CA2544170A1 - Eccentrically mounted water turbine with guided blades - Google Patents

Abstract

A low head water turbine comprising a runner and a plurality of blades similarly pivotably secured to the outer surface of the runner. The runner is eccentrically mounted to the end walls of a housing for rotation about a horizontal axis so that the outer surface of the runner is closer to an upper portion of a housing side wall. A
connector extending from a corresponding side of each of the blades is seated in a curved endless groove in one of the end walls of the housing. During operation, the connectors travel in the groove and draw the blades to a closed position as the blades pass the upper portion of the housing side wall, and extend the blades to a open position as the blades move below the rotation axis of the runner, all the time the outer edges of the blades being adjacent the housing side wall.

Description

ECCENTRICALLY MOUNTED WATER TURBINE WITH GUIDED BLADES
FIELD OF THE INVENTION

[0001] The present invention relates to an improvement in low head water turbines, and more particularly to turbines which can capture energy from heads of water from about six meters, down to about one meter, for use, for example, in generating electricity.

BACKGROUND OF THE INVENTION

[0002] Traditionally, low head water turbines have been of an open type, as exemplified for example by conventional water wheels, and have had extremely low efficiency. This has meant, for example, that sections of small rivers having a low head or drop, have been unsuitable for generation of hydro electric power.
Conventional power generation turbines such as Francis turbines, Kaplan turbines and Peleton turbines traditionally require high heads of water to generate the water pressure and velocity required to move the turbine blades. Such arrangements have necessitated large dams, construction of flumes and the like, necessitating, often, massive capital expenditure.

[0003] The present invention is intended to provide a more efficient construction of turbine which can be economically constructed, and is suitable for low head electric power generation applications.

SUMMARY OF THE INVENTION

[0004] In accordance with the present invention there is provided a low head water turbine comprising a runner having a cylindrical outer surface extending between opposite ends and a shaft centrally positioned in the runner along a horizontal axis of rotation. A plurality of similar blades having inner and outer edges and sides extending between the inner and outer edges are evenly spaced about the surface of the runner and extend to the ends of the runner.
The blades are similarly pivotably secured along their inner edges to the outer surface of the runner so as to pivot in the direction of rotation of the runner between a closed position lying adjacent the outer surface of the runner and an open position at an angle thereto. The turbine further comprises a housing having end walls and a cylindrical side wall extending therebetween. The housing completely encases the runner and its blades. The end walls of the housing are proximal to the ends of the runner. The shaft of the runner is eccentrically mounted within the housing on the end walls of the housing for rotation of the runner about the horizontal axis of rotation so that the cylindrical outer surface of the runner is spaced closer to an upper portion of the cylindrical side wall of the housing and farther from a lower portion thereof. At least one curved endless groove is provided in at least one of the end walls of the housing. The curved endless groove circumscribes the shaft and is spaced from the cylindrical side wall of the housing by a fixed distance about the curved endless groove. A connector extends from a corresponding side of each of the blades and is seated in the curved endless groove for travel therein as the runner rotates. A water inlet opening is located in a lower, forward portion of the housing and below the axis of rotation of the runner. A water outlet opening is located in a lower, rearward portion of the housing. The blades and connectors are constructed and positioned and the curved endless groove is of a circumference, so that, during operation of the turbine, as the connectors travel in the curved endless groove, they draw the blades to the closed position as the blades approach and pass the upper portion of the cylindrical side wall of the housing, and extend the blades to the open position as the blades move below the horizontal axis of rotation to the lower position, all the time the outer edges of the blades being adjacent to the cylindrical side wall of the housing so as to restrict the passage of water between the outer edges of the blades and the cylindrical side wall of the housing.

[0005] The turbine of the present invention, in tests, has proven to operate at an efficiency which is far higher than conventional low head water turbines.
Unlike conventional low head turbines which must be constructed on a site-specific basis, the turbine of the present invention may be made in modular form to a uniform design and size. A plurality of similar turbines may be placed in a stream in series or parallel fashion to generate additional power.

[0006] In this specification, the term cylindrical encompasses at least circular cylindrical and ellipsoid cylindrical shapes.

