UA50018A - Hydro-drive for hydroelectric power station - Google Patents

Abstract

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Description

Description of the invention

The invention relates to hydropower and can be used in other areas of the national economy. 2 Known drives of hydroelectric power stations, consisting of a dam, a water pipe, a hydro turbine with an electric generator.

The power of the hydraulic drive of such a hydrostation depends on the height of the dam and the flow of water in the water supply.

The disadvantage of such a hydraulic drive is the high dependence of the drive power of the hydrostation on the height of the dam. To increase the capacity of such a hydroelectric station, it is necessary to increase the height of the dam, which leads to excessive flooding of the banks and worsens both the economic and ecological indicators of the environment. Siphon 70 spillways are also known. The prototype of the invention can serve as a siphon spillway |2, p. 1811.

The purpose of the invention is to increase the power of the hydraulic drive of the hydroelectric power station at a constant height of the dam. The invention is based on the principle of raising water above the dam with the help of a vacuum siphon, feeding it to the impeller of the hydro turbine using the derivation pipeline and using the gravity pressure of the water in the derivation pipeline to ensure an increase in the power of the hydroelectric power plant. The diameter 12 of the vacuum siphon should correspond to the flow of water in the river (about one meter in diameter). The water in the siphon rises to a height of 5 - 7 meters above the water level in the reservoir, then the water is carried through the pipeline in a section of 8 - 10 meters with a slope of З - 5 degrees to the horizon, which is connected to the derivation pipeline, and its diameter is 10 - 15, the length and slope of which depends on the need for water necessary for the formation of weight pressure and is connected to the hydro turbine using a nozzle. Between the derivation pipeline and the hydro turbine there is a gate valve, which, together with the gate valve on the siphon, closes the pipeline system during charging of the siphon.

The diameter of the derivation water pipe is 10 - 1595 smaller than the diameter of the siphon, and the length depends on the required volume of water in the derivation water pipe to create the required weight pressure. The consumption of the derivation pipeline should not exceed win rivers per second, and preferably 5 - 895 less. In fig. a diagram illustrating the operation of such a hydraulic drive is presented.

The hydraulic drive consists of a siphon pipe (1) with a valve latch (2), a nozzle closed by a valve " (3) (not shown in the figure) at the highest point of the siphon, necessary for charging the siphon, a derivation inclined pipeline (4), at the end of which a shut-off valve (5), a supply pipe (nozzle) (6) to the hydro turbine, of the appropriate diameter, several reinforced concrete supports (7) are installed to support the pipeline. A protective check valve (8, not shown in the figure) is installed in the vacuum pipeline, and a protective valve (9) (not shown in the figure) is installed at the end of the derivation pipeline to prevent hydraulic shock in cases of exceeding the calculated pressure in the pipeline .

The proposed hydraulic drive works as follows. After charging the siphon, the valves (2, o 5) open at the same time and water under the influence of vacuum fills the siphon and flows to the nozzle through an inclined pipeline. Mass of water in (from the inclined pipeline creates a weight pressure capable of doing work. The size of this work is proportional to the weight of water in the pipeline and depends on the diameter and length of the derivation pipeline, moreover, the horizontal o component of this pressure is equal to the vertical projection of the pressure pipeline in meters, and the vertical component is equal to the weight of water in the inclined pipeline, in tons. The product of these components determines the power of the water flow in joules (1 t.s.m. - 1 OkJ), minus the power of the vacuum. Since the siphon after starting works "automatically", water is supplied to the blades of the hydro turbine until it is maintained vacuum in the siphon. With 50, technical and economic efficiency consists in the fact that in the derivation pipeline, the water creates a pressure of weight P - RamU, which acts on the working wheel of the hydro turbine. In this expression, P is weight pressure, P is the density of water,

Iz» 9 - acceleration of free fall, MU - volume of water in the pipeline.

The power of the hydraulic drive is M - РН (J), where H is the height of the upper end of the derivation pipeline above the lower one (vertical projection of the derivation pipeline in meters).

Thus, such a construction of a hydraulic drive allows, without building a high dam, to obtain sufficiently large power of hydroturbines of hydroelectric power stations. This is especially important in the construction of hydroelectric power stations on small av| plain rivers.

Sources of information taken into account: o 1. Altshul A. D. et al. Hydraulics and Astrodynamics (textbook for universities) - Moscow, "Stoyizdat", 1987. - 414 p. - 70 2. Reference book on hydraulics / sub. ed. V. A. Bolshakova, 2nd ed. processing and additional - Kyiv, "Higher School" 1984. - 343 p. co., Z. Moiseev, I. S. Handbook of the hydraulic engineer - Moscow "Energy", 1976. - 512 p.

Claims (1)

The formula of the invention » A hydraulic drive for a hydroelectric power plant consisting of a siphon, a derivation pipeline loaded on a hydraulic turbine, which is characterized by the fact that water from the reservoir is fed into the derivation pipeline by means of a vacuum siphon pipeline raised 5-7 meters above the water level in the reservoir, and 60, it is carried out through a pipeline, the diameter of which is equal to the diameter of the siphon pipeline, and the weight pressure of the water is used to rotate the wheel of the hydro turbine, and the power of the hydraulic drive depends on the vertical projection and the length of the derivation pipeline. b5