FR3145387A3 - Rotational energy generator by creating and operating a vortex - Google Patents

Abstract

The invention is a two-part rotational energy production device. The first comprises a vortex generator having the effect of causing the swirl of a fluid, and the second comprises obstacles to the rotation of this fluid which cause it to rotate relative to said stator under the effect of the rotation of said fluid . This rotation can be used to operate an electrical generator. Abstract Figure: Fig. 2

Description

Rotational energy generator by creating and exploiting a vortex

The invention is a generator of energy, for example in the form of electricity, using the current of a fluid such as a gas, a liquid or a plasma.

We know WO2016055370A2 of April 14, 2016 by David Jesús Yañez Villareal [ES] which describes an electric energy generator, comprising a rotor that oscillates under the effect of a displacement of a fluid, which causes the generation of vortices, which are used to produce electricity.

Also known is WO2022166317A1 of August 11, 2022 by Wang Gang [CN], which describes a power generation device combining compressed air energy, auxiliary wind energy, photoelectric photo-thermal conversion energy, cyclic utilization of water resource, etc. to enable a water source with low water volume and low water level to generate power with high energy efficiency.

We also know WO2010109169A2 of September 30, 2010 by Robert Mackay [GB] which describes an energy generator comprising a turbine that the flow of water makes turn. This turbine has two parts integral with each other, whose blades have opposite incidences.

Finally, we know WO2017097943A1 of June 2, 2017 by Geert Slachmuylders [BE] which describes a gravitational vortex hydraulic turbine assembly in which a hydraulic turbine is arranged below the bottom of a vortex basin with a tangential opening into which the incoming flow is introduced.

Technical problem

It is known to obtain energy, for example in electrical form, by causing a turbine to rotate by circulating a fluid parallel to its axis of rotation. It is also known to increase the speed of rotation of the turbine by increasing the speed of the fluid passing through it, by playing on the Venturi effect, for example by placing a cone at the turbine inlet and/or outlet.

The main objective of the present invention is to increase the speed of the fluid by causing it to rotate around the axis of its longitudinal movement, which has the advantage of applying a greater force to the blades of the turbine rotor since this force increases with the square of the speed of the fluid.

In some versions, three other objectives are pursued:
- limit the wear of the blades or grooves and their risk of deterioration when the flow contains solid particles or when they rotate at a speed such as to cause cavitation in the case where the fluid is liquid,
- limit the noise caused by the rotation of the turbine,
- and not to injure animals that could enter the turbine.

The invention will be well understood, and other objects, advantages and characteristics thereof will appear more clearly from reading the description which follows, which is illustrated by Figures 1 to 9.

represents a perspective view of a device according to the invention, comprising from upstream to downstream a stator 1, a rotor 2, and a third part called output 3 which can be integral with the rotor 2 or the stator 1 and therefore be fixed.

represents a perspective view of a section of the device of the also allowing to see the helical blade 10 of the stator 1, and the helical blade 20 of the opposite direction of the rotor 2.

represents a perspective view of rotor 2.

represents a perspective view of a section of the rotor 2 allowing the helical blade 20 to be seen with the opposite direction of rotation to that of the stator 1.

represents a perspective view of the device of the which is here a hydro turbine comprising in addition a collector 4 equipped with a float 5 and a weight 6.

represents a perspective view of two devices according to the invention, connected in series. It consists from upstream to downstream of a collector 4, a first stator 1, a first rotor 2, a second stator 1a, a second rotor 2a and an output 3.

represents a perspective and sectional view of the device of the . The rotor is here provided with a central body 9 which deflects the incoming flow outwards so that it enters the stator through its outer part. It can be seen that it is not in an axial position but slightly offset to the left, which is caused by the passage of a foreign body (not shown) in the right part of the stator inlet and allows this foreign body to enter the device.

represents a perspective view of two devices according to the invention connected in parallel. The first device is noted 1 for the stator, 2 for the rotor and 3 for the output, and the second is noted 1b for the stator, 2b for the rotor and 3b for the output. The collector 4 is here common and provided with a kite sail 40 allowing it to fly.

represents a perspective and sectional view of part of the device of the . It can be seen that the two stators cause vortices with opposite directions of rotation, and that the rotors are also equipped with helical blades with opposite directions of rotation.

The invention is a device for producing rotational energy, characterized in that it comprises from upstream to downstream:
- a stator 1 comprising a fluid inlet, and a device called a vortex generator 10 having the effect of causing a swirl of said fluid in said stator,
- and a rotor 2 whose inlet receives the flow of fluid leaving the stator 1, comprising an obstacle 20 to the rotation of the fluid, in order to cause said rotor to rotate under the effect of the rotation of said vortex of said fluid.

Detailed description of the invention

The principle of the present invention is to cause a vortex in the stator of the device, and to use this vortex to rotate a rotor in order to obtain rotational energy.

This stator can be a flexible or rigid pipe, the diameter of which can be larger upstream than downstream to benefit from the Venturi effect. This stator can also be preceded upstream by a collector 4 whose outlet is preferably cylindrical but whose inlet can be larger and of any shape.

In the case of using the device according to the invention as a hydro turbine, this stator or the upstream part called collector associated with it advantageously comprises a lower part 6 weighted to be placed at the bottom of the water, and an upper part equipped with a float 5 to raise it and open the water inlet into the collector. The inlet of the collector is advantageously equipped with a grid inclined relative to a perpendicular to the longitudinal axis of the device, so that the foreign bodies present in the fluid are evacuated to the outside of the inlet. In Figures 5 and 6, this grid deflects the foreign bodies upwards.

