PT103258B - ELECTRICITY PRODUCTION UNIT USING CENTRIFUGAL, CORIOLIS AND WIND POWER - Google Patents

Abstract

UNIT OF PRODUCTION OF ELECTRICITY FROM THE CONJUGATION OF THE WIND POWER, CENTRIFUGAL FORCE AND CORIOLIS. THE INNOVATION OF THE SYSTEM RESULTS FROM THE WAY TO CONJUGATE THESE THREE FORCES THAT ARE ASSOCIATED AND FROM THEM TO GENERATE ELECTRICITY. THE OPERATION OF THE SYSTEM IS BASED ON THE OPERATING PRINCIPLE OF A WIND TURBINE, (12) A VERTICAL AXLE (6), WITH THE DIRECTION OF ROTATION IN THE NON-HOURS HEMISPHERE AND THE HOURS OF THE HOURS OF HOURS, CONJUGATED WITH THE USE OF MASSES ( 7) (8) which is moved in a horizontal plane (10) by the effect of the force of Centrifugal associated with the force of Coriolis and the effect of the electromagnetic field (8) (9). THE SYSTEM POTENTIATES THE WIND AVAILABLE THROUGH WIND TUNNEL TO BE INSTALLED IN THE COVERAGE OF BUILDINGS OR IN THE CIMO OF INFRASTRUCTURES. The system uses the principle of the gyroscope (6) (8) (10) for the production of electrical energy using alternating movement of its magnet masses (8) (10) passing through a fixed cable (18) as well as the rotation of a magnetic disk (9) which induces a fixed cable (10). ALEM OF THESE SYSTEMS USES THE TRADITIONAL SYSTEM OF TURBINES (14) WIND BY THE THAT THE ENERGY PRODUCTION IS MADE THROUGH THREE SYSTEMS.

Description

Electricity production unit using centrifugal force, coriolis and wind

Electricity production unit based on the combination of the Wind Force, Centrifugal Force and Coriolis.

The system's innovation results from the way of combining these three forces that are associated and generating electrical energy from them.

operation of the system, is based on the principle of operation of a vertical axis wind turbine using masses that move in a horizontal plane due to the centrifugal force associated with the coriolis force and the electromagnetic field effect.

Components of the wind system System consists of several components that must work in tune with the corriolis / centrifuge system in order to optimize the final yield.

For the operation of the unit and production of electricity, the system must take into account several parameters and generally the following components:

Location: Northern or Southern Hemisphere and Latitude;

Wind: Energy availability of the installation site; Rotor: Responsible for transforming the kinetic energy of the wind plus the energy of the coriolis / centrifugal force into mechanical energy of rotation; (6)

Transmission and gearbox: Responsible for transmitting the mechanical energy delivered by the shaft to the rotor;

(14)

Generator: Transforms mechanical energy into Electric Energy; (14)

Control mechanism: For speed control and load control among other functions; (14)

Base and Axis: supports and positions the entire system, (15) (6) Electromagnetic system: responsible for creating an electric field necessary for the movement of the masses, potentiating the force of corriolis and centrifuge; (9)

Arms: structure where the masses move in a horizontal plane that enhance the force of the corriolis and centrifuge, accelerating the rotational movement imprinted by the wind system; (7)

Pasta: pasta (magnet) that move in the arms due to the effect of centrifugal force, corriolis and magnetic (8) Aro: creates a magnetic field by the effect of Barnett (9) (16) (17)

Coil: produces energy by electromagnetic induction. (10) (18) Between coils (10) and ring (9) and between masses (magnet) (8) and coils (18)

Storage System: Stores the energy for producing steady energy from an intermittent source; Transformer: equipment responsible for the electrical coupling between the electrical generator and the electrical network; Accessories: other components necessary for the system.

Wind Power System

Wind power systems exist for different dimensions and for different applications:

Large systems connected to the network with powers ranging from 50KW to 1500KW

Medium-sized Hybrid Systems with powers ranging between 10 and 200KW.

