JP2015113831A - Method of generating electricity by circulating and reusing water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hydraulic power generator that solves the problem of conventional generators in which: hydraulic power generation may have insufficient amounts of water for generating electricity and wastes thrown-away water; thermal power generation generates CO2 due to fuel; and nuclear power generation requires disposal of spent nuclear fuel or disallows various operations to be performed in normal conditions.SOLUTION: The present invention provides: means of circulating water for generating power; means of rotating a turbine 3 by making water level difference for water to fall; and means of providing a water pipe 1 through which water passes and falls.

Description

(1) This is a technical field where water used to rotate the turbine is circulated and used again.
(2) This is a technical field where water is used even in places where there is no amount of water to rotate the turbine, for example, in urban areas or mountains.
(3) Drop the water with a drop, and rotate the turbine by the pressure of the falling water. This is a technical field where electricity is generated by transmitting the rotation of this turbine to the generator motor.
(4) In order to drop water and rotate the turbine, a water pipe for passing water is set up vertically. Or, set the required slope, tilt and fix.
It is a technical field that allows water to fall through this water pipe.

There is a hydroelectric power generation system where a dam is installed at a high altitude in a mountainous area in a relatively limited area, and the water of the dam is dropped with a drop and the turbine is rotated to generate electricity.
Or, there is thermal power generation that generates steam with thermal power and generates electricity by rotating the turbine with this steam.
Or, there is a nuclear power plant that uses nuclear power to generate steam with very high temperature heat and rotate the turbine to generate electricity.

If it is hydroelectric power generation, it is a problem of the place where a dam is installed or a device is installed.
Or it is an issue that makes water disposable.
In the case of thermal power generation, the issue is where to take in the fuel used.
For this reason, it is an issue limited to the seaside. Or the issue of CO2 from fuel.
If it is a nuclear power plant, the issue of the installation place that cannot be separated from the sea. Or the issue of disposal of spent nuclear fuel. Or, even if you do various normal tasks, it is an issue that you can not do in normal conditions.
If it is solar power generation, it is an issue of sunshine.
In the case of wind power generation, there are installation issues and wind power issues.

(1) A means to drop water into the water pipe from a height of 50 to 100 meters, for example.
(2) The turbine is rotated by the falling water pressure. This is a means of generating electricity by transmitting the rotation of the turbine to the generator motor and rotating the generator motor.
(3) This is a means of rotating the turbine to pump up the fallen water again and circulating the water again.
(4) The necessary amount of water for rotating the turbine is stored in the water tank. And it is a means to circulate using this water.
(5) A means of fixing and fixing the water for rotating the turbine on the surface of the sea, lakes, ponds, etc. everywhere. It is a means of pumping up, using, and circulating these waters.

(1) There is no water problem in order to circulate and reuse water without making it disposable.
(2) Even if a dam is not installed, a water tank is provided. Or it is an effect that can use the water of the sea surface, lake surface, pond surface, etc.
(3) Even if power is generated, no CO2 is produced.
(4) Even if power is generated, no waste is generated.
(5) Not affected by natural sunshine or wind power.

The (9) aquarium / stage shown in Fig. 1 is fixed and installed in the ground. And (1) the upper part of the water pipe, (2) the water receiving port and the lower part of the water pipe, (3) the turbine and (4) the generator motor provided (1) the water pipe, (9) the upper part of the water tank and stage Stand upright. Or, it is a form in which the required inclination is set and fixed with a large tilt.
And fixed (1) at the upper part of the water pipe (2) at the water receiving port, (9) the water in the water tank is (5) pumped by the pump and (6) water discharge pipe, (2) water is discharged at the water receiving port (1) Drop the water pipe. (3) The turbine is rotated by the pressure of this falling water. This turbine rotation (4) is transmitted to the generator motor, and the generator motor is rotated to generate electricity.
Then, the turbine is rotated, and (9) the falling water that has fallen into the water tank is again (5) pumped up by the pump and used again as falling water to circulate the water.
(9) A tank / stage is installed in an urban area where there is no water volume, or in a mountainous area, etc., and electricity is generated by circulating the water in the tank.

