RO138311A2 - Solar turbine - Google Patents

Abstract

The invention relates to a plant having the role of converting the flowing of any fluid, in liquid or gaseous state, acting upon it or any ray of light, into electric energy. According to the invention, the plant is made of four lateral walls (2) and eight lower and upper walls (3) covered on both surfaces with photovoltaic cells and supported by eight poles (1), with the role of directing the flowing of any fluid, it being able to capture any ray of light to convert it into electric energy, forcing the flowing towards a turbine (4) which is provided with eight blades fixed on an axle (5), enabling it to rotate about its own axis, and said rotation to be transmitted, by means of the axle (5), to a generator (6) which converts the rotation movement into electric energy.

Description

STATE OFFICE FOR IHVW AND TRADEMARKS

SOLAR TURBINE

The present invention refers to an installation that produces electrical energy due to the flow of a fluid (of liquid or gaseous nature) over it or produces electrical energy due to light (sunrays or any other artificial light) applied to the walls of the installation.

This installation, called a solar turbine, produces electricity using the movement of any fluid, liquid or gaseous in nature, which when applied to its walls causes it to flow so as to set in motion the turbine, located in its center, and this in turn , once set in motion, transfers this rotational movement to a generator that produces electricity, or this installation transforms the light (sunrays or any other ray of artificial light), which is applied to the walls of the installation, into electrical energy, because these walls are covered with photovoltaic cells.

The advantages of this installation, unlike other installations of the same kind, are that three separate technologies are applied practically through a single installation, namely a wind turbine, a turbine used in hydropower plants and a small photovoltaic park, and in addition to this advantage has the further advantage that it can capture movement of that fluid or light, which is applied to it from any lateral angle at 360 degrees, as well as movement and light ascending or descending, basically capturing any movement or light that is applied to its walls from any angle, without the need for it to be moved in the direction of the fluid flow.

Due to the fact that it produces electricity by transforming the movement of a fluid or light, it is an environmentally friendly electricity generation plant,

This installation is designed to operate for decades without the need for intervention for possible repairs, the only moving component being the turbine, but this too can be made to operate without any friction if magnetic levitation technology is applied .

It is also designed in such a way that it can be used in any place on the ground, respectively on buildings, above any kind of land and even above any stretch of water, it being modular can be resized, enlarged or reduced at any time depending on needs.

figure 1 shows how it appears from the front, and figure 2 shows the image of it seen from above, and it works like this, by the flow of any fluid (liquid or gaseous) that is applied to the walls 2, which are supported by pillars 1, lead the flow of that fluid towards the turbine 4 which is equipped with 8 blades attached to the shaft 5, thus causing it to rotate around its own axis, and this rotation to be transmitted through the shaft 5 to the generator 6 which transforms this movement of rotation in electrical energy.

As can be seen, the 2 walls are designed in this way (figure no. 2 shows how they are arranged in relation to the turbine) so as to capture the movement of any fluid that falls from the side of the installation, to set the turbine in motion whatever the angle flow of that fluid, i.e. at all 360 degrees, and the walls 3 have the role of capturing and directing the flow of any fluid that is applied both upward and downward on the installation, these walls 3 directing that fluid so as to put in movement same turbine 4.

The four side walls 4, supported by the eight pillars 1, depart from the four corners of the installation towards the center of the installation, slightly exceeding the axis of symmetry of the installation, to guide the flow of the fluid so as to allow the turbine 4 to rotate.

Also, the eight upper and lower walls 3 are slightly inclined so as to allow the flow of the fluid, with an upward or downward direction, so as to drain its flow towards the blades of the turbine 4 thus forcing it to rotate around the proria axis

The installation is designed so that both walls 2 and walls 3 have photovoltaic cells on both sides, thus, as in the case of the flow of a fluid, to capture the light applied to the installation from any lateral angle, i.e. at all 360 degrees, as well as the light that falls upwards or downwards on the installation, these photovoltaic cells in turn producing electricity.

As mentioned, the installation can be sized to be applied to any surface, being supported by any surface by the 8 pillars 1, being able to be made to any size, and being modular being able to be enlarged both laterally by extending laterally of the dimensions of the panels 2 and 3 and the addition, also at the side, of new posts 1, or the installation can be increased in size and upwards by placing another one of the same dimensions practically on top of it.

