WO2016075355A1

WO2016075355A1 - Turbine for harnessing sea wave energy

Info

Publication number: WO2016075355A1
Application number: PCT/ES2015/070817
Authority: WO
Inventors: Rafael APARICIO SÁNCHEZ
Original assignee: Aparicio Sánchez Rafael
Priority date: 2014-11-14
Filing date: 2015-11-13
Publication date: 2016-05-19
Also published as: ES2574132A1; ES2574132B1

Abstract

The invention relates to a turbine comprising a casing formed by two chambers (1 and 2) in the form of funnels, said chambers being open at the ends (3 and 4) thereof and arranged coaxially with the smaller bases facing each other. A rotor (5) comprising tapered blades (6) that spiral from a central shaft (7) is installed between the chambers, the blades being defined by an external cylindrical surface (8) having a spiral directrix and by two convergent impact surfaces (9 and 10) that intersect at an edge (11) which extends radially to the shaft (7).

Description

TURBINE FOR USE OF THE ENERGY OF LAS OLAS DEL MAR

Field of the Invention The present invention relates to a turbine for harnessing the energy of sea waves, especially designed to work fully submerged and obtain the energy of all waves that travel in approximately the same direction, but in a different sense, also keeping the turbine always the same direction of rotation whatever the direction in which the waves hit the turbine.

Background of the invention

Most of the efforts made so far to harness the energy of sea waves are based on translating the reciprocating movements into rotary movements, almost always by means of mechanisms that maintain an axis perpendicular to the movement of the fluid flow or resting on the surface of the waves, achieving energy from the height change by various effects, such as the Archimedes effect. As an exception to axial flow turbines, Wells turbines, which work both ways, are mentioned, although these turbines operate in air, not submerged. In the same sense, Darrieus turbines can also be mentioned.

Turbines and energy collectors in general from sea waves are usually based on the conversion of the reciprocating movements, produced by the waves, in a circular motion.

Description of the invention

The present invention aims at a turbine designed for the use of the energy of sea waves, which maintains a constant direction of rotation, whatever the direction in which the waves affect.

The turbine of the invention is specially designed for operation in a submerged position and has totally different geometries to the Wells and Darrieus turbines, mentioned above. On the other hand, the turbine of the invention is constituted so as to take advantage of the energy of sea waves without reciprocating movements. The turbine of the invention is of the type comprising a housing in which a rotor is mounted which is a carrier of a series of blades, on which the waves impact, directed towards said blades by the turbine housing.

According to the invention, the housing is constituted by two symmetrical chambers, in the form of truncated funnels, which are open by both bases and are arranged together in a coaxial position, and faced by the smaller bases.

On the other hand, the blades consist of bodies with a generally tapered shape, which start from a central axis with a spiral trajectory and a decreasing section, whose bodies are limited by an external cylindrical surface, with a spiral guideline, and by two opposite ramp surfaces. , which converge progressively with each other from the cylindrical outer surface to form an internal edge that runs radially from the central axis. The rotor will include at least two blades and preferably three, angularly equidistant from each other. The cylindrical outer surface of the blades can be of straight or curved generatrix.

The rotor with the constitution mentioned is mounted between the smaller bases of the two chambers of the housing, in coaxial position with them.

The turbine with the described constitution is mounted in the sea, preferably in a submerged position, so that the waves that move in a certain direction hit the turbine, preferably in a direction parallel to the rotor axis. When the waves hit the turbine in a certain direction, the chamber of the housing that receives the waves directs them towards one of the symmetrical surfaces of the blades, while when the waves strike in the opposite direction, it will be the opposite chamber of the housing the one that receives the waves and directs them to the opposite surface of the blades.

In this way, the turbine takes advantage of the action of the waves, whatever the direction in which it moves. According to a preferred embodiment, the cameras adopt a hyperbolic cone shape, faced by their smaller base and serve as a means to direct and concentrate the waves towards the rotor. It is possible to increase the impact of the waves on the rotor. For their part, the blades will preferably adopt a logarithmic spiral shape.

In accordance with the invention, the cameras can be provided with an external screen arranged around the minor base and can reach the main base, in a truncated shape, for example in the form of an ovoid, the two screens being arranged in a divergent and symmetrical position. . These screens serve as a means to direct the waves that impact the rotor towards the outside of the turbine.

Brief description of the drawings

The attached drawings show a possible embodiment of a turbine, constituted according to the invention and given by way of non-limiting example. In the drawings:

- Figure 1 is a perspective of a turbine constituted according to the invention.

- Figure 2 shows in front elevation the same turbine.

- Figure 3 shows the turbine in section, according to the cut line lll-lll of figure 2.

- Figure 4 is a perspective of the turbine rotor of the invention.

- Figure 5 is a partial section of the turbine, taken along the line V-V of Figure 3.

- Figure 6 is a schematic representation of the path of the water flows of the waves through the turbine.

