WO2018033783A1

WO2018033783A1 - Continuous power generation using vibration of water tank

Info

Publication number: WO2018033783A1
Application number: PCT/IB2016/057084
Authority: WO
Inventors: Mohammad Mahdi BASTAN
Original assignee: Bastan Mohammad Mahdi
Priority date: 2016-08-17
Filing date: 2016-11-24
Publication date: 2018-02-22
Also published as: WO2018033872A1

Abstract

Hydroelectric power generation system by standing water that consists of a turbine and a generator and Two-stage water tank and vibrating mechanisms of power generation and transmission system of pumps, pipes and nozzles and the power of transmission system produced by vibrating mechanism in the bottom of the water tank. The aim of the present invention is produces electricity from standing water and eliminate the limitations of spatial and water resources.in The current system of generating electricity in hydroelectric dams and abundant water is required. Vibration caused by the outflow of water from the nozzle to the tank transmitted to the Vibration Generator By springs. Water is pumped from the bottom of the tank to the nozzles and the turbines then the electricity is produced by hydro generator after pouring the water into the vibrating tank the process will be stabilized.

Description

Vibrating Turbine With Spring Mechanism

The present invention relates to hydroelectric power generation system. Using method of generating electricity from static and water.

The present invention produces electricity by standing water and using a transmission mechanism to stabilize the process. Then the electricity is produced with less energy expenditure. The biggest problem in using hydroelectric is dam and Low efficiency and the much cost. Hydroelectric power generation system consists of power generation and power transmission sectors.

Generation sector consist of the dam, generators and large turbine and requires a lot of water. Transmission sector consist of the transmission system and transmission equipment .the present invention using a standing water and construction capabilities in all areas, eliminating the need to running water and the high-pressure transmission line. The present invention can provide advanced power generation systems.

Advantages

1-system of hydroelectric power production, without the need for dams and running water.

2. No restrictions on the location and Ability to build near cities

3-without the need for high-voltage transmission systems (if constructed near cities).

4. clean energy without environmental damage and noise.

5-usability in various equipment needed for power supply.

6-security and without the risk of repairs and modifications.

7-generate electricity with lower costs and higher efficiency equipment.

According one aspect of the present invention, the invention has the ability to generate electricity from standing water by. Using the vibrational energy of water, transmission system electricity will be generated.

The present invention consists of three parts:

1. The main part of electricity generation, including hydro generator and turbine.

2. The vibration power generation sector, which includes the tank, spring and vibration generator.

3- transfer section including pumps, pipes and nozzles.

Spring mechanism includes transmission sector and vibration power generation sector of electricity.

It is built on a flexible tank floor. To most small tremors are causing it to vibrate. The water tank is placed below the turbine chamber. Because water after hitting with turbines pour into it.

springs are connected to the bottom of the flexible tank. They designed with flexibility and vibration transmission from the floor of the tank.

Vibration generator consists of magnet and coil. The magnets are attached to the ends of the springs to receive vibrations And Vibrate. The coils are placed around the magnet. Vibration generator output is connected to the transmission system.

Pump suction inlet connected to the tank floor. And water is pumped to the pipes.

In front of the turbine nozzles are connected

Pump, pump the water into the pipes THEN THE Water passes from the nozzle to the turbine. So the main electricity is generated and transmitted to the electricity transmission system.

After hitting the water to the turbine, the water goes back into the tank And after vibration the tank, re-enter the process and the process will continue permanently.

To start the system requires a temporary power supply for the temporary pump Start. the temporary power supply after the start of the process of the power plant will be removed from the circuit.

As much as we need water-filled tank. And by the temporary power supply, the pump will start. When water was pumped. And electricity by vibration generators generate. Temporary power supply is switched off. Then the pump is connected to a vibration generator output and the stabilization the process.

Generators and turbines are at a higher altitude than the rest of the equipment and the equipment connected to the bottom of the tank.

Throughout the system, sensors are exposed to the status report just a moment. The sensors are connected to the plant control room.

