SU1122774A1 - Levelling-out tank - Google Patents

Abstract

- EQUALIZING TANK, containing a tank with a flat diaphragm located between the marks of the minimum and maximum dynamic water levels in the tank, corresponding to the full load of the hydroelectric station and its full discharge, cameras placed over the diaphragm evenly around the perimeter of the tank and connected via ducts to the cavity of the tank under the diaphragm characterized in that, in order to increase the efficiency of operation due to a more complete blowout of gas, it is equipped with louvered grilles mounted on One of the chambers and the louvre grille plates are inclined towards the center of the tank.

Description

0t / ef The invention relates to hydraulic engineering and can be used in pressure conduits of hydroelectric power plants. A leveling tank with a hydraulic resistance unit made in the form of a flat perforated diaphragm located in the section between the minimum and maximum dynamic water levels in the tank is known. The disadvantage of this device is that the perforated diaphragm at high placement increases the height of the tank, as in this case the water level in the tank reaches higher levels than in conventional tanks with resistance. This is explained by the fact that when the load from the hydroelectric station is relieved, the flow of water ascending in the tank has a large reserve of excess kinetic energy and pours from the holes in the diaphragm into the upper part of the tank a powerful front, reaching an even significant height. Also known is a surge tank, which includes a tank with a diaphragm located between the minimum and maximum dynamic levels of the capacity, corresponding to the full load of the hydroelectric station and full reset, cameras placed over the diaphragm evenly around the perimeter of the vessel and connected via conduits to the cavity, containers below С 2 diaphragm Calm walls located in the chambers provide significant resistance to the flow of water, which causes a small degree of hydraulic shock absorption. The purpose of the invention is to increase the working efficiency due to more complete hydraulic shock absorption. This goal is achieved by the fact that a surge tank containing a tank with a flat diaphragm located between the marks of the minimum and maximum dynamic water levels in the tank, corresponding to the full load of the hydroelectric station and its full discharge, is placed over the diaphragm evenly around the tank perimeter and connected to the cavity through ducts containers under the diaphragm, provided with louvered grilles installed at the outlet of the chambers, and plates louvered grilles are located obliquely towards the center of the container. FIG. 1 shows a surge tank, Btffl from above; FIG. 2, section A-A in FIG. one; in fig. 3 the same (making louvre lattices with horizontal plates). The equalizing tank consists of a cylindrical tank 1 and a hydraulic resistance assembly including a flat diaphragm 2 located between the minimum and maximum dynamic water levels in tank 1, corresponding to the full load of the hydroelectric station and its complete discharge, chambers 3 placed over the diaphragm 2 evenly around the perimeter of the tank 1 and connected by means of conduits And with the cavity of the tank 1 under the diaphragm 2, and louvered grilles installed at the outlet of the chambers 3 and having plates 5 located obliquely in the nap The pressure to the center of the container 1, the water conduit 4 connected to the chamber 3 through the holes 6 'carried out in the ceiling 7 is a continuation yuschems diaphragm 2. The device operates as follows. When the load is discharged, the flow of water into the reservoir 1, and when the diaphragm 2 is reached, the conduits 4 are divided into separate jets, which at the initial moment of time, poured powerful fountains through the openings 6, break into the ceiling of the chambers 3, are broken up and crushed. Then, as these jets are flooded, the flow of water is aligned with the plates 5 and is directed to the diaphragm 2 toward its center, where the final quenching of the flow energy occurs. Such an implementation of the surge tank will increase its efficiency by more fully quenching the surge tank.

Aa

Aa

five

Min D. U.

NinD.U.

Phage 2

FIG. J

Claims (1)

'EQUALIZING RESERVOIR containing a tank with a flat Diaphragm located between the minimum and maximum dynamic levels of water in the tank, corresponding to the full load of the hydroelectric power station and its full discharge, cameras located above the diaphragm evenly around the perimeter of the tank and connected via ducts to the tank cavity under a diaphragm, characterized in that, in order to increase work efficiency due to more complete damping of water hammer, it is equipped with louvres installed at the exit from the chambers, and the plates of the louvre lattices are located obliquely towards the center of the tank. 1 1122774 2