ES2937089A1 - Improved wind turbine with electric motor that drives the blades or blades (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Improved wind turbine with an electric motor (or several electric motors) of the blades or blades that multiply the speed of rotation of the main axis of the rotor up to the preset speed and, which would work with electricity from renewable energy that the wind turbine or the hybrid system generates or that is stored in battery/its other forms of energy storage. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Improved wind turbine with electric motor that drives the blades or blades

Wind turbine improved with an electric motor that drives the blades or blades, powered with electricity from the renewable energy generated and that initiates or multiplies the speed of rotation of the main axis of the rotor.

Technical sector

The present invention is part of the field of renewable energies and, particularly, it develops a wind turbine with an electric motor or several electric motors driving the blades or blades and powered by electricity from the renewable energy generated. Said electric motor/s have the purpose of multiplying the speed of rotation of the main axis of the rotor of the blades or blades of the wind turbine to initiate said rotation when there is no or insufficient wind.

The electric motor of the wind turbine object of the invention would work with the electricity that the wind turbine itself would generate by itself or, forming part of a wind farm or a hybrid renewable energy generation system.

Background of the invention

Wind turbines make it possible to convert the kinetic energy of the wind into electrical energy and are widely known in the state of the art.

Basically, the wind turns the rotor of the wind turbine and causing the rotation of a generator (dynamo) that produces electricity. The main components of the wind turbine, as stated for example in patent ES 2294959 B1, are:

- Rotor attached or bolted to a main axis and, made up of blades or blades that collect the wind and cause a rotary movement of said main axis.

-Main shaft: between the rotor and the gearbox.

-Gondola: serves to house the mechanical and electrical elements (gearbox, generator, control cabinets, refrigerator, etc.)

-Gearbox whose objective is to increase the speed of rotation of the main axis. There are wind turbines with and without a gearbox.

-Electricity generator. Also, the electricity generator may be outside the gondola; for example, at the base of the wind turbine tower.

-Crown system that allows the gondola to be oriented against the wind.

-Control system to control most of the parts of the wind turbine: it controls the orientation of the nacelle, the position of the blades and the total power delivered by the equipment. - Lubrication system, refrigeration, heating, defrosting, condensers or diesel engines and energy storage elements such as batteries.

- The tower: it places the wind turbine at a higher height where the winds have greater intensity, it allows the rotation of the blades and transmits the loads..

Wind turbines can work in isolation or grouped in wind farms, with up to hundreds of them, as stated in patent ES 2694977 T3.

Also wind turbines can be part of hybrid energy systems that. consist of two or more sources of renewable energy that are used together to provide greater efficiency and better balance in the supply of energy, for example, see ES 2 727 790 Al regarding wind systems combined with photovoltaic systems Currently, these last systems are complementary because, generally, sunny days are days with weak winds and cloudy days with strong winds.

Low-power wind turbines (mini-wind) for houses, apartments, apartment buildings, industrial, commercial or agricultural facilities or other buildings are increasingly widespread and can be combined with photovoltaics in hybrid generation systems; as published, for example, on the website https://www.appa.es/appa-minieolica/que-es-la-energia-minieolica/. The same happens with microwind.

In general, wind turbines are designed to work with connection wind speeds (approximately 3 m/s) and cut-off speeds (approximately 25 m/s). The wind turbine starts producing energy when the wind speed exceeds the connection speed and, as the wind speed increases, the power generated is greater, following the so-called power curve. In known control systems, the energy produced by a wind turbine increases with the wind speed until a pre-established nominal level is reached and from then on it remains constant (nominal speed), according to, for example, patent ES2382631 A1 On the other hand, for maintenance of the wind turbines themselves or when there are strong winds or turbulence, the rotation of the blades or blades must be stopped to avoid damage.

When the rotor is stopped, the wind turbine is not capable of supplying energy unless batteries, capacitors or generators driven by diesel engines are used, as stated in patent ES 2554552 T3. Said batteries can be part of the wind turbine itself or the hybrid power generation system, or shared with them if they are part of a wind farm as indicated, for example, in the document https://www. activates. com/es/solucionesienergiaiareas-actividad/nuevas-solucionesenergeticas/?utm_medium=cpc&utm_medium=cpc&utm_source=google&utm_campaign=1115 2488912&utm_term=baterías%20energias%20renovables_e&gclid=EAlaIQobChMI2Y_S3IGH9 gIVQAmTVEAd_EldCh2Dp. Also, instead of batteries, other forms of energy storage are used, as stated in patents ES2833370 T3 or ES2865 032 T3.

