SU1668550A1 - Method for silting control of quick-silting water reservoirs - Google Patents

Abstract

The invention relates to the operation of hydraulic structures and reservoirs. The purpose of the invention is to increase the service life of the fast reservoir and reduce the cost of its operation. Channel 7 is arranged in the bowl of the reservoir, and the suspension is removed to the lower pool through an opening in the dam body. At the same time, the creation of a straight line in terms of channel 7 is carried out before the start of operation of the reservoir, which ensures the direction of the suspended transit flow 6 to the discharge opening provided with a shutter 13. The suspension is removed during the period of inflow of suspended suspension 6 in the reservoir while maintaining level 3 of the water of the reservoir with simultaneous opening of the gates 13 in the body of the dam 1. The device for discharge of suspended matter into the lower pool contains an opening, which is made in the form of a tunnel 8, installed at the level of the dead volume with a slope equal to or greater than the slope of the river bottom. The aperture is provided with a catching head 9 and an additional shutter 11 for taking water below the dead volume level communicating with channel 7 and located in plan perpendicular to dam 1 along the axis of movement of the suspended flow. 2 sp.f-ly, 1 ill.

Description

The invention relates to the operation of hydraulic structures and reservoirs, in particular to the hydraulic cleaning of accumulated sediments of small reservoirs on suspended water streams.

The purpose of the invention is to increase the service life of the fast reservoir and reduce the cost of its operation.

The drawing shows a reservoir with a channel that is linear in plan.

The land on dam 1 forms a reservoir capacity 2 with a normal level backed up (NPU) 3 in the depths of the floodplain of the natural channel 4 of the river. To straighten the natural channel 4 and trap the moving main turbid stream 5 in the upstream basin of the reservoir along the axis of the suspended stream 6, an artificial channel 7 is built, linear and perpendicular to dam 1 in plan, communicating with the drainage tunnel 8, having a slope equal to or a greater slope of the bottom of the natural channel 4 of the river and equipped with a catching cap .9, located at the level of the dead volume 10 (ULV) reservoir.

The catching head 9 provides for capturing a large cross section of the suspended flow into the tunnel 8, equipped with a shutter 11 for filling water at ULV 10 and dumping it into the lower reach. To reset the pumps to the downstream, the reservoir in the body of the plate 1 filled to the mark of the forced propped level (FPU) 12 has an opening blocked by a shutter 13.

The method is carried out as follows.

From the moment the flood-weighing flow arrives in the reservoir, the shutter 13 is opened, based on the discharge of water flow, equal to the incoming flow of water to the tank 2 of the water guard. When in the reservoir, the NEP 3 is supported. Channel 7 provides the direction of movement of the main turbid flow 5 to the catching head 9 of the tunnel 8, installed, like channel 7, on the axis of this flow. The catching cap 9 captures a large cross section of the stream and draws it into the tunnel 8, which has a slope equal to or greater than the slope of the river bottom, and dumps it to the lower reach. During the flood period, the reservoir operates in the

Qex O.BYKH, the main mass of sediment is released into the lower pool.

With the passage of flood waters in channel 7, large sediments are deposited. The washes of these sediments are carried out at the beginning of the next flood by lowering the NPS, 3 to the level of the dead volume 10 of the reservoir.

In order to prevent silting up of the tunnel 8 at the end of the flood period, the reservoir is filled to

marks 12 and open the shutter 13 to its full height, when the water level drops to NPC 3, the shutter 13 is closed.

If it is necessary to take water below the dead level of 10, especially

during the growing season, the shutter 11 is opened and the water through the tunnel 8 is discharged to the lower pool. The reservoir is filled at the closure of the gates 11 and 13.

Claims (2)

1. A method of combating sedimentation of a fast-moving sediment reservoir, including creating a straight channel in the reservoir bowl and removing sediment to the lower reach through a dam hole, equipped with a shutter, characterized in that, in order to increase the lifetime of the fast-fast reservoir and reduce costs on his operation, the creation of a linear in terms of the weighing channel before the start of operation of the reservoir and the removal of the suspension are carried out from the moment of the flood suspension flows and a reservoir with simultaneous opening of valves in the body dams, while maintaining in the reservoir a normal propped water level. 2. A device for controlling the silting of a fast-depleting sediment reservoir, comprising a channel made in the zone of the useful volume of the reservoir bowl and a drain hole in the dam body, provided with a shutter, characterized in that the drain hole is made in the form of a tunnel communicating with the channel and set by the upper edge at the level of the dead volume of the reservoir with a slope equal to or greater than the slope of the river bottom, within which a catching cap is placed with an additional gate for drawing water below the level of the dead volume of the reservoir; suspended flow.