Isolated wind systems with powers ranging from 25KW to 50KW

In the proposed system, the adopted wind turbine is a vertical axis turbine and can be of the Savonius, Darrieus, Molinete or Mixed type depending on the size and location of application (Figure 6).

The direction of rotation will have to be counterclockwise in the Northern Hemisphere and in the Southern Hemisphere the Clockwise to use the corriolis and centrifugal force (Figure 2.4, 5.6 and 7).

The functioning of the system will be similar to the current systems whose technology is fully verified (figure 2).

The innovation we propose for medium-sized and isolated wind systems is based on simple principles that we encounter on a daily basis (figurale3).

So when we are at home with the windows open, significant air currents are formed that only cease when a door slams or one of the windows closes.

What happened was the creation of an artificial wind tunnel (Figures 1 and 3).

Buildings and constructions in general, relief, vegetation etc. barriers to the free circulation of winds forming artificial wind tunnels by themselves which the greater its size, height and location the greater wind potential it has, that is, the greater energy potential they hold. (Figures and 3)

Thus, this system proposes to take advantage of this potential with wind tunnels to be installed on the roofs of buildings, with a wind turbine inside that will allow the production of electricity. (Figuresi and 3) wind tunnel can be installed in all types of flat or inclined roofs.

It can also be installed either in new buildings or infrastructures at new heights, or in existing buildings. (Figuresi and 3) wind tunnel may be executed in an air conditioning duct plate (1) having the form of two funnels connected at the narrowest point (Figuresi and 3).

The orientation of the mouth will be facing the predominantly local wind direction (4) (figurei) and the exit on the opposite side (5) (Figurei). Both outer sides of the wind tunnel will have protective louvers with adjustable fins (3) to facilitate the capture of the wind and its exit.

wind tunnel when installed on the roof (figure 1 and

3) optimizes the use of the wind since it is in this area of the building that its greatest intensity occurs. On the other hand, the roofs of buildings are generally unused areas, so the placement of this equipment would be a major asset for the profitability of that area. In the inclined roofs (figure 3) the installation of this equipment would be done through the creation of pombaline type dumpsters in the existing buildings or grilling between tiles in the new constructions. The energy produced by these systems will feed the general framework of the building's common services, reducing energy costs.

For large systems, the units will be installed in wind farms with the current conditions.

Coriolis and Centrifuge Force Harnessing System

As the Earth has a more or less spherical shape, flattened at the poles and dilated at the equator and rotates around its north-south axis, all objects on its surface are subject to a centrifugal force. This force has a great influence on bodies that move quickly on the Earth's surface and little influence on those that move slowly.

A moving body is under the influence of a force that tends to deflect it to the left in the southern hemisphere and to the right in the northern hemisphere. This deviating force is called the Corriolis Force in honor of the physicist who studied it.

This force is expressed:

Corriolis force = 2 xWind speed x Speed

Angular rotation of the Earth x SEN Latitude of the place

Corriolis' strength in a body looks like this:

F Corriolis = 2 m v w

Where m is the mass of the body v the speed of the object and w the speed of rotation of the system. (Ldia)

The centrifugal force of a body = m * W * W * R

The system's innovation derives from the association of these forces in the vertical axis wind rotor

To operate this system, a cross structure is installed on the rotor axis that rotates in solidarity with it (6,7,14) (figures 4, 5, 6 and 7).

In the arms perpendicular (7) to the rotor axis (6), two masses (8) will be installed that move longitudinally along the arms (7) (figure 3.4) in a symmetrical way in relation to the rotor (6). The movement of the masses along the arms is done in the same plane in a cadence and derives from the rotor rotation movement.

The movement of the masses (8) in a synchronized manner will be done by the effect of the centripetal force when it moves outwards from the arms (7) and by the effect of the electromagnetic field created by the rim (9) when it moves inwards ie the shaft or rotor (6) as shown.