It is widely known in the state of the art that electric motors and at least are powered either by the battery/s, or by the converter directly from the generator, all of which is connected by means of a system of transmissions or connections or electrical wiring. proper and regulatory. For example, see, WO2008139017. The use of electric motor-generators as described in patent ES200901681 and bidirectional motors as described in patent US5376869A using rotating electric motor in opposite directions is also known.

Means for the control and monitoring of the load current values in each phase of the electric motor are also known in the state of the art, and may include current converters or current transformers as provided in patent ES2047608, or motorization methods. of variable speed wind turbines, as stated in patent ES 2381 094 A1. Motor speed regulators or bidders are also known in the state of the art; as the patent ES2641453T3 says. Control and monitoring systems for wind turbines that include electric motors are also known in the state of the art, as stated in patent WO2008135605A1

Said antecedents are well known in the state of the art, but they do not solve the fact that the blades or blades of a wind turbine are stopped or that they rotate at a speed lower than the pre-established nominal speed due to lack or insufficient wind. The problem is solved, reaching the preset speed of rotation of the rotor by action of a motor electric or several electric motors, when there is no or insufficient wind. Said electric motor(s) would be powered with electricity from renewable energy generated or stored by said wind generator or wind farm or hybrid generation system of which the wind turbine is a part. It would also solve the environmental impact caused by wind turbines, since they could be installed in many other places without the wind force being decisive.

Explanation of the invention

The object of the present invention is a wind turbine that. In addition to the known parts, it includes a driving electric motor (or several driving electric motors) of the blades or blades, preferably located between the rotor and current generator, which have the main axis of the rotor coupled, attached or screwed and which does so rotate in the event that the blades or blades are stopped due to lack or insufficient wind or, multiply their rotation speed up to the pre-established nominal speed. Said electric motor/s would work with electricity from renewable energy that the wind turbine itself or the hybrid generation system, of which the wind turbine is a part, generates or is stored in battery/5 or other forms of energy storage. Said electric motors would be unidirectional or bidirectional. In the event that it would be a bidirectional electric motor, the direction of rotation would be the same as that of the blades or blades moved by the wind or, that of the direction of the wind when it is weak and the blades or blades are stopped.

For one embodiment, it would also comprise a system of transmissions or electrical connections or electrical wiring between the electric motor/s object of the previous section and the current generator of the previous section and the battery/s or other forms of energy storage of the previous section and, in its case, the current converter.

For its realization, it would also comprise the installation of a speed regulator or limiter in the electric motor/s object of the invention to achieve a pre-established speed of rotation of the main axis of the rotor of the wind turbine.

For an embodiment to also understand it, the instruments and mechanisms necessary for the proper functioning and conservation of the electric motor/s of the wind turbine object of the invention, such as refrigeration and lubrication or intensity converters or current transformers and, so widely known in the state of the art.

For one embodiment, it would also comprise a battery or batteries or other forms of energy storage that would operate the electric motor/s referred to in the three previous paragraphs when, given the circumstances, wind energy or any other energy is not generated or insufficient. renewable, in the case of a hybrid generation system. Likewise, this battery/as would be charged with electricity from the renewable energy that the wind turbine itself generates or from the renewable energy that comes from the hybrid generation system of which the wind turbine is a part.

For one embodiment, it would also comprise including the action of the electric motor/s object of the invention in monitoring with other elements of the wind turbine or hybrid power generation system; such as, blade or blade rotation speed control systems, nacelle orientation system, total power control system delivered by the equipment, braking system, speed control systems and wind direction or systems digitization of the system.

Wind turbines, terrestrial or marine, vertical, horizons or homemade (mini-wind), isolated or grouped in wind farms, alone or as part of hybrid energy systems that consist of two or more sources of renewable energy that they are used together to provide greater efficiency and better balance in power supply. It is also common that, in case of absence or insufficient wind. the blades or blades of the wind turbines are stopped. It is also common that, in the absence of wind, the blades move at a speed less than the maximum energy production or less than the pre-established nominal speed. It is also common for wind turbines to have a great environmental impact since they are preferably installed in high areas where there is more wind or in areas of high ecological value.

