ELECTRICITY GENERATING ARRANGEMENT
According to a first aspect of the invention there is provided an electricity generating arrangement comprising at least one secondary water conduit fitted to a primary water conduit, the secondary water conduit defining an inlet for allowing water flowing through the primary water conduit to enter the secondary water conduit and an outlet for allowing water flowing through the secondary water conduit to exit the secondary water conduit so as to rejoin the primary water conduit. The arrangement further comprises at least one rotatable turbine located within the secondary water conduit, each turbine being connectable to a generator so that under the influence of the water flowing through the secondary water conduit, the turbine can rotate so as to drive the generator to generate electricity. In an example embodiment, an inlet valve is located within the secondary water conduit, adjacent the inlet, and an outlet valve is located within the secondary water conduit, adjacent the outlet.
This invention relates to an electricity generating arrangement.
BACKGROUND OF THE INVENTIONThere are many different ways of generating electricity. With the ever-growing shortage of natural resources, there is a continuous need of finding alternative ways of generating electricity. The well-known alternative ways make use of water, solar energy or wind to ultimately generate electricity. Each of these options have their disadvantages, with cost and long timeframes for installing and commissioning the associated equipment making these alternative ways not feasible in situations where electricity is needed urgently.
OBJECT OF THE INVENTIONIt is therefore an aim of the present invention to provide an arrangement that makes use of flowing water to generate electricity, but that is relatively quick, easy and inexpensive to setup.
SUMMARY OF THE INVENTIONAccording to a first aspect of the invention there is provided an electricity generating arrangement comprising:
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- at least one secondary water conduit fitted to a primary water conduit, the secondary water conduit defining an inlet for allowing water flowing through the primary water conduit to enter the secondary water conduit and an outlet for allowing water flowing through the secondary water conduit to exit the secondary water conduit so as to rejoin the primary water conduit; and
- at least one rotatable turbine located within the secondary water conduit, each turbine being connectable to a generator so that under the influence of the water flowing through the secondary water conduit, the turbine can rotate so as to drive the generator to generate electricity.
In an example embodiment, an inlet valve is located within the secondary water conduit, adjacent the inlet, and an outlet valve is located within the secondary water conduit, adjacent the outlet.
In an example embodiment, the secondary water conduit comprises a substantially elongate portion that runs substantially parallel to the primary water conduit.
In an example embodiment, the turbine comprises either a fin arrangement or a threaded screw.
In an example embodiment, the primary water conduit is part of a residential/municipal water distribution system.
In an alternate example embodiment, the primary water conduit is defined by a natural conduit carrying water, such as a river.
According to a second aspect of the invention there is provided a method of fitting an electricity generating arrangement to a primary water conduit, the method comprising:
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- stopping the flow of water through the primary water conduit;
- defining an outlet and an inlet in a side wall of the primary water conduit; and
- fitting a secondary water conduit to the primary water conduit, the secondary water conduit defining an inlet that can be in fluid communication with the outlet defined in the primary water conduit, the secondary water conduit defining an outlet that can be in fluid communication with the inlet defined in the primary water conduit, the secondary water conduit housing a rotatable turbine, the turbine being connectable to a generator,
so that water flowing through the primary water conduit can enter the secondary water conduit, flow through the secondary water conduit and exit the secondary water conduit so as to rejoin the primary water conduit, so that under the influence of the water flowing through the secondary water conduit, the turbine can rotate so as to drive the generator to generate electricity.
In an example embodiment, the method includes fitting an inlet valve within the secondary water conduit, adjacent its inlet, and fitting an outlet valve within the secondary water conduit, adjacent its outlet.
According to a third aspect of the invention there is provided a method of fitting an electricity generating arrangement to a primary water conduit, the primary water conduit comprising a pressure reducing device, the method comprising:
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- stopping the flow of water through the primary water conduit; and
- replacing the pressure reducing device within the primary water conduit with a rotatable turbine, the turbine being connectable to a generator, so that water flowing through the primary water conduit can drive the generator to generate electricity.
In an example embodiment, the method includes fitting the pressure reducing device adjacent the primary water conduit, in parallel with the rotatable turbine.
Referring first to
The secondary water pipe 12 further defines an outlet 18 for allowing water flowing through the secondary water pipe 12 to exit the secondary water pipe 12 so as to rejoin the primary water pipe 14, as indicated by the arrows in the figure.
The primary water pipe 14 typically includes a pressure reducing device, such as a pressure reducing valve 20, as is well known in the art.
Significantly, a rotatable turbine 22 is located within the secondary water pipe 12, the turbine 20 being connectable to a generator 24 so that under the influence of the water flowing through the secondary water pipe 12, the turbine 22 can rotate so as to drive the generator 24 to generate electricity for distribution or storage.
In an example embodiment, an inlet valve 26 is located within the secondary water pipe 12, adjacent the inlet 16, and an outlet valve 28 is located within the secondary water pipe 12, adjacent the outlet 18. The valves 26, 28 may take the form of a non return valve and/or pressure reducing valve, depending on a number of factors, such as the size of supply and location, the water pressure and the anticipated water flow speed.
In addition, although not shown in
In an example embodiment, the secondary water pipe 12 comprises a substantially elongate portion 30 that runs substantially parallel to the primary water pipe 14.
In an example embodiment, the turbine 22 comprises either a fin arrangement or a threaded screw.
In an example embodiment, the primary water pipe 14 is part of a residential/municipal water pipe system. In particular, the water pipe system may be part of a local government, government, semi-government or privately owned water distribution network.