Moving inwards may also be aided by a slight inclination of the rotor arms (7) that

it can be adjustable or not and whose angle will depend on the estimated rotation speed.

The corriolis force is fundamentally reflected in the acceleration of the rotation so the greater the rotation speed and the weight (kg) of the masses, the greater this force will be. In the Northern Hemisphere the rotation has to be counterclockwise and in the Southern Hemisphere clockwise.

The system used at the exemplary level in this system is a Darrieus Turbine with vertical axis (6) and straight blade (12) adapting the arm system (7) with masses (magnet) (8) and magnetized rim (9) or electrodes . (Figures 4, 5, 6 and 7) being able to use another type of wind turbine according to local circumstances (figure 2).

The beginning of the rotary movement will be done by the action of the wind, according to any wind turbine, and will be enhanced in small and medium dimension systems by the wind tunnel (Figures le3).

At the beginning of the movement, the masses (8) are at rest near the rotor axis (6), the distance between them being derived from the magnetic electric field, since the masses on these faces are charged with the same (positive) signal, repel.

With the rotation movement caused by the force of the wind and the action of the centrifugal force, the masses (8) move away symmetrically until the end of the stroke (figures 4, 5, 6 and 7). When they reach the end of the stroke, they are again pushed back to the center by the influence of the magnetized ring (9) which functions as a negative electrode.

This harmonious reciprocating movement of the masses (8) in the same plane generates rotational movement that is accelerated by the action of the corriolis force.

í

The energy produced is derived from the sum of the wind force, centrifugal force and corriolis force.

This system allows for a much more constant and stabilized use of energy by the masses (8) than the currently used wind power, since θ is aided by the rotational energy of the earth's movement (figures 4, 5, 6 and 7) and the effect gyroscope.

The movement of the masses (8) (figures 4, 5, 6 and 7) in their synchronized shuttle can be assisted throughout their journey by the action of an electric field (figureô) and / or by a monitored system that regulates the alternating inclination of the arms (7) in order to assist the back and forth movement of the masses (8) (Figures 4, 5, 6 and 7.)

This electromagnetic field is formed by the Barnett effect on the circular magnetized metal ring (9) (figures 4, 5, 6 and 7) which is located on the periphery of the system's arms and which rotates in solidarity with the wind system.

This phenomenon consists of the magnetization of a steel cylinder (9), simply rotating the cylinder around its axis quickly.

In a rotating metallic cylinder (9), with the tangential velocity v, moving in the gravitational field of the Earth, it produces a magnetic field in the walls of the cylinder (rim) (9) perpendicular to the plane formed by the gravitational field and the tangential velocity of the cylinder (9) (figures 4, 5, 6 and 7). This magnetized ring (9) the positive charges (17) are on the outside and the negative ones (16) inside the ring (9) (figures 4, 5, 6 and 7).

dimensioning of the arms (7) and mass (9) will depend on local wind conditions and others namely intensity, orientation, frequency, area available for

install the unit, use of produced energy, electromechanical equipment and other parameters. Systems with several levels of arms (7) and masses (8) and respective reels (10) (18) can also be used

System for harnessing energy by the effect of Lorentz magnetic forces and Faraday principles

The magnetized masses (6) rotating around the axis will work as a mechanical generator of alternating current, making it necessary for the magnetic fields created inside and around to pass through the interior of a coil (10) in order to circulate this current electrical.

In this energy production system, the principle of operation of the alternators was adopted, initially using the simplest ones. Thus, over a fixed coil (10) (figure 5) induced, the magnetized ring (iran) rotates with SN poles (inductor) (16) inside the negative charge ring and (17) outside the positive charged ring. The magnet ring maintains a field from which the flow concatenated with the coil varies periodically, with the same frequency of revolution as the ring (magnet).

The iron core (11) of the coil is induced by the positive (17) and negative (16) poles of the rim. The electromotive force that changes its polarity periodically is called the alternating electromotive force. In the present case it is a harmonic alternating electromotive force.