This stator may be provided with one or more conventional propellers, but in a preferred version, it is provided with turbine blades or grooves which may be integral with its wall, to swirl the fluid around the axis of its longitudinal movement. Advantageously, these blades allow the fluid to pass freely longitudinally in the central part of the stator.

This stator is advantageously immobile in rotation, so that animals crossing it do not risk injuring themselves on its propellers, blades or grooves.

For the same purpose, these propellers, blades or grooves can be rounded at the entrance of the stator. The stator advantageously allows the fluid to pass through its central part without it encountering any obstacle.

The pitch of the propellers, blades or grooves can gradually decrease from upstream to downstream to accelerate the rotation speed of the fluid as it passes through the stator.

The incidence of the propellers, blades or grooves relative to the longitudinal axis of the stator can increase progressively from upstream to downstream to take into account the increasing rotational speed of the fluid as it enters the stator.

Unlike what is described by the aforementioned document WO2010109169A2, the rotor 2 can rotate relative to the stator 1, and it is rotated by the rotation of the fluid. This is made possible because it comprises obstacles to the rotation of the fluid.

The obstacle may be one or more conventional propellers but advantageously, they are blades or grooves of preferably helical shape whose incidence relative to the longitudinal axis decreases progressively from upstream to downstream to take into account the decreasing rotation speed of the fluid as it enters the rotor.

Advantageously, these blades allow the fluid to pass freely longitudinally in the central part of the rotor.

It is possible to arrange inside the stator and/or rotor a central body 9 so that there is no linear path allowing the fluid to flow in a straight line, and forces it to take the spiral channels formed by the helical blades or grooves and this central body. In an improved version shown in , it can shift laterally in the event that a foreign body such as an animal has difficulty entering the stator.

The rotation of the rotor relative to the stator can drive an electric generator, so as to produce electricity. allows us to see that the first rotor 2 is equipped with a rotor 81 of an electric generator cooperating with the stator 82 of this electric machine to produce electricity.

The stator and rotor can be spaced apart, connected by a solid or rigid tube.

In the case of using the device as a hydro turbine, the rotor can be placed on the bank of a river or on a boat to be more easily maintained. Its downstream end can then be connected to the river or the sea by another pipe.

Also in this case of using the device as a hydro turbine, this rotation can also be used to directly pump the water in which the rotor is located and raise it to a level higher than that in which this device is located.

The device according to the invention can be provided at its downstream end with a third part downstream of the rotor called outlet 3, widening from upstream to downstream, to increase the outlet speed of the fluid leaving the rotor.

This part 3 can also make the device usable when the fluid flow reverses. We then obtain a means of creating energy by the tidal currents which can reverse, but we can no longer play on the variation of incidence of the rotor blades or vanes.

The principle of the present invention applies to both hydro turbines and wind turbines. In the latter case, the device is advantageously equipped with a kite wing 40, and the inlet collector 4, which uses the venturi effect to accelerate the fluid, can then be made of fabric. The assembly can be fixed by a cable at the top of a mast which is vertical when there is no wind, but which can then tilt elastically under the effect of the traction of the device in operation. The cable is wound to keep the generator at the top of the mast in calm weather, but as soon as the wind blows, it unwinds elastically or by a motor controlled by a measurement of the wind speed or the traction force of the cable, to allow the generator to rise in order to benefit from the stronger and more regular winds at altitude. In addition to not risking injuring birds, this wind turbine is also much quieter than those with blades that we know, which should promote their acceptance by the public.

The devices according to the invention can be assembled in series as illustrated by figures 6 and 7 or in parallel as illustrated by figures 8 and 9. Two devices assembled in parallel advantageously have stators causing vortices of opposite directions of rotation so that the assembly is not subjected to a rotational moment by the passage of the fluid. This is illustrated by the .

The invention is also the method of generating rotational energy by a device according to the invention.

Applications

The main application of the present invention is the conversion of energy from air, water and plasma streams into electricity.

Claims (10)

Rotational energy production device, characterized in that it comprises from upstream to downstream:
- a stator (1) comprising a fluid inlet, and a device called a vortex generator (10) having the effect of causing a swirl of said fluid in said stator,
- and a rotor (2) whose inlet receives the flow of fluid leaving the stator (1), comprising an obstacle (20) to the rotation of the fluid, in order to cause said rotor to rotate under the effect of the rotation of said vortex of said fluid. Device according to claim 1 characterized in that said stator is wider upstream than downstream. Device according to any one of the preceding claims, characterized in that said stator or an upstream part which is integral therewith comprises a weighted lower part and an upper part provided with a float. Device according to any one of the preceding claims, characterized in that said stator is immobile in rotation. Device according to any one of the preceding claims, characterized in that said stator is provided with turbine blades or grooves integral with its external wall. Device according to any one of the preceding claims, characterized in that the rotor and/or the stator allows the fluid to pass without it encountering any obstacle in its central axial part. Device according to any one of the preceding claims, characterized in that the incidence of the blades or grooves relative to the longitudinal axis of said stator increases progressively from upstream to downstream. Device according to any one of the preceding claims, characterized in that the incidence of the blades or grooves of said rotor relative to the longitudinal axis of said rotor decreases progressively from upstream to downstream. Device composed of two elementary devices according to any one of the preceding claims, characterized in that they are assembled in parallel and that their stators cause swirls of the fluid in opposite directions of rotation. A method of generating rotational energy by a device according to any preceding claim.