To solve these problems of zero, little or no maximum production of renewable energy due to lack or insufficiency of wind, an electric motor/s is installed in the wind turbine, preferably located between the rotor and the current generator that is coupled to it. , attached or bolted to the main axis of the rotor, and would transform electrical energy into mechanical energy of rotation. This mechanical energy of rotation would start and/or multiply the speed of rotation of the main axis of the rotor and would start and/or multiply the speed of rotation of the blades or blades: even up to the maximum production of renewable energy or up to that of the preset rated speed In addition, said electric motor(s) would be powered by electricity from renewable energy. It would also solve the environmental impact caused by wind turbines since they could be installed in many other places; without being decisive the outside of the wind

Preferred embodiment of the invention

There are many combinations for carrying out the invention, given that the electric motor/s object of the same can be in terrestrial or marine wind turbines, vertical, horizons or domestic (small wind), isolated or grouped in wind farms, alone or forming part of hybrid energy systems that consist of two or more sources of renewable energy that are used jointly to provide greater efficiency and greater balance in the energy supply.

I present two ways of carrying out the invention but, as stated in the previous point, there are more combinations.

1) Electric motor or several electric motors in a wind turbine with the blades or blades stopped or rotating at a speed lower than the pre-established nominal due to lack or insufficiency of wind and located between the rotor and the current generator. The electricity from the renewable energy that the wind turbine itself generates or that is stored in the battery(ies) would make said electric motor(s) work, initiating or increasing the speed of rotation of the wind turbine rotor; even up to the rotation speed of maximum production of renewable wind energy or, the pre-established nominal. The battery/s would have been charged with renewable energy generated by its own wind turbine. With the speed regulator/limiter of the electric motor it is achieved that the speed of rotation of the main axis of the rotor of the wind turbine is the pre-established nominal (for example, the maximum production of renewable energy).

2) Electric motor in a wind turbine and forming part of a hybrid generation system with photovoltaic panels, without wind or weak wind but with heat and, with the blades or blades stopped or rotating at a speed lower than the pre-established nominal due to lack or insufficiency of wind. The electricity from the renewable energy generated by the photovoltaic panels or stored in batteries would make that electric motor work, starting or by multiplying the speed of rotation of the rotor of the wind turbine; even up to the rotation speed of maximum production of wind renewable energy á, the pre-established nominal. The battery/as would have been charged with renewable energy generated by the wind turbine and by the photovoltaic panels that make up the hybrid generation system described. With the speed regulator/limiter of the electric motor it is achieved that the speed of rotation of the main axis of the rotor of the wind turbine is the pre-established nominal (for example, the maximum production of renewable energy).

Its industrial application is evident and it would bring with it an increase in electricity production since the blades of the wind turbines could always rotate at the preset speed and/or for a longer time and continuously.

Claims (3)

1. Improved wind turbine that, in addition to the known parts, includes an electric motor or several electric motors and an electric transmission system or electric wiring, characterized by the fact that: - The electric motor or electric motors, preferably located between the rotor and the current generator of the wind turbine, are coupled, attached or bolted to the main axis of the rotor of said wind turbine, making it rotate in case the blades or blades are stops or multiply its speed of rotation up to the maximum production of wind renewable energy or up to the pre-established nominal. -The electric motor or electric motors of the previous section would work with electricity from renewable energy that the wind turbine itself or hybrid generation system, of which the wind turbine is a part. generates or is stored in batteries or other forms of energy storage -The electrical transmission system or electrical wiring connects the electric motor or electric motors object of the previous section and the current generator of the wind turbine and, where appropriate, the current converter and/or the battery / as or other forms of storage also from the previous section. 2. Improved wind turbine according to claim 1, characterized in that the electric motor or electric motors coupled, attached or bolted to the main axis of the rotor of said wind turbine are bidirectional and the direction of rotation would be the same as that of the blades or blades moved. by the wind 3. Improved wind turbine according to claim 1 to 2, characterized in that the electric motor or electric motors coupled, attached or bolted to the main axis of the rotor of said wind turbine have a speed regulator or limiter installed to achieve the pre-established speed of rotation of the axis main rotor of wind turbine.