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] These and other objects and advantages of the invention will become apparent upon reading the following detailed description and upon referring to the drawings in which:

[0008] FIGURE 1 is partially exploded perspective view of a part of an embodiment of the invention;

[0009] FIGURE 2 is a side section view of the embodiment of Figure 1 along the line 2-2; and [0010] FIGURE 3 is a side section view of a part of an alternative embodiment of the invention;

[0011] While the invention will be described in conjunction with its illustrated embodiments, it will be understood that it is not intended to limit the invention to such embodiments. On the contrary, it is intended to cover all alternatives, modifications and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0012] In the following description, similar features in the drawings have been given similar reference numerals.

[0013] Figure 1 illustrates a low head water turbine 10 in accordance with the invention comprising a runner 12 having a cylindrical outer surface 14 extending between opposite ends 16. A shaft 18 is centrally positioned in the runner 12 along a horizontal axis of rotation 20. A plurality of similar blades 22 are evenly spaced about the cylindrical outer surface 14 of the runner 12. The blades 22 have inner edges 24, outer edges 26 and sides 28 extending between the inner edges 24 and the outer edges 26. Sides 28 are coextensive with the ends 16 of the runner 12. The blades 22 are similarly pivotably secured along their inner edges 24 to the cylindrical outer surface 14 of the runner 12 so as to pivot in the direction of rotation of the runner 12 between a closed position lying adjacent the cylindrical outer surface 14 of the runner 12 and an open position at an angle thereto.

[0014] A housing 32 having end walls 34 and a cylindrical side wall 36 extending therebetween completely encases the runner 12 and its blades 22. The end walls 34 are proximal to the ends 16 of the runner 12. The shaft 18 of the runner 12 is eccentrically mounted within the housing 32 on the end walls 34 of the housing 32 for rotation of the runner 12 about the horizontal axis of rotation 20 so that the cylindrical outer surface 14 of the runner 12 is spaced closer to an upper portion 38 of the cylindrical side wall 36 of the housing 32 and farther from a lower portion 40 thereof. The shaft 18 is cylindrical and is mounted in corresponding circular slots 42 in the end walls 34 of the housing 32.

[0015] A curved endless groove 46 is provided in one of the end walls 34 of the housing 32. Alternatively, a curved endless groove 46 may be provided in both of the end walls 34 of the housing 32 adjacent to corresponding ends of the cylindrical side wall 36 of the housing 32 (as shown in Figure 1). The curved endless groove 46 has a center coincident with a central axis of the cylindrical side wall 36 of the housing 32 and is spaced from said cylindrical side wall 36 of the housing 32 by a fixed distance about the curved endless groove 46.

[0016] A connector 52 extends from a corresponding side 28 of each of the blades 22 and is seated in the curved endless groove 46 in one of the end walls 34 of the housing 32 for travel therein as the runner 12 rotates. Optionally, a second endless groove 46 may be provided in the other end wall 34 of the housing with connectors 52 extending from the other side 28 of each blade 22. The connectors 52 may be lugs, wheels (e.g. roller bearing mounted wheels), bearings or any other suitable part for sliding movement in the curved endless groove 46. The shape of the connector 52 may be constrained so as to be seated in the curved endless groove 46. Each connector 52 may extend from a portion of the side 28 of the corresponding blade 22 which is proximal to the outer edge 26 of the blade 22. Of course, it should be understood that the connectors 52 may extend from anywhere along the corresponding sides 28. The leverage provided by the connectors 52 will of course be greater where the connectors 52 are positioned proximal to the outer edges 26.

[0017] Similarly, a lateral cross section of the curved endless groove 46 may be rectilinear, curved or any other suitable shape and/or may comprise a rail for receiving a wheel. The groove 46 may be of such a width that the connector fits tightly or loosely in the groove 46. The connector may engage an inner side, an outer side, or both sides of the groove 46.

[0018] The friction force between the connector 52 and the groove 46 may be controlled using known methods and parts. Similarly, at sites where silt contamination and the like is a concern, a suitable choice of connector and groove configuration may be made.