For security vibration generator windings is covered by insulation. To prevent electrical hazards.

Pumps, turbines placed at a comfortable distance. To pump water with good pressure.

Vibration Generator is a very important part dependent on the coil, without which the process is not possible.

Water exit of the tank should be done with appropriate speed. To not preventing a vibration. also can build tank in two stages.

In the first stage the vibration of the water is absorbed. And then transported by pipeline to the second stage and then the water is absorbed by the pump.

The springs are attached through the second stage to the first stage. And springs are insulated.

Fig1.Outline electricity generation systems, including power generation and transmission.

Fig2.chamber view showing the turbine nozzles and turbine .

Fig3.diagram of the process of production and transmission of electricity .

Fig4.diagram electrical energy produced by the vibration generator .

Fig5.diagram of the transmission system to transfer water turbine .

Fig6.tank design .

Detailed description of drawings

Fig1.that shows the electricity production process. Hydro generator output1 that is connected to the customers And the main part of

electricity generation

2,3,4,5.

Bottom 6 with flexibility built. And vibration transmitted by

springs

7,8 to the

magnets

9,10

9,10 magnet inside the coil 11 are vibrating and electricity is produced by the vibrating generator 12. Vibration

generator power output

13,14 connected to the pumps 15.

Pump15. By the suction pipe 16 pulls water from the tank6. And form the output 17 send to pipe 18. And water finally reaches the nozzle 19. And pumped onto the turbine 5.

Fig2.is showing the turbine Chamber 4 .the nozzle 19 Receives water puts pressure on the turbine 5. And moves the water generator 3.that connected to the turbine. (Junction of turbine and generator 2)

Fig3.Start a temporary power supply 100 cause Start the pump 101 And suction of water from the tank And pump it over turbine 102. cause tank 106 to vibrate. And cause Rotate the main generator and transmission of electricity to the costumers 104,105. After a Vibration tank 106 Vibration by springs transmitted to the vibrating generator 107 And by vibrating magnet electricity will generate 108 and Electricity for the pumps is produced 109.

Fig4.vibrating tank 200. Causes vibrating magnet 201.And by vibrating magnet between coil 202 electricity produced by vibration generators and sent to the pump 203.

Fig5.Pump by the suction pipe Sucks water from the tank 300. And by pipe 301 send to the nozzles 302 and water pumped on the turbine 303.

Fig6.Water from the first stage (tank)5 connected to the second stage 21 by pipe 20 and the

springs

7,8 through the second stage connect to the first stage. And by receive vibration Causes the vibration of the magnet is 9,10.

Claims

vibrating turbine with spring mechanism comprising :
a ) The main part
i ) Generator
ii ) Turbine
b ) Spring mechanism
i ) Vibration power generation sector
A ) Tank
B ) Vibration Generator
ii ) Transferring
A ) pump
B. ) Pipelines
C. ) Nozzle.
According to claim 1 The main part of the stability provided by a spring mechanism .
according to claim 1 Tank is comprising :
a ) part I
B. ) Part II
C. ) The interface between the first and second part
according to claim 3The first part is made flexible to absorb the water vibrations.
According to claim 3 and 4, the second part is made for water storage. And by the interface connected to the first part.
According to claim 1 vibration generator comprising magnets and coils . Without this section The invention does not work.
According to claim 1, 3 and 7, the beginning of spring is connected through the second stage to the first stage. And bottom of the springs is connected to the magnets of vibrating generator .
according to claim 1 and 8, the output of electricity generated by the vibration generator is connected to the pump.
According to claim 1 and 6 pump inlet to the second floor after the suction pump and water tank is connected by pipes to the nozzles is .
according to claim 1 Nozzles are placed in front of the turbine.
after hitting the turbine by water and generate electricity by generator , water goes back into the tank .
generators and turbines are higher than in the rest of the equipment and pumps for the transfer appropriate pressure placed in the correct distance from the tank .