded hydraulic mode with the conditions of sediment deposition and transportation is established only with a difference in the heights of the bottom of the outlet channel and the water plate at 0.3 · -0, b of its household depth.

The nominal length of the horizontal visor (1.6-2.0 depths of water on the visor) is determined from the conditions of formation of the surface regime and economic considerations.

The proposed implementation of the water intake facility will significantly reduce the flow of ’nanoFil yal PPP Patent, Uzhgorod, 4, Projectnaya st.

Claims (2)

1. WATER INTAKE STRUCTURE FOR MOUNTAIN RIVERS, including a spillway dam with an inclined guide shelf, a water slab, a water inlet gallery with a water intake threshold located under the spillway dam and a discharge channel, distinguish it with the aim of decreasing the flow of pumps. in the water intake gallery, the lower part of the guide shelf is equipped with a horizontal visor, and the bottom of the outlet channel is located 0.3-0.6 times lower than the water plate. 2. Structure according to Claim. 1 of t n, and h and w o f e c i in that the length hori- zontally visor _β f equals 1.6-2.0 depth of water on the visor.