The generator 6 can be located both in the lower part of the installation and in the upper part of it, depending on the location of the installation, because, for example, if the installation is located above a glimmer of water, it can produce energy and if it would be waves that would fall on the walls of the installation, or if the vapors emanating through the evaporation of water would produce upward movements of liquid on the installation, in this case it would be recommended that the generator be located in the upper part of the installation, which is why the installation can eventually be submerged partially, thus being able to capture the energy produced by the waves regardless of their direction.

The installation also works if a liquid (for example water falling during rain) falls on the upper part of the installation, being guided by the walls 3 so as to set the turbine 4 in motion, in which case it is recommended that the generator 6 be located in the lower part of the installation.

For the best performance, it is recommended that turbine 4 has as little mass as possible (to be as light as possible), and that it be maintained (to rotate around its own axis) based on the principle of magnetic levitation, to avoid friction, thus increasing yield.

From the way the installation was designed, it follows that it can have any size, it can be enlarged according to needs, it can be installed on any surface, it is ecological, it captures the movement of any fluid (liquid or gas) exerted on the side walls, regardless of the angle of flow of this fluid, as well as of the flow of any upward or downward fluid, on the upper and lower walls 3, the same being true of the capture of light, which may fall from the side in any uncle or fall both downward and upward , all leading to the transformation of this movement or light rays into electrical energy.

Claims (7)

CLAIMS The installation called a solar turbine is characterized by the fact that: 1) In the composition of the same installation, three technologies were used to produce electricity, wind technology (wind turbine), hydraulic energy production technology (type of turbine used in hydropower plants), and solar energy (by capturing light with the help of photovoltaic cells ; 1) in the composition of the same installation, three technologies were used to produce electricity, wind technology (wind turbine), hydraulic energy production technology (type of turbine used in hydropower plants), and solar energy (by capturing light with the help of photovoltaic cells ; 2) Placement of side walls 2 and walls 3 so that they conduct the flow of any fluid, 360 degrees laterally, as well as both downward and upward fluid flow currents; 2) Placement of side walls 2 and walls 3 so that they conduct the flow of any fluid, 360 degrees laterally, as well as both downward and upward fluid flow currents; 3) Covering the side walls 2 as well as the ascending and descending walls 3 with photovoltaic cells on both sides, thus making it possible to capture any ray of light that falls on the installation, at 360 degrees laterally as well as the light that falls on the upper or lower walls ; 3) Covering the side walls 2 as well as the ascending and descending walls 3 with photovoltaic cells on both sides, thus making it possible to capture any ray of light that falls on the installation, at 360 degrees laterally as well as the light that falls on the upper or lower walls ; 4) The possibility that the installation can be installed on any surface or even partially submerged, when it comes to a water gloss; 4) The possibility that the installation can be installed on any surface or even partially submerged, when it comes to a water gloss; 5) The possibility that the installation can be built in any size, being able to be built modularly, and possibly increased or decreased according to needs; 5) The possibility that the installation can be built in any size, being able to be built modularly, and possibly increased or decreased according to needs; 6) The possibility that the generator can be located both in the lower part and in the lower part without decreasing the operating efficiency of the installation; 6) The possibility that the generator can be located both in the lower part and in the lower part without decreasing the operating efficiency of the installation; 7) The possibility that the only element in motion, i.e. turbine 4, has no energy loss due to friction, by applying a magnetic levitation technology. RO 138311 Α2 AMENDED CLAIMS demand The installation called "solar turbine", which has the role of transforming the flow (movement) of any fluid acting on it or any ray of light into electrical energy, being made up of four side walls (2) and eight upper and lower walls (3 ) coatings on both surfaces with photovoltaic cells. supported by the eight pillars (Γ), with the role of directing the flow of any type of fluid (liquid or gas), being able to capture any ray of light to transform it into electrical energy, and forcing this flow towards the turbine (4), this at its turn due to the mechanical work applied to the 8 blades being forced to rotate around its own axis, its rotation being transferred through the rotor (5) to the generator (6), which transforms this rotation into electrical energy, is characterized by the fact that: 7) The possibility that the only element in motion, i.e. turbine 4, has no energy loss due to friction, by applying a magnetic levitation technology.