JP2021148119A - Circulation type hydraulic power generation - Google Patents

Abstract

To provide continuous circulation type hydraulic power generation in which the energy for pumping water falls below the generated energy, solving the problem that there used to be no circulation type hydraulic power generation except water pumping type power generation, and water pumping is required for operating circulation type hydraulic power generation, and the energy used for water pumping exceeds the energy obtained by hydraulic power generation.SOLUTION: Buoyancy of air bubbles is used for pumping water with saved energy. The air bubbles rise toward a water surface by being influenced by the buoyancy, and water also rises by the influence. By using the rising water as pumped water, the energy to generate air bubbles becomes the energy to pump water. Air bubbles can be generated by pouring air into the water, so that energy can be saved. When this method is used, the energy to pump water falls below the energy to be generated.SELECTED DRAWING: Figure 1

Description

The present invention is an invention in which bubbles are generated in a water tank and the buoyancy of the bubbles is used to circulate water in the water tank to continuously generate electricity.

Hydropower did not circulate the water used for power generation, except for pumped storage power generation.

Applicable literature unknown

There was no circulation type except for pumped storage power generation, but the energy used to pump water exceeds the energy obtained from hydroelectric power generation. If the energy to be circulated exceeds the energy to be generated, continuous circulating hydroelectric power generation can be achieved.

A method of pumping air into the water to save labor in circulating energy, and pumping water using the rising water flow created when the bubbles created rise in the water due to the effect of buoyancy.

According to the present invention, continuous circulation type power generation can be performed in hydroelectric power generation.

Front view of the present invention

When water is stored in the water tank 1, the air pump 2 is operated to send air from the introduction tube 3 to the water tank 1, and bubbles 5 are generated in the installation frame 4 in the water tank, the bubbles 5 store water due to the influence of buoyancy. Ascending the tank 1, an ascending water flow 6 is generated in the process.

When the rising water flow 6 is generated, the water in the installation frame 4 moves to the water storage tank 1, and as a result, the water flow is generated from the introduction pipe 7 through the hydroelectric generator 8 to the introduction pipe 9 and to the introduction port 10.

When the rising water flow 6 and the introduction port 10 are arranged vertically, the rising water flow 6 generated by the bubbles 5 and the introduction pipe 7 pass through the hydroelectric generator 8 to the introduction pipe 9, and the water flow tends to be integrated to the introduction port 10.

When the air pump 2 is continuously operated, the bubbles 5 are continuously generated and the rising water flow 6 is also continuously generated. Occurs in. By continuously generating the rising water flow 6, the hydroelectric generator 8 can be continuously operated to perform continuous circulation power generation.

1 Water tank 2 Air pump 3 Introductory pipe 4 Installation frame 5 Bubbles 6 Rising water flow 7 Introducing pipe 8 Hydroelectric generator 9 Introducing pipe 10 Introductory port

Claims (3)

Water is taken out from the water tank, and the water taken out is used to operate a hydroelectric generator to generate electricity. And a method of continuous hydroelectric power generation by returning the water that operated the hydroelectric generator to the original water tank. By sending air into the frame inside the water tank, bubbles are generated in the water, and the generated bubbles rise due to the influence of buoyancy. A method of circulating the water discharged from the inside of the water tank to the outside by creating a rising water flow in the water due to the rise of bubbles and integrating the water discharged to the outside with the rising water flow. A method in which the water flow is smoothly integrated by matching the angle at which the bubbles rise and the angle of the water flow in order to integrate the water flow taken out to the outside and the water flow in the water tank.

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