Title of Invention

AN ELECTRICAL POWER GENERATING PLANT USING KINETIC ENERGY OF WATER WAVES OR WATER FLOW

Abstract An electrical power generating plant utilizing kinetic energy of water, which comprising a floating base for supporting and keeping the plant in floating condition. The floating base made of a pair of barrels of tubular sections placed in direction of water flow. A pillar structure rigidly fixed over each of the floating base barrel along both longitudinal sides of the plant, provided with a plurality of roller assemblies with a runway. On each of the two longitudinal sides of the plant a plurality of flappers provided, in spaced a part relationship across the direction of water flow. Each flapper hanging from the roller assemblies connected at its upper end on the runway bars. Each of the flappers adopted to face the water flow and move freely with roller assemblies on the runways in unidirection , which gives motion to the assembly connected to the flappers, that transfers motion to dynamo which generates electrical power.
Full Text
FORM-2
THE PATENTS ACT, 1970
COMPLETE SPECIFICATION
SECTION-10
"AN ELECTRICAL POWER GENERATING PLANT USING KINETIC ENERGY OF WATER WAVES OR WATER FLOW"
PATEL GHANSHYAMBHAI KANJIBHAI
India National, residing at
26, Viveknagar Society, Ranchodjivas,
Amraiwadi, Ahmedabad-380 026
Gujarat State, India.
The following specification particularly describes the nature of this invention and the manner in which it is to be performed:-


