FR2983538A1 - Device i.e. hydro-wind mill, for recovering e.g. tidal energy from river for companies, has turbine functioned during starting process without resorting auxiliary energy for rotation, and hoops installed on blades with regular intervals - Google Patents

Abstract

The device has a turbine for driving a current generator or a hydraulic lifting pump. Multiple blades (3) are arranged at a contour of a drum (13) that rotates about a central axis (2). The blades are inclined at an angle with respect to a radius of the drum. The blades are completely arranged in a framework (1). The turbine is utilized in a horizontal position or a vertical position such that the turbine is functioned during starting process without resorting auxiliary energy for rotation. Hoops (12) are installed on the blades with large or less regular intervals.

Description

The present invention relates to an apparatus for recovering energy generated by tides, ocean currents, streams, rivers, rivers, or those provided by fluids such as wind in a wind turbine version, or by pressurized steam produced by geothermal sources.

The invention is an apparatus that combines the functions of tidal turbine and wind turbine called hydro-wind turbine and consists of a turbine driving a current generator or a hydraulic lift pump, and operating with rotating blades.

There are inexhaustible energy potentials and very great power, far superior to all atomic power stations: tides, ocean currents, and rivers. These can be used at any point, without dam, using only the flow of water moving downstream. It is enough to capture this renewed energy unceasingly.

Some models already exist to recover the energy of the swell at sea, turbines (turbines) or propellers. Other models relate to hydroelectric turbines, such as patent CA2547748, which describes a turbine consisting of blades fixed on a rotating drum. But, the inversion of the current causes the reversal of the direction of rotation of the turbine and sometimes requires a complementary energy for the rotation of the device (Darrieus system). The present invention makes it possible to overcome these drawbacks by proposing a turbine composed of profiled blades inclined at an angle α and fixed on a rotating drum, of which two baffles at the inlet and at the outlet of the flow channel the flow of water to rotate the drum in the same direction without the need for extra energy for rotation. The use of this turbine will be wind or hydraulic. - In the water: it will be completely submerged, will have baffles at the inlet and outlet of the flow and may be placed perpendicular to the current, which does not alter this current, available again a few meters downstream, the Turbine multiplication can be endless. So the possible use in series of this turbine. - To use the tides, it will be placed at a sufficient distance from the beach, to be able to remain completely immersed at low tide, indicated by light buoys, to avoid clashes (boating 2 983 5 3 8 -2- or fishing ). This turbine will turn in the same direction despite a flow of water in both directions. An efficient anchoring will be necessary. - For the use of large ocean currents (with phenomenal energy): we can integrate drainages and filling ponds, 5 kind Arcachon. The possibilities are so phenomenal that they alone can supplant current power plants because their facilities are at acceptable cost prices. - Thanks to the wind: it can be placed in a zone of continuous winds, rather in height and will not include a deflector. It will be available again 10 meters downstream, the multiplication of the turbines can be endless. So the possible use in series of this turbine. It is possible to envisage the use of this turbine, in a vertical position, in a wind flow, for example on a sailboat to provide additional energy, possibly to replace the sails. It will also be possible to install it on a building, horizontally or vertically. At sea, the online layout will be desirable to capture the maximum energy.

20 The device must be supplemented, for safety, with floating buoys visible in high and low sea, and carrying a bright lighting so as to avoid clashes with boats, or nets of sinners. As well as the use of radar reflectors on the surface, and a sounder below the surface of the water for fish and especially submarines.

Terminals will be placed on the shore for the recovery of electric current and discharged by cables according to the usual techniques. This construction is very limited from the mechanical point of view, requiring little intervention for maintenance.