DETAILED DESCRIPTION OF AN EMBODIMENT As shown in Figures 1 to 3, the turbine of the invention comprises a housing which is composed of two coaxial chambers (1 and 2), symmetrical with each other, in the form of funnels open by their two bases (3 and 4) and faced by their minor bases (3). These chambers are of conical surface, of curved-convex generatrix, for example with a hyperboloid-shaped surface. Between the smaller bases (3) of the two chambers is mounted the rotor (5) of the turbine, which, as can be seen in Figure 4, is constituted by a series of blades (6), three in the example shown, starting from a central axis (7). Each blade (6) consists of a generally tapered body, of approximately triangular section, having a spiral path from the axis (7) and is limited by a cylindrical outer surface (8), of spiral guideline, and by two opposite surfaces (9 and 10) in ramp, symmetrical with each other, which converge from the cylindrical outer surface (8) to its intersection in an edge (1 1), which runs radially with respect to the axis (7). The edges (1 1) will preferably be rounded. The cylindrical outer surface (8) can be of straight or curved generatrix.

As shown in figures 3 and 5, the rotor (5) is mounted between the smaller bases (3) of the chambers (1 and 2), for example by means of supports composed of an outer ring (12), which is fixed in the outline of the smaller base (3) of the chambers (1 and 2), and by an inner ring (13), the outer (12) and inner rings (13) being interconnected by means of radial arms (14). The corresponding end of the rotor shaft (7) is mounted, for example, by means of a bearing or bearing on the inner ring (13). Other forms of assembly can be used.

The cameras (1 and 2), figures 1 to 3, are provided with an external screen (15-16), arranged around the smaller base, which has a conical shape. The two screens (15 and 16) are symmetrical with each other and are arranged in a divergent position, being able to take the form of an ovoid. As shown in Figure 3, the intersection between the surfaces of the chambers (1-2) and the external screens (15-16) could be rounded, thus giving continuity and / or tangency between one and other surfaces.

These screens serve as a means to drive the waves out of the turbine, after acting on the blade and avoiding return flows in the non-acting symmetrical part.

The surfaces (9 and 10) of the blades (6) will be called impact surfaces, as they are the surfaces on which the waves impact and impact.

As can be seen in Figure 6, the rotor (5) is mounted between the smaller bases of chambers 1 and 2, in coaxial position therewith. The turbine will be in position submerged, with the shaft (7) of the rotor (5) in position approximately parallel to the direction in which the waves move.

When the waves hit the turbine of the invention in a direction A, figure 6, the conical surface of the corresponding chamber (1) concentrates the action of these waves and directs them towards the impact surface (9) of the blades (6 ) which is directed towards the camera (1). The water will follow the direction of arrow B, driven between the surface of the screens (15 and 16) mounted externally in the chambers (1 and 2).

The same conical surface of the chamber (1), which causes the water to concentrate on the rotor (5), also serves to prevent the flow from returning. Part of the waves that hit the rotor (5) could continue through the opposite chamber (2), according to the C direction, without causing any negative effect on the action of the waves that hit the A direction.

When the waves return in the opposite direction to that described, the situation is reversed, then the waves act on the opposite impact surface (10), maintaining the rotor (5) the same direction of rotation.

Claims

1 .- Turbine, which comprises a housing in which a rotor bearing a series of blades is mounted, characterized in that: - Housing is constituted by two symmetrical chambers (1 and 2), in the form of funnels of conical section, which they are opened by both bases (3 and 4) and are arranged in coaxial position and faced by their smaller bases (3), between which the rotor (5) is mounted in coaxial position;

- The rotor blades (6) (5) consist of generally tapered bodies that start from a central axis (7) with a spiral trajectory and have a decreasing section and are limited by an external cylindrical surface (8), of directive direction. spiral, and by two impact surfaces (9 and 10) in ramp and symmetrical, which converge with each other from the cylindrical outer surface (8) to its intersection in an edge (1 1) that runs radially with respect to the central axis ( 7).

2.- Turbine according to claim 1, characterized in that each of the chambers (1 and 2) has, externally, around the smaller base (3), a screen (15-16) with a conical shape, arranged in position symmetric and divergent.

3. - Turbine according to claim 1, characterized in that the chambers (1 and 2) that make up the housing are conical surface, of curved-convex generatrix.

4. Turbine according to claim 3, characterized in that the conical surface of the chambers (1 and 2) takes the form of a hyperboloid.

5. - Turbine according to claim 2, characterized in that the truncated cone shaped screen is ovoid shaped.

6. - Turbine according to claim 1, characterized in that the blades adopt a logarithmic spiral shape.

7. - Turbine according to claim 1, characterized in that the cylindrical outer surface (8) of the blades (6) is of straight generatrix.

8. Turbine according to claim 1, characterized in that the cylindrical outer surface (8) of the blades (6) is of a curved generatrix.