SU1423679A1 - Water spillway path of hydraulic power station - Google Patents

Abstract

The invention relates to a hydroelectric plant, and that to structures is a power distribution facility of hydroelectric power plants. The first invention is an increase in the reliability of operation due to the improved cleaning of the grate and the reduction in the volume of m. 1HI) 1x work. To the place of sleep of the conducting and water discharge tunnels I and (there is a leveling shaft 2, under which the cleaning chamber 4 is located with a reamer 3 and turbine water lines 5 and the washing tunnel 7 are connected to the cleaning chamber 4 tunnel I, is cleaned by penierKoii 3 t) T mccpa, and through conduits 5 gets into the turbines of a hydroelectric power station, (op ryplitek L is washed away by water flow into the tushm 7. At flood level the tunnel1 is turned on but the tunnel, 1u 6 in the pizhpp 6i, e; () hydroelectric power station. 3 z. .5 H, I.

Description

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The invention relates to the construction of hydroelectric power plants, having in their composition an integrated power drainage tract, in the branch node of which a trash screen is incorporated.

The purpose of the invention is to increase the reliability of work by improving the cleaning of the lattice and reducing the volume of construction work.

FIG. 1 shows the power drainage path of hydroelectric power plants, a vertical section; in fig. 2 - the same, if there is a diverting tunnel in the structure of the structure; in fig. 3 shows the node I in FIG. one; in fig. 4 — node II in FIG. 2; in fig. 5 shows section A-A in FIG. 3 and 4.

The power and drainage path of a hydropower plant includes a supply (power drain) tunnel 1, at the end of which you will equate: 1 to shaft 2, R-shaped pneumatic chamber, cylindrical trash grill 3 is located in the waste-cleaning chamber 4 located below tunnel 1 and connected to it upper part.

Turbine conduits 5 are connected to chamber 4 opposite the sides of the weir grate 3.

A flood tunnel 6 is provided for skipping floods, the entrance to which is at the level of supply tunnel 1. The cleaning of the trash rack 3 is carried out through the washing tunnel 7, which has a common discharge tunnel 8 with a spillway tunnel 6. At the end of the tunnel 8 (Fig. 2 , 4) the shutter 9 is located, and d; 1 autonomous operation of the spillway tunnel 6 and the wash tunnel 7 has a partition 10 video wall 10 and at the end of the tunnels 6 and 7 are installed the valves 9 (Fig. 1.3).

The water-waste path works as follows.

During operation of the hydroelectric power station, water enters the supply tunnel 1, then into the lower part of the equalization 2 and, after passing through the trash 3, rushes into the turbine water lines 5. If necessary, washing the grate 3 turns on the washing tunnel 7, which, due to the possibility of creating a transit flow, produces effective cleaning

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grid 3. The dimensions of this tunnel are determined on the basis of calculations or model studies.

When adjusting the turbines (dumping or overloading), leveling shaft 2 is activated. At the same time, taking into account the deep laying of the shaft 2 in the massif, its upper part is filled with air that can be compressed, i.e., a pneumatic chamber is created. Due to this, there is no need to remove the mouth of mine 2 to the flood marks.

When skipping floods, a water discharge tunnel 6 is turned on, the entrance to which is located at the level of supply tunnel 1, and the discharge path is aligned with the flushing tunnel 7. The presence of a dividing wall 10 and gates 9 allows for the passage of floods independently of the flushing tunnel (Fig. 13).

Claims (4)

1. The energy-water-waste tract of a hydroelectric power station, which includes an inlet and spillway tunnel interconnected; 1I, an equalization shaft connected to the interface of the inlet and outlet tunnels, a cleaning chamber with a vertical cylindrical grid, located under the equalization shaft and turbine conduits connected to the de-cleaning chamber, characterized in that, in order to increase the reliability of the operation by improving the cleaning of the grate and reducing the volume of construction work, it is equipped with a washing tunnel, of the connections to the lower part soroochistnoy camera, and the camera is disposed below soroochistna 0 five and connected by him order The supply tunnel top. 2. The tract of claim 1, denoting that the leveling shaft is made in a pneumatic chamber. 3. Tract on PP. I and 2, characterized by the fact that it is equipped with valves, installed at the end of the spillway and washing tunnels. 4. Tract on PP. 1 and 2, characterized in that it is provided with a diversion tunnel with a shutter at the end, and the water discharge and tunnels are connected to the beginning of the diverting tunnel. NPU . one D not.2 & 7 -; / Vewr ypofe e q} uf5