To use and install this turbine in the best conditions in a watercourse, in areas where the installation of the frame of the turbine, allows to receive several turbines side by side and possibly on several levels. This installation will be repeated, upstream or downstream at a short distance, the current recovering very rapidly with little disturbance, depending on the kinetic energy corresponding to the formula and the BETZ theorem: P = (DxAxV3xCp) / 2 P: power 2 9 83 53 8 -3- D: sea density (about 1025 kg / m3) A: turbine blade surface /: current speed Cp: power factor 5 The turbine (s) being large size, will preferably be built at the edge of the river or ports, so that it can be loaded directly on sea-going boat or on barges unless the assembly of the 10 elements on site. According to particular embodiments, the turbine is comparable to a paddle wheel, with fixed or variable blades at a predetermined angle, parallel to each other and to the axis of rotation, describing a circumference along a horizontal axis. ; the set of blades forms a drum of one to several meters in diameter and a length of two to 10/16 meters possibly more. The set of blades describes a circle so that in rotation they form a cylinder. This rotation drives the shaft in the center of this cylinder, and due to a fixed angle of inclination of the blades relative to the spokes of the drum, this causes the movement of the drum as long as one is in a flow , whether liquid or gaseous. The angle appears optimum between 40 ° and 85 ° (70 ° recommended) (Figure 7) to obtain the best performance and recover the greatest power of the flow. - The blades will have a convex plane shape (airfoil type carrier profile) for aerodynamic reasons, and will be manufactured by extrusion, molding or boiler or other appropriate technical means. - The blades can be built in several ways, either using metallurgy (boilermaking) with low-oxidizing materials, or using plastics and possibly extrusion, all the interior voids will receive an injection of foam , to prevent the penetration of water that can lead to system imbalance or corrosion. - Frets (internal or external) are installed on the blades more or less regular intervals to avoid buckling under the pressure of water: these 35 frets are composed of a steel rod or a cable which links the blades together so as to maintain the angle of attack, while disturbing only very little the flow of water. Possibly spokes (or cable) stretched like bicycle spokes to obtain a perfectly circular orbiting can be envisaged. This arrangement will neutralize the deformation due to the thrust of the water and allow for thinner blades. - In the case of a two-way water flow, a low baffle is placed upstream of the drum and a high baffle is placed downstream of the drum. These deflectors serve as venturies. The two baffles are attached to a rotation axis 5 close to the drum and are free of movement. When the water presses on these deflectors, they come to a stop on a hold. So when the flow of water comes from the left, the low deflector directs this flow towards the top of the drum and the high deflector is positioned freely (floats) horizontally to allow the flow to pass; and when the flow of water is opposite, the top baffle directs this flow down the drum and the bottom baffle is freely positioned (floats) horizontally to allow flow to pass; this makes it possible to rotate the drum always in the same direction regardless of the direction of the flow of water. The assembly is positioned in a frame, so that it can be transported, and be on the site assembled in groups, in the manner of the containers on the boats, side by side and possibly on several levels. - For small installations and more specifically in river or river, the base of the framework is in the form of sled, with two bars parallel to the current which prevent the overthrow and provide additional anchoring. The base of the frame should not be placed directly on the bottom of the water but rather on beams forming frame and ensuring anchoring: this device will avoid radiant and some heavy elements moving on the bottom. It is also possible to raise the drum in the frame to let the heavy elements. 25 - In river or river, the turbine will be anchored in situ and also connected to submerged cables and anchored to the banks, forming a V so as to compensate for the strength of the current; each turbine will operate a generator of current, the electric cable being placed on the bottom of the water. At sea, this set can be immersed to enjoy the tides.

The accompanying drawings illustrate the invention: FIG. 1 represents the turbine of the tidal turbine seen from kiss. - Figure '2' represents the tidal stream seen from the front. FIG. 3 shows the tidal turbine with the parallel blades seen from the side. - Figure '4' represents a blade profile view. - Figure '5' represents the low and high stabilizers seen from side. - Figure '6' represents a fixed stabilizer seen from the side. - Figure '7' represents the inclination angles of the blades. Referring to these drawings, Figure 1: Figure 1 shows the turbines turbine: composed of profiled blades inclined and fixed on a rotating drum. Figure 2: Figure 2 shows the tidal stream seen from the front.

The blades (3) of the turbine, viewed from the front, are fixed on the contour of the drum (13), itself rotating about a central axis (2). The blades (3) are parallel and fixed or variable. The blades (3) and the drum (13) are placed in the frame (1) of the tidal turbine to allow the resumption of bearings and support of the assembly including the electric generator. A hoop (12) is installed on the blade (3) at a more or less regular interval to prevent buckling of the blades (3) under the pressure of water. These frets (12) are composed of a steel rod which connects the blades (3) to each other so as to maintain the angle of attack, while disturbing only very little the flow of water. Figure 3: Figure 3 shows the tidal wave seen from the side. The blades (3) of the turbine, viewed from the side, are fixed on the contour of the drum 25 (13) seen from the side in rotation along a central axis (2), the assembly being placed in the frame (1) of hydrokinetic. In the case of a two-way water flow: a bottom baffle (5) is placed upstream of the drum (13) and a top baffle (6) is placed downstream of the drum (13). These two deflectors (5) (6) make it possible to direct the flow of water respectively upwards or downwards of the drum (13) and channel the flow of water to rotate the drum (13) always in the same direction whatever the direction of the flow of water. The two deflectors (5) (6) are attached to an axis of rotation (7) (8) close to the drum (13) and are free to move; when the water presses the baffles (5) (6), they abut a wedge (9) (10). In the case of a one-way water flow: only a low (5) or high (6) baffle shall be placed upstream of the drum (13). This deflector can then be fixed. The blades (3) are inclined at an angle to the spokes of the drum (13) and are fixed to the right and to the left of the drum (13). The blades (3) are pushed by the liquid or gaseous flow, which causes the movement of the drum (13); the angle appears optimal between 60 ° and 85 ° (70 ° recommended) 5 (Figure 7) to obtain the best performance and recover the greatest power of the flow. The number of blades can vary from two to six or more blades depending on drum size and flow speed.

Figure 4: Figure 4 shows a blade (3) profile view, profiled convex shape (carrier profile of the type of an aircraft wing).