The (11) stage shown in Fig. 2 is projected and fixed on the surface of sea water, lake water, or a pond surface. (1) The upper part of the water pipe (2) The water receiving port and the lower part of the water pipe are provided with (3) the turbine and (4) the generator motor. (1) The water pipe is (11) set up perpendicular to the upper part of the stage. . Or, it is a form in which the required inclination is set and fixed with a large tilt.
And fixed and installed (1) at the top of the water pipe (2) water such as seawater, lake water or pond water to the water receiving port (5) pumping pump and (6) drainage pipe to (2) water receiving port Drain the water and drop it in the water pipe (1). (3) The turbine is rotated by the pressure of this falling water. In this mode, the rotation of the turbine is transmitted to the generator motor (4) to generate electricity by rotating the generator motor.
Then, the turbine is rotated and the falling water that falls on the sea surface, the lake surface, or the pond surface is pumped by the pump (5), and is used again as the falling water to circulate the water.
(11) A stage is installed on the water surface of the shore such as the sea, lake, or pond, and this water is circulated using abundant water to generate electricity.

The (12) stage shown in Fig. 3 protrudes from the water, such as seawater, lake water, or pond water.
Then, (1) the upper part of the water pipe, (2) the water inlet and the lower part of the water pipe, (3) the turbine and (4) the generator motor, (1) the water pipe, It is a form that is fixed and installed with a large tilt.
And fixed (1) at the upper part of the water pipe (2) The water receiving port (2) water is received by (5) pumping pump and (6) water discharge pipe to the water receiving port such as seawater, lake water or pond water Water is discharged into the mouth, and (1) the inside of the water pipe is dropped. (3) The turbine is rotated by the pressure of this falling water. In this mode, the rotation of the turbine is transmitted to the generator motor (4) to generate electricity by rotating the generator motor.
Then, the turbine is rotated, and the fallen water that falls on the sea surface, lake surface, or pond surface is pumped up by the pump (5) and used as fallen water to circulate the water again.
(1) By providing the water pipe with an inclination and tilting it significantly, (5) it is a form that reduces the output of the pump and reduces the height.
Or it is a form for dropping water without scattering (1) in the water pipe.
(5) Electricity such as the pumping pump is switched to the self-sustaining power generation when the proposed device generates power.

Water tanks and stages are installed in various places to circulate the water in the water tank and rotate the turbine. Then, electricity is generated and used for residences, stores, or various industries.
It is installed on the shores of the sea, lake, pond, etc. and uses these abundant water. Then rotate the turbine. Then, electricity is generated and used for residences, stores, or various industries.

(9) A cross-sectional view of the tank / stage and (1) a three-dimensional view of the water pipe. (11) Sectional view of stage and (1) Three-dimensional view of water pipe. (12) Sectional view of the stage and (1) Three-dimensional view with the water pipe tilted.

(1) Water pipe (8) Water surface (2) Water receiving port (9) Tank and stage (3) Turbine (10) Rock bed (4) Generator motor (11) Stage (5) Pumping pump (12) Stage (6) Water discharge pipe (13) Water pipe strut (7) Strut

Claims (5)

The (9) aquarium / stage shown in Fig. 1 is fixed and installed in the ground.
(1) A water pipe (2) A water receiving port and a lower part of the water pipe are provided with (3) a turbine and (4) a generator motor. (1) The water pipe is set up vertically on (9) the upper part of the water tank / stage. Or, it is a method to install it by tilting it with the required inclination. The (11) stage shown in Fig. 2 protrudes from the water (8) on the surface of the water and is fixed and installed.
(1) Water pipe (2) Water inlet and lower part of water pipe (3) Turbine and (4) Generator motor are installed (1) Water pipe is (11) Standing vertically on top of stage, or It is a method to install it by tilting it with the required inclination. The (12) stage shown in Fig. 3 protrudes from the water (8) above the surface of the water and is fixed and installed.
(1) Water pipe (2) Water inlet and lower part of water pipe (3) Turbine and (4) Generator motor (1) Water pipe (12) Large slope on top of stage It is a method of fixing by tilting. Fixed and installed (1) At the upper part of the water pipe (2) At the water receiving port, (5) Pumping pump and (6) Water discharge pipe, (2) Water is discharged into the water receiving port (1) Inside the water pipe Let fall. (3) The turbine is rotated by the pressure of this falling water. (4) This is a method of generating electricity by transmitting the rotation of the turbine to the generator motor and rotating the generator motor. This is a method of circulating the water by using the pump to pump the fallen water that has fallen by rotating the turbine (5) using the pump.

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