[0019] The blades 22 are constructed and positioned and the curved endless groove 46 is of a circumference, so that, during operation of the turbine 10, as the connectors 52 travel in the curved endless groove 46, they draw the blades to the closed position as the blades 22 approach and pass the upper portion 38 of the cylindrical side wall 36 of the housing 32, and extend the blades 22 to the open position as the blades 22 move below the horizontal axis of rotation 20 to the lower position, all the time the outer edges 26 of the blades 22 being adjacent the cylindrical side wall 36 of the housing 32. The transition of between the open and closed positions of the blades 22 is smooth because of the cooperation of the connectors 52 and the curved endless groove 46.

[0020] Figure 2 illustrates turbine 10 in whicii a flow of water is brought to an inlet opening 54 of the turbine 10 by way of a pipe 80. The inlet opening 54 is located in a lower, forward portion 56 of the housing 32 and below the horizontal axis of rotation 20 of the runner 12. An outlet opening 58 is located in a lower, rearward portion 60 of the housing 32.

[0021] The inlet opening 54 may be formed by series of spaced slots 62 in the wall of the housing 32. The total area of the spaced slots 62 may progressively increase from top to bottom of the inlet opening 54 so as to permit progressively greater inflow of water from top to bottom of the inlet opening 54.
The outlet opening 58 may be similarly formed by a series of spaced slots 64 in the wall of the housing 32. The inlet and outlet openings 54 and 58 may act as gratings which can support the outer edges 26 of the blades 22. An additional grating such as a coarse grade screen (not shown) may be installed upstream of the inlet opening 54 to prevent debris from entering the housing 32 of the turbine 10.

[0022] Water will enter via inlet opening 54 and will flow against blades 22 in the lower, forward (upstream) portion 56 of the housing 32. Runner 12 thus rotates about the horizontal axis of rotation 20 in a clockwise motion.

[0023] Most of the water flowing into the housing 32 is able to effectively and efficiently bear against blades 22 in their open position to cause rotation of the runner 12 because the flow of water into housing 32 through inlet opening is directed at the blades 22 in the lower, forward portion 56 of the housing (where the blades 22 are in the open position). In addition, there is little opportunity for water to escape between the sides 28 of the blades 22 and the end walls 34 of the housing 32, and between the outer edges 26 of the blades and the corresponding inner surface of the cylindrical side wall 36 of the housing 32. It is essentially the eccentric mounting of runner 12 within housing 32, and the smooth transition of the blades 22 between the open and closed positions, permitted by the eccentric mounting of runner 12 and the positioning of the blades 22 by the travel of the connectors 52 in the curved endless groove 46, which leads to the increased efficiency of operation of the turbine 10.

[0024] The blades 22 may be curved along a transverse axis as illustrated so as to conform to the cylindrical outer surface 14 of the runner 12 when in the closed position.

[0025] The inner surfaces 66 of the blades 22 may each be provided with one or more blade spacer plates (not shown) which, when in the closed position, lie in registry with one more runner spacer plates 72 on the cylindrical outer surface 14 of the runner 12. The outer surfaces 68 of the blades 22 thus form a streamlined outer surface. Additional plates 70 may be provided between the runner spacer plates 72 and the cylindrical outer surface 14 of the runner 12.

[0026] Elongated flexible strips 78 are secured to the outer edges 26 of the blades 22. During operation of the turbine 10, these elongated flexible strips reduce passage of water between the outer edges 26 of the blades 22 and the cylindrical side wall 36 of the housing 32. The elongated flexible strips 78 are made of a low friction plastic.

[0027] In Figures 1 and 2, the cylindrical side wall 36 of the housing 32 is circular in lateral cross-section. The curved endless groove 46 is therefore also circular in lateral cross-section. Alternatively, as shown in Figure 3, the cylindrical side wall 36 of the housing 32 may be elliptical in lateral cross-section.
Where the cylindrical side wall 36 is elliptical in lateral cross-section, the curved endless groove 46 would also be elliptical in lateral cross-section and corresponding portions of groove 46 would be positioned a sirnilar distance from side wall 36.

