SU1753014A1 - Wave-driven electric power plant - Google Patents

Abstract

A flared end 2 for reception of waves with the lift pipe 3 is partially immersed into water below its level and is immovable fixed. The accumulator tank 4 with the drain line is disposed higher than the water level and connected to pipe 3. The hydraulic unit 1 is coupled at the output of the drain line. The cutting off tap 5 is mounted on the drain line. The turbo generator (6 and 7) is connected to the output of pipe 3.

Description

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The invention relates to the field of hydropower and can be applied to generate electricity by using wave energy.

Known wave hydroelectric power stations containing a turbine with a generator. Such hydroelectric power plants have a complex structure, unstable operating mode, low efficiency, etc.

The core of the invention is to ensure the stability of the operating mode of the power plant, reducing the cost of generated electricity, increasing the power efficiency of the hydroelectric power station and expanding its application.

This goal is achieved by the fact that in a well-known hydroelectric power station, which has a fixedly mounted wave receiving receiver with an inclined lifting pipe partially submerged under the water level, a storage tank with a drain line located above the water level and communicated with the lifting pipe and the hydraulic unit connected to the outlet of the above drain highway.

The hydroelectric power plant is equipped with a turbo-generator and a shut-off valve. The latter is installed in the drain line of the storage tank, and the turbo-generator is connected to the outlet of the lifting pipe.

The drawing shows a surf hydroelectric station

The hydroelectric power plant contains a hydraulic unit 1, partially submerged below the water level, a fixed receiver-receiving bell 2 with an inclined water-lifting pipe 3, a storage tank 4 with a drain line located above the water level and communicated with the hydraulic unit 1 and the lifting pipe 3 of the bell 2 In addition, the hydroelectric power station is equipped with a bridge crane 5 installed in front of the hydraulic unit 1 drain line, additional turbine generator 6 and 7 installed in the storage tank 4 opposite the exit from odopodemnoy tube 3.

Hydroelectric power works as follows.

The waves incident on the wave-receiving bell cause a periodic rise of water flow through the water-lifting pipe 3 and its drainage ef storage tank 4, from which water, when it reaches the required level, opens the hydraulic unit 1 producing electric current when the required level is reached. In addition, in the water-lifting pipe 3 there is a movement of water flow with the air flow acting on the blades of the turbogenerator 6 and

7, installed in the tank 4 opposite the exit from the pipe 3, and rotating the additional turbogenerator 6 and 7, producing an electric current. Height of storage tank

0 4 is chosen taking into account the characteristic for this water body waves, ensuring the rise of water in the storage tank 4, and with a decrease in the intensity of the waves, the surf electric station does not lose its working capacity completely, since the turbogenerator 6 and 7 in this case will continue to work from the air flow unidirectional rotation can be performed by any

0 in a known manner, for example using guide vanes (not shown). An increase in agitations will affect the blades of the turbogenerator 6 and 7 not only the flow of water, but also the flow of air, which at 5 leads to an increase in its efficiency.

The technical and economic efficiency of the proposed two-stage power plant is that it can be easily and cheaply manufactured and applied everywhere, where tidal waves are observed, and its efficiency is maintained both during a storm and at waves below the calculated value. The water stored in the storage tank can be used, as necessary, to generate electricity in calm weather with the help of an open-faucet mounted in front of the hydraulic unit of the discharge line.

Claims (1)

Claims of the Surf Hydroelectric Power Plant Containing a Still Fixed Partly Submerged Under the Water Level 5 wave-receiving bell with inclined water-lifting pipe, accumulative tank with drain line, located above the water level and communicated with the water-lifting pipe, and hydraulic unit connected 0 to the output of said drain line, characterized in that, in order to increase power, power plant efficiency and expand its operating range by using wave energy with small amplitude, the hydropower plant is equipped with a turbo generator and a shut-off valve, the latter is installed in the drain line of the storage tank , and the turbogenerator is connected to the outlet of the water-lifting tube.