Figure 5: Figure 5 shows a bottom baffle (5) placed upstream of the drum (13) and a top baffle (6) placed downstream of the drum (13), in the case of inversion of the water flow. The two deflectors (5) (6) are attached to an axis of rotation (7) (8) close to the drum (13) and abut on a shim (9) (10). Figure 6: Figure 6 shows a fixed down baffle (5) placed upstream of the drum (13) in the case of a one-way water flow.

The exit of the fixed deflector ramp may possibly have a more or less cylindrical spoiler (16) to better direct the flow of water. Figure 7: Figure 7 shows angle of inclination measurements of the blades (3) with respect to the spokes of the drum (13). These measurements show that to achieve a very good performance and allow to recover a large power of the flow of water or air, it is preferable to use an angle of between 40 ° and 85 °.

As an indication: - The blades may be aluminum to reduce the weight of the rotating elements of the turbine. - The proposed turbine will have a large length of blades: 2, 3, 4, 5, 6, 7, 8 -7 meters see more. - If a sufficient depth of water is available, the diameters of the turbines may be small enough to allow the use of small streams; for example: length of 2 meters, diameter of 1 meter; length of 3 meters, diameter of 1 meter 50; length of 4 meters, diameter of 2 meters; the lengths of 5, 6, 7, 8 meters will be able to evolve from 2 meters to 4 meters and to go from 4 blades to 5 and possibly to 6 blades. The angle and inclination of the blades with respect to the spokes of the drum seems to give a very good efficiency and makes it possible to recover a great power of the flux for an angle of 70 °. The invention can be used by municipalities with a watercourse to provide electrical supply for public lighting.

The invention is particularly intended for companies, organizations or communities producing electricity and individuals wishing to produce their own electricity. 20 25 30 35

Claims (7)

CLAIMS1) Device for recovering the energy of a liquid or gaseous flow, in particular the energy of the tides or the stream of rivers and rivers in hydraulic form or wind energy in wind form characterized in that it is composed of a turbine driving a current generator or a hydraulic lifting pump, and operating by means of profiled blades (3) fixed on the contour of a drum (13) rotating about a central axis (2) and inclined d an angle α with respect to the spokes of the drum, the assembly being placed in a frame (1); the use of this turbine can be done in a horizontal or vertical position and operates at startup without using extra energy for rotation. 2) Device according to claim 1 characterized in that, in the case of a flow of water in two directions, a low baffle (5) placed upstream of the drum (13) and a top baffle (6) downstream the drum (13) makes it possible to direct the flow of water respectively upwards or downwards of the drum (13); these two deflectors (5) (6) at the inlet and the outlet of the flow act as venturies and channel the flow of water to rotate the drum (13) always in the same direction regardless of the flow direction water; the two deflectors (5) (6) are fixed to an axis of rotation (7) (8) close to the drum (13) and are free to move; when the water presses the baffles (5) (6), they abut a wedge (9) (10); in the case of a one-way water flow: only a fixed low (5) or high (6) deflector is placed upstream of the drum (13) and the outlet of the fixed deflector ramp may possibly have a spoiler (16) more or less cylindrical to better direct the flow of water. 3) Device according to claims 1 or 2 characterized in that the turbine and the deflectors (5) (6) are positioned in a frame (1) so as to be transported and be on the site assembled in a group in the manner of containers on the boats, side by side and possibly on several levels. 4) Device according to claim 1 characterized in that the blades (3) of the turbine are fixed on the contour of the drum (13) and are fixed or variable and parallel to each other and to the axis of rotation (2); they are inclined at an angle with respect to the spokes of the drum (13) and are shaped convex plane shape with a carrier profile of the type of an airplane wing; they are fixed to the right and to the left of the drum (13); the blades (3) are pushed by the liquid or gaseous flow, which causes the movement of the drum (13) .- 9- 5) Device according to claims 1 and 4 characterized in that the angle α of inclination of the blades (3) is optimal between 40 ° and 85 ° with a value of 70 ° recommended to obtain the best performance and recover the largest power of the flow; the number of blades can vary from two to six blades or more depending on the size of the drum (13) and the speed of the flow. 6) Device according to claim 4 characterized in that the frets (12) are installed on the blades (3) at a more or less regular interval to prevent buckling of the blades (3) under the pressure of water: these frets (12) are composed of a steel rod which connects the blades (3) to each other so as to maintain the angle of attack, while disturbing very little the flow of water. 7) Device according to claims 1 and 3 characterized in that the base (11) of the frame (1) is in the form of sled for small installations in the river, with two parallel bars current that prevent the reversal and provide an additional anchorage; the base (11) of the framework (1) should not be placed directly on the bottom of the water but rather on beams forming frame and ensuring anchoring: this device will avoid radiants and some heavy elements moving on the bottom ; it is also possible to raise the drum (13) in the frame (1) to avoid this and let these heavy elements. 30 35