In parallel - the production of energy through another system that uses the movement of the masses (magnet) (8) functioning as an inductor and the coils (18) as induced. So two fixed coils are placed

transversely to the masses passing the masses (8) inside these coils (18) (fig. 6 and 8) in their synchronized reciprocating movement (magnet) producing an alternating current functioning as another electromechanical generator.

These parallel energy production systems will be connected to the central control mechanism (14) which controls the load among other functions of the main energy production system which is the traditional system of a wind turbine. This control mechanism combines the energy produced by the three systems; the main (rotor of the traditional wind system) and that of the two systems described above.

Mixed Systems

These units can be used or combined with other units for the production of renewable energy or combustion

Thus they can be combined with solar energy systems, biogas, diesel or gas generators. They can also be used in units that use wave energy, namely the oscillating column system that uses the air flow in a closed chamber generated by the movement of the waves. In summary, these electrical energy production units use centrifugal force, coriolis and an air current generated in an air tunnel (1) in conjunction. The operation of the system (figs. 4,5,6 and 7) is based on the principle of operation of a vertical axis wind turbine (2) combined with the use of masses (8) that move in a horizontal plane due to the centrifugal force associated with the coriolis force and the electromagnetic field effect caused by the magnetized ring (9). For the generation of the air current, the oscillating movement of the sea waves, the geothermal, thermal, solar, biogas energy from the dam unloaders, or another that generates air flows can be used.

Physical Principles of the System

Coriolis strength

The mathematical formula that describes the Coriolis strength is:

F = 2 m v w

Coriolis force only acts on bodies that are in motion.

Whoever is standing in his corner does not suffer the action of the Coriolis force. That v in the Coriolis force formula indicates the object's speed. If v = 0, that is, if the object is at rest, the Coriolis force will be zero.

m is the mass of the moving body.

Coriolis force only acts on bodies that are in rotational systems.

We, for example, are in a rotational system, the Earth, which rotates around its own North-South axis, making a complete turn every 24 hours. Therefore, whenever we move, we are candidates to suffer the action of the Coriolis force. That w in the expression above represents the rotation speed of the system. In the case of Earth, this speed is one revolution a day. If the Earth were not

.................................................. ........

spinning, w would be zero and there would be no Coriolis force acting on the bodies that move on its surface.

The effects of Coriolis force can be observed in the movement of the winds around the centers of low pressure and in the rotation of the oscillation plane of a simple pendulum.

Under certain conditions, a given region of the atmosphere may have a pressure below normal atmospheric pressure. The neighborhood air then flows into this region and the molecules have their velocity along the flow lines shifted to the left in the Hemisphere

South, due to the Coriolis force. With this, swirls are formed with the air masses turning to the right. Just as the air masses are shifted to the left in the Southern Hemisphere, the particle that forms a simple pendulum is also shifted, so that the oscillation plane rotates counterclockwise. In the Hemisphere

North, deviations due to Coriolis force have opposite directions to those that occur in the Southern Hemisphere.

Centrifugal Force

When an object is in curvilinear motion, it is subjected to a force that acts radially from the inside out. This force is called the Centrifugal Force Fc.

Examples of centrifugal forces are:

- the force that grabs a motorcycle on the walls of a death pit, in circuses;

- the strength that lifts the carousel chairs in amusement parks;

- the force that balances gravity between the Earth and the Moon.

The force that forces an object to remain in curvilinear motion is called centripetal force.

Examples of centripetal force are:

- gravity in the planets' orbits;

- the tension on a rope when a stone tied to one of its ends is set to spin.

The centripetal force, which forces the body to curvilinear motion, ceases the centrifugal force immediately. Thus, it passes to the rectilinear movement. Therefore, if we cut the rope that keeps a stone in curvilinear movement around a point, the centripetal force exerted on the stone ceases, which immediately goes off on a tangent at a point in its orbit, ceasing the centrifugal force.