In an alternate example embodiment, the primary water pipe is defined by a natural conduit carrying water, such as a river. In this embodiment, pumps may be fitted to pump the water out of the river, through the secondary water pipe, and then back into the river.
Turning now to
Alternatively, or in addition, underground cables 58, 60 may also be used to carry the electricity to a transformer station 46 or 52, and then onto a mini substation or directly to a consumer. Clearly, the reticulation network may be designed in any one of a number of well-known ways, with the grid shown in
Turning now to
As described above, the secondary water pipe defines an inlet that can be in fluid communication with the outlet defined in the primary water pipe. The secondary water pipe further defines an outlet that can be in fluid communication with the inlet defined in the primary water pipe. The secondary water pipe houses a rotatable turbine, the turbine being connectable to a generator, so that water flowing through the primary water pipe can enter the secondary water pipe, flow through the secondary water pipe and exit the secondary water pipe so as to rejoin the primary water pipe, so that under the influence of the water flowing through the secondary water pipe, the turbine can rotate so as to drive the generator to generate electricity.
In an example embodiment, although not shown in
Turning now to
The main secondary water pipe 82 defines an inlet 86 for allowing water flowing through the primary water pipe 84 to enter the main secondary water pipe 82. The main secondary water pipe 82 further defines an outlet 88 for allowing water flowing through the main secondary water pipe 82 to exit the main secondary water pipe 82 so as to rejoin the primary water pipe 84, as described above.
The primary water pipe 84 typically includes a pressure reducing device, such as a pressure reducing valve 90, as is well known in the art.
Significantly, a plurality of additional secondary water conduits 92, 94 extend across the ends of the main secondary water pipe 82 so as to define a parallel arrangement of secondary water pipes 82, 92 and 94.
Rotatable turbines 96, 98 and 100 are located within the secondary water pipes 82, 92 and 94, respectively. Each turbine. 96, 98 and 100 is connectable to a generator 102, 104 and 106 so that under the influence of the water flowing through the secondary water pipes 82, 92 and 94 the turbines 96, 98 and 100 can rotate so as to drive the generators 102, 104 and 106 to generate electricity. The generated electricity may either be distributed locally via a local cable distribution network, as indicated by arrow 108, or the voltage may be stepped up using suitable transformers 110 for long distance distribution over a high voltage network, as indicated by arrow 112.
In a further version of the invention, turning now to
A pressure reducing device, such as a pressure reducing valve 134, may be fitted adjacent the primary water conduit 122, so as to be substantially in parallel with the rotatable turbine 124.
In one version of the embodiment shown in
Turning now to
Although not shown in
Since it is envisaged that the primary water pipe will form part of a residential/municipal water pipe system, the present invention discloses an electricity generating arrangement that is relatively quick, easy and inexpensive to setup.
Claims
1-10. (canceled)
11. An electricity generating arrangement comprising;
- at least one secondary water conduit fitted to a primary water conduit, the primary water conduit being fitted with a pressure reducing valve, the secondary water conduit defining an inlet. before the pressure reducing valve, for allowing water flowing through the primary water conduit to enter the secondary water conduit, and an outlet for allowing water flowing through the secondary water conduit to exit the secondary water conduit so as to rejoin the primary water conduit after the pressure reducing valve, the flow of water through the secondary water conduit thus bypassing the pressure reducing valve of the primary water conduit; and
- at least one rotatable turbine located within the secondary water conduit, each turbine being connectable to a generator so that under the influence of the water flowing through the secondary water conduit, the turbine can rotate so as to drive the generator to generate electricity.
12. The electricity generating arrangement of claim 11, wherein an inlet valve is located within the secondary water conduit, adjacent the inlet, and an outlet valve is located within the secondary water conduit, adjacent the outlet.
13. The electricity generating arrangement of either claim 11 or claim 12, wherein the secondary water conduit comprises a substantially elongate portion that runs substantially parallel to the primary water conduit.
14. The electricity generating arrangement of any one of the preceding claims, wherein the turbine comprises either a fin arrangement or a threaded screw.
15. The electricity generating arrangement of any one of the preceding claims, wherein the primary water conduit is part of a residential/municipal water distribution system.
16. The electricity generating arrangement of any one of claims 11 to 14, wherein the primary water conduit is defined by a natural conduit carrying water.
17. A method of fitting an electricity generating arrangement to a primary water conduit, the primary water conduit being fitted with a pressure reducing valve, the method comprising:
- stopping the flow of water through the primary water conduit;
- defining an outlet and an inlet in a side wall of the primary water conduit, on opposite sides of the pressure reducing valve; and
- fitting a secondary water conduit to the primary water conduit the secondary water conduit defining an inlet that can be in fluid communication with the outlet defined in the primary water conduit, the secondary water conduit defining an outlet that can be in fluid communication with the inlet defined in the primary water conduit, the secondary water conduit housing a rotatable turbine, the turbine being connectable to a generator,
- so that water flowing through the primary water conduit can enter the secondary water conduit, flow through the secondary water conduit and exit the secondary water conduit so as to rejoin the primary water conduit, thus bypassing the pressure reducing valve of the primary water conduit, so that under the influence of the water flowing through the secondary water conduit, the turbine can rotate so as to drive the generator to generate electricity.
18. The method of claim 17, which includes fitting an inlet valve within the secondary water conduit, adjacent its inlet, and fitting an outlet valve within the secondary water conduit, adjacent its outlet.
Type: Application
Filed: Feb 17, 2009
Publication Date: Jan 13, 2011
Inventor: Coenraad Frederik Van Blerk ( Boksburg)
Application Number: 12/919,297