[0028] The turbine 10 is scalable in size and any suitable number of blades 22 may be used. For example, eight blades 22 are shown in the Figures. The number of blades may depend upon the size of the turbine 10 and characteristics of the turbine site (e.g. velocity of water flow).

[0029] A plurality of turbines 10 as described may be placed in a waterway in either downstream (series) or side-by-side (parallel) arrangement. The series and parallel arrangements are suitable for different applications and provide different advantages, depending upon the characteristics of a particular turbine site.

[0030] Conventional means of converting the mechanical energy from the rotation of the runner 12 to electrical energy may be combined with the turbine for production of electricity.

[0031] Thus, it is apparent that there has been provided in accordance with the invention a low head water turbine that fully satisfies the objects, aims and advantages set forth above. While the invention has been described in conjunction with illustrated embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, it is intended to embrace all such alternatives, modifications and variations as fall within the spirit and broad scope of the invention.

Claims (10)

1. A low head water turbine comprising:
(a) a runner having a cylindrical outer surface extending between opposite ends;
(b) a shaft centrally positioned in the runner along a horizontal axis of rotation;
(c) a plurality of similar blades having inner and outer edges and sides extending between the inner and outer edges, the blades evenly spaced about the surface of the runner and extending to the ends of the of the runner, the blades similarly pivotably secured along their inner edges to the outer surface of the runner so as to pivot in the direction of rotation of the runner between a closed position lying adjacent the outer surface of the runner and an open position at an angle thereto;
(d) a housing having end walls and a cylindrical side wall extending therebetween, completely encasing the runner and its blades, the end walls of the housing being proximal to the ends of the runner, the shaft of the runner eccentrically mounted within the housing on the end walls of the housing for rotation of the runner about the horizontal axis of rotation so that the cylindrical outer surface of the runner is spaced closer to an upper portion of the cylindrical side wall of the housing and farther from a lower portion thereof;
(e) at least one curved endless groove in at least one of the end walls of the housing, said at least one curved endless groove circumscribing the shaft and being spaced from said cylindrical side wall of the housing by a fixed distance about the curved endless groove;
(f) a connector extending from a corresponding side of each of the blades and seated in the curved endless groove for travel therein as the runner rotates;
(g) a water inlet opening located in a lower, forward portion of the housing and below the axis of rotation of the runner; and (h)a water outlet opening located in a lower, rearward portion of the housing, wherein, the blades and connectors are constructed and positioned and the curved endless groove is of a circumference, so that, during operation of the turbine, as the connectors travel in the curved endless groove, the connectors draw the blades to the closed position as the blades approach and pass the upper portion of the cylindrical side wall of the housing, and extend the blades to the open position as the blades move below the horizontal axis of rotation to the lower position, all the time the outer edges of the blades being adjacent the cylindrical side wall of the housing so as to restrict the passage of water between the outer edges of the blades and the cylindrical side wall of the housing.

2. A turbine according to claim 1, wherein said cylindrical side wall is circular in lateral cross-section and said curved endless groove is circular.

3. A turbine according to claim 1, wherein said cylindrical side wall is elliptical in lateral cross-section and said curved endless groove is elliptical.

4. A turbine according to claim 1, wherein said connectors extend from a portion of said one of the sides of said blade proximal to said outer edge of said blade.

5. A turbine according to claim 1, wherein said connectors are roller bearing mounted wheels.

6. A turbine according to claim 1, wherein the shaft of the runner is cylindrical and is mounted in corresponding circular slots in the end walls of the housing.

7. A turbine according to claim 1, wherein the blades are curved along a transverse axis so as to, when in the closed position, conform to the surface of the runner.

8. A turbine according to claim 1, wherein the inner surfaces of the blades are each provided with one or more blade spacer plates which, when in the closed position, lie in registry with one more runner spacer plates on the outer surface of the runner so that the outer surfaces of the blades form a streamlined surface.

9. A turbine according to claim 1, wherein elongated flexible strips are secured to the outer edges of the blades, during operation so as to reduce passage of water between the outer edges of the blades and the cylindrical side wall of the housing.

10.A turbine according to claim 5, wherein the strips are made of a low friction plastic.