So we have to study the rotor rotation and its possible use, to analyze the angular moment of a rigid body of mass m, considering it to rotate around a Z axis, with angular velocity w and radius r, with a speed v = w * r

So the angular momentum = m * r * v

The forces Fi and F2 of Gravity do not act directly from one body to the other. The components of these forces, F4 and F6, will keep them locked together, while the perpendicular components F3 and F5 promote a rotation movement of the bodies around their center of gravity.

Mass Ma (8) equal to mass Mb (8)

If the mass Ma (8) of A and the mass Mb (8) of B are the same, the center of gravity will be the same distance from A and B, and the bodies will enter a circular rotation around the center of gravity with tangential velocity. v.

The tangential forces F ₃ and F _{5 will} accelerate A and B until a velocity v, of dynamic equilibrium, is reached.

When increasing the value of v, during acceleration, the forces

Fi and F ₂ increase.

Fi and F ₂ increasing, also increasing F ₃ , and Fê.

F ₃ and F ₅ increasing, the distance D between A and B. decreases.

F ₄ and F ₆ increasing, the tangential velocity v increases.

This process will continue until reaching values of D and v when bodies A and B will enter dynamic equilibrium.

This balance will occur when the centrifugal force Fc, due to the tangential speed of the circular motion of A and B, equals F ₃ and F ₅

Fc Π - F _S i

The centripetal force Fc in A and B is given by

We see that Fc increases proportionally with the square of v and with the inverse of the distance D between A and B. However, once the balance of forces is reached, F4 and Fê no longer increase the tangential velocity v. These forces will be exclusively responsible for the direction of the tangential velocity v at each instant. And as we know from Newton's first law, no body changes its state of motion, remaining at rest or in a uniform rectilinear motion, unless a force acts on it.

Eddy currents and Faraday Principles

When a metallic body oscillates, crossing the iron between a magnet (8) or electromagnet, there is a variation of flow through it, caused by a variation in area. This variation in magnetic flux induces a f.e.m. (electromotive force) in the body, which in turn determines the appearance of an electrical current in its mass. This induced current generates a new magnetic field that opposes the inductive magnetic field (Lenz's law).

Lisbon, 7 July 2005

Electricity Production Unit Using Centrifugal, Coriolis and Wind Force

Figures Legend

Figure 1 - Plan of the Unit to be Installed in a Wind Tunnel

1. HVAC duct sheet or fiberglass wind tunnel

2. Turbine (electricity production unit)

3. Vertical adjustable blade grid

4. Elevation of the building facing the wind - pressure elevation

5. Elevation of the building protected from the wind - elevation in depression

Figure 2 - Schematic situation of installation on the building roof

3. Vertical adjustable louver grid

Figure 3 - Schemes of vertical axis wind systems

Figure 4 - Unit plan (top view)

6. Rotor - vertical axis

7. Arms - structure where the masses move (magnet)

8. Masses (magnet) - moving in the arms in the horizontal plane

9. Magnetized ring - with positive poles on the outside of the ring and negative poles on the inside of the ring

10. Coil - Fixed coil that produces energy by electromagnetic induction

11. Legs - Connected to the coil they cross with the poles of the rim

12. Wind turbine blades

13. Paddle support supports to the vertical axis (rotor)

16. Negative poles

17. Positive poles

19. Representation of the mass movement

20. Representation of the circular movement of the rotor

Figure 5 - Perspective of the Unit

6. Rotor - vertical axis

7. Arms - structure where the masses move (magnet)

8. Masses (magnet) - moving in the arms in the horizontal plane

9. Magnetized ring - with positive poles on the outside of the ring and negative poles on the inside of the ring

10. Coil - Fixed coil that produces energy by electromatetic induction

11. Legs - Connected to the coil they cross with the poles of the rim

12. Wind turbine blades

13. Paddle support supports to the vertical axis (rotor)

16. Negative poles

17. Positive poles

18. Coils fixed to the rotor shaft

19. Representation of the mass movement

20. Representation of the circular movement of the rotor

Figure 6 - Schematic perspective of one of the energy production systems

18. Coils fixed to the rotor shaft

19. Representation of the mass movement

7. Arms - structure where the masses move (magnet)

8. Masses (magnet) - moving in the arms in the horizontal plane

Figure 7 - View of the Unit

6. Rotor - vertical axis

7. Arms - structure where the masses move (magnet)

8. Masses (magnet) - moving in the arms in the horizontal plane

9. Magnetized ring - with positive poles on the outside of the ring and negative poles on the inside of the ring

10. Coil - Fixed coil that produces energy by electromagnetic induction

11. Legs - Connected to the coil they cross with the poles of the rim

12. Wind turbine blades

13. Paddle support supports to the vertical axis (rotor)

14. Transmission and gearbox, generator and control mechanism

15. Vertical axis support base

Figure 8 - Schematic perspective of energy production systems

7. Arms - structure where the masses move (magnet)

8. Masses (iman) - that move in the arms in the horizontal plane

9. Magnetized ring - with positive poles on the outside of the ring and negative poles on the inside of the ring

10. Coil - Fixed coil that produces energy by electromagnetic induction

11. Legs - Connected to the coil they cross with the poles of the rim

18. Coils fixed to the rotor shaft

19. Representation of the mass movement

Claims (10)

1 - Electricity production unit using centrifugal, Coriolis and wind forces in a combined manner, characterized by comprising: - a wind tunnel (3) placed horizontally under roofs of buildings or in case of flat top buildings, on the roof; - a rotor (6) with blades (12) placed in the center of said tunnel (3); - A system of magnetic masses (8) placed on an arm (7) of the rotor (6) that move in a horizontal plane due to the centrifugal and Coriolis forces accelerating the rotation movement printed to the rotor (6) by the wind system formed by the tunnel wind (3) and the rotor; - Coils (18) that involve the magnetic masses and that allow the production of electrical energy by electromagnetic induction; - An outer ring (9) to the rotor (6) that creates a magnetic field and that repels the magnetic masses (8) to the center of the rotor whenever the centrifugal and Coriolis forces impel them to the periphery; and - A coil (16) under said ring (9) that allows the production of electrical energy by electromagnetic induction; - An electric generator that transforms the mechanical energy transmitted by an axis (14) of the rotor (6) generated by the combined action of wind energy, centrifugal and Coriolis forces. 2 - Electricity production unit according to claim 1, characterized by combining the operation of a wind turbine (2), with a wind tunnel (1) to be installed on the roof of buildings or other infrastructures in height that enhances the winds that are channeled by these infrastructures creating a preferential path for their flow (1) where the system (l) (2) (3) (4) (5) (6) (7) is installed which works by action of wind and air flow generated by the pressure difference on one side (4) and the other (5) of the infrastructure, using the air flow to drive the turbine and produce electrical energy. 3 - Electricity production unit, according to claim 1, characterized by the use of centrifugal force, coriolis and wind, operating the system with a vertical axis wind turbine (2) combined with the use of masses (8 ) that move in a horizontal plane arm (7) due to the centrifugal force, associated with the coriolis force, being necessary for that the rotor rotation is in the Hemisphere North counterclockwise and in the Southern Hemisphere clockwise and the effect of the electromagnetic field (9) that helps the movement of the masses, so the system uses a metal ring (magnet) (9), with several negative inductors (16) and positives (17) which alternately cross the armature of a fixed coil (10) and produce electrical energy operating in parallel with the traditional energy production system normally used in wind turbines. 4 - Electricity production unit, using centrifugal force, coriolis and wind (2) (6) (7) (8) in conjunction with claims 1 and 2, characterized by the operation of the system based on the Principle of operation of a wind turbine (12) with a vertical axis (6) combined with the use of masses (magnet) (8) that move in a horizontal plane due to the centrifugal force associated with the coriolis force and the electromagnetic field effect (9), so the system uses the movement of span comes from the masses (magnet) (8) in the arms (7) alternately crossing the fixed coils (18) using this system to produce electrical energy working in parallel with the other production systems of energy normally used in wind turbines. 5 ~ Electricity production unit, using centrifugal force, coriolis and an air stream generated in an air tunnel (1) in conjunction with claim 1, characterized by being based on the principle of operation of a wind turbine vertical axis (2) combined with the use of masses (8) that move in a horizontal plane due to the centrifugal force associated with the coriolis force and the electromagnetic field effect caused by the magnetized ring (9), thus generating the air flow can be used the oscillating movement of sea waves, geothermal, thermal, solar, biogas energy, from dam unloaders, or another that generates continuous or alternating air flows. 6 ^- Electricity production unit, using centrifugal, coriolis and wind forces in conjunction with claim 1, characterized in that the operation of the system is based on the balance of the forces of two bodies with masses (8) equal to rotate in circular orbit around an axis (center of gravity) (6) in opposite positions due to the effect of the air flow that passes through the wind turbine blades, and when the wind force or air flow decreases the rotation speed decreases whereby the masses (8) are repelled by the magnetized ring (9) approaching the center causing an increase in the rotation speed and, consequently, when increasing the rotation speed, they tend outwards again due to the centrifugal force, repeating successively the reciprocating process (19) of the masses (8) standardizing the rotation movement and making the energy production more profitable. 7 - Using in conjunction the centrifugal force, coriolis and an air flow that falls on the blades (12) of a wind turbine according to claim 1, characterized by causing the circular movement of a ring (9) creating a field electrical in which the positive charges (17) are on the outside of the magnetized ring (9) and the negative (16) on the inside, thus serving this ring (magnet) (9) to generate alternating magnetized field since on the outside face we have positive magnet (17) and on the inside of the negative magnet (16) so that the pins on the two sides of the ring when passing alternately through the iron (11) of a coil (10) generate electrical energy production. 8 - Electricity production unit, using centrifugal, coriolis and wind forces in conjunction with claim 1, characterized in that the operation of the system (2) (6) (7) (8) is based on the balance of forces of two bodies with masses (8) equal to rotate in a circular orbit around an axis (center of gravity) (6) in opposite positions, so when the wind force or air flow decreases the rotor tends to lose speed of rotation (20) thus, due to the small inclination (for axis) (6)) of the arms (7) the masses (8) approach the center, consequently increasing the rotation speed, the reciprocating movement of the masses (8) for the interior and exterior it can be assisted by a synchronized mechanism or system, which successively changes the inclination of the arms. 9 - Electricity production unit, using centrifugal, coriolis and wind forces in conjunction with claim 1, characterized by the operation of the system (2) (6) (7) (8) (9) (10 ) (11) (12) be based on the balance of forces of two bodies with masses (8) equal to rotating in a circular orbit around an axis (center of gravity) (6) in opposite positions, as well when the wind force or air flow decreases the masses (8) approaching the center increasing the rotation speed, this system can use several levels of arms and masses. 10 - Electric power production unit, using centrifugal force, coriolis and wind (2) (6) (7) (8) (9) (10) (11) (12) in conjunction with the claim 1, characterized in that the system works with a vertical axis wind turbine combined with the use of masses (iman) (7) that move in a horizontal plane due to the centrifugal force associated with the coriolis force and the electromagnetic field effect, the movement of the magnet masses (8) inward is caused by the repulsion effect of the magnetized ring (9) the masses when approaching the center increase the speed, tending by the effect of the centrifugal force to return to the outside so, the greater the highest rotation speed is the coriolis force that acts by accelerating the rotation of the rotor, it being necessary for this that the rotor in the Northern Hemisphere rotates counterclockwise and in the Southern Hemisphere in the Clockwise, this force increases in proportion to the mass (kg ) of the magnets (8) and the rotation speed, this force also contributes by this effect to the production of electrical energy in the system.