This invention relates to an Electrical power generating plant by sing kinetic energy of water waves or water flow.
More particularly this invention relates to a novel plant to harness kinetic energy from tidal/sea waves or flowing water in rivers, canals and the like and converting/transforming the same into electrical power/energy, without leaving any adverse effect or marine life or environment.
With the continuous development of civilization, electrical power remains in great demand and in several countries like India there is always a crises.
For generating electricity there are existing thermal plants mainly using fossil fuels such as coals, petroleum products (liquid or gaseous fuels). Besides, these fuels are available in limited quantity, which may last in near future, (by 2040) all these plants are creating big environmental problems by releasing pollutants in the atmosphere. Some small thermal plants may be working on wood and agricultural waste, as a fuel, but these plants are also creating environmental problems. The above all the thermal plants are releasing Carbon dioxide in huge quantities which contribute towards global warming.
Another type of plants existing for generating electricity are the hydro electricity plants which require big dams to be constructed across the river which results in to displacement is very exorbitant. A further type of electricity generating plants known in the prior art are nuclear power plants which besides being very costly are quite risky because of radiation
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leakage being disastrous and at the same time technology involved in highly sophisticated.
The topic of Human kind's need for renewable energy is becoming more and more well known. Mostly because the world needs a source of energy that will last longer than our limited supply of fossil fuels. Pollution is also a major issue, many environment list groups are pushing towards more Earth friendly sources of energy or civilization will come to a screeching halt around the year 2040. There are three main practical solutions to the energy crisis: Solar Power, Wind Power and Water Power. Work is continuously going on in all these fields. Solar Power and Wind Power is being used at some places to a limited extent. Water Power has great potential. There are different ways to harness the energy in water. The most common way of capturing water energy is hydro electrical power i.e. electricity generated by falling of water. The drawbacks or limitations of it has been described herein before.
Another method of harnessing water's energy is using the temperature of ocean water in a thermal transfer process, one of the plant developed is known as ocean thermal energy Converter (OTEC). OTEC uses warm tropical waters to evaporate liquid that boils at a very low temperature such as ammonia or freon. The steam produced is forced through tubbiness to generate electricity. The gas is then placed in a storage tank where cold water from ocean floor is brought up to turn it back into liquid and then the process is repeated.
In another design, warm surface water is passed in to an evaporator the pressure is lowered which causes water to vaporize. It is forced through a turbine to generate electricity. Cold water is piped
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forced lower ocean depths to cool the vaporized water, to repeat the cycle.
The main problem with these plants is that the pipe to collect cold water at lower depths kept braking off during storms and hence eventually abandoned. The new designs of OTEC are still mostly at experimental stage.
A further type of plant using water wave energy are known as oscillating water column (OWC), when the wind hits the water, it transfers massive amount of potential energy to the water, some of which is captured by OWC. When waves hit as OWC, the air inside is compressed and forced through air turbines to generate electricity. The OWC'S are also still mostly experimental. An OWC in Norway when used was blown to sea during a heavy storm in 1998.
A further form of such plants is known as "Salter Ducks", which floats and are connected in a chain of about 25, when they bob up and down in the water, a pump is driven and energy is created. These are also at study level only.
A further type of such plants are called Tidal Mills or Tidal Power stations. In this a barrage is first set across a beach or river, when high tide comes in, water flows through turbines to generate electricity. Now some water is up behind the barrage. A gate is lowered from the barrage, capturing the water above it, when low tide comes, the gate is raised and the water flows out with two - way turbines. Tidal power stations are very expensive to build and have environmental problems as they destroy
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homes to many birds and other animals. Fishes swim up to these stations and are killed by the turbines.
The main object of this invention is to obviate the above mentioned draw backs of all the existing electrical power generating and to provide a novel electrical power generating plants by using kinetic energy available in abundance in sea waves or in flowing water of rivers, canals and like water streams.
Another object of this invention is to provide a novel electrical power generating plants by using kinetic of water waves or water flow wherein there is no pollution or any adverse effect on environment or natural maricultural activities or no danger to fish or any such animals.
A further object of this invention is to provide a novel electrical power generating plant by using kinetic energy of water waves or water flow which does not require permanent construction like RCC structure, which remains floating above the water level and provide mobility to the whole plant so that it can be shifted from one place to another and at the same time can be anchored easily at a desired location and structure being floating type remains protected from storms.
A further object of this invention is to provide a novel electrical power generating plant by using kinetic energy of water waves or water flow without blocking the navigation, or interrupting the flow river or changing the location of the inter tidal zones and thereby helping in conservation of environment.
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A further object of this invention is to provide a novel electrical power generating plant by using kinetic energy of water waves of water flow which is easy to built and maintain and does not involve any sophisticated technology, machine or other equipment, needing highly skilled specialists for constructing, using or maintaining the plant.
A further object of this invention is to provide a novel electrical power generating plant by using kinetic energy of water waves or water flow which can be constructed in easy to assemble modular form thereby increasing or decreasing the area and capacity of the plant very easily according to the requirements from time to time or place to place.
A further object of this invention is to provide a novel electrical power generating plant by using kinetic energy of water waves or water flow, which is comparatively cheaper, continues to harness water energy and converting the same in to electricity for a sufficiently long time without interruption, Cost of power generated is minimal and at the same time the power transmission costs and losses can be minimized.
Accordingly this invention provides and electrical power generating plant by using kinetic energy of water waves or water flow in a body of water, the said plant comprising of a floating base for supporting and keeping plant in floating state on the water surface of the said water body, the floating base preferably made of a pair of barrels or tubular sections, of the length selected according to the desired plant length, each of the said barrel adapted to be placed, in spaced apart relationship, according to the desired plant width, parallel to water waves motion or water flow, a pillar structure, rigidly fixed over each of said floating base/barrel along both the longitudinal sides of the plant, each of
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the pillar structure being provided at it top portion with a plurality of roller assemblies with a runway, one each on the said longitudinal sides of the plant, a plurality of flappers, provided in space apart relationship, along the width of the plant and across the water flow or water waves motion and hanging from the said roller assemblies and the runway, a super structure provided at the top of the said pillar structure, an electric generator, and a power transmission system provided for rotating the said generator, with the motion received from the movement of the said flappers with roller assemblies on the said runway and a power distribution system supported on the said super structure.
The invention will be more clear from the following description with reference to accompanying drawings wherein :
Figs. 1, 2 & 3 - show schematic plan, elevation and end view, respectively of the electrical power generating plant by using kinetic energy of water waves or water flow in a body of water, according to an embodiment of this invention.
Figs. 4, 5 & 6 - show plan, elevation and end view, respectively of the roller assembly with run way, mounted on the top portion of the pillar structure of the electrical power generating plant, shown in figs. 1, 2 & 3.
Figs. 7 & 8 - show partial, end view and elevation (enlarged views) respectively, showing details of roller assembly connection with flapper and chain drive of the plant shown in figs. 1, 2 & 3.
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Figs. 9 & 10 - show partial, end view and elevation (enlarged views) respectively, showing connection of chain drive with the flapper top pipe, of the plant shown in figs. 1, 2 & 3.
Figs. 11, 12 & 13 - show plan, elevation and end view, respectively, of the flapper of electrical power generating plant of this invention as shown in figs. 1, 2 & 3.
Fig. 14 - shows enlarged end view of the flapper, without flap valve showing details of the portion 'A' marked in fig. 13, which is more suitable for the plant of this invention used for converting kinetic energy of water flow in to electrical power, in a water body like river of canal.
Fig. 15 - shows enlarged end view of the flapper with flap type valve, showing details of the portion 'A' marked in fig. 13, of the plant of this invention, shown in figs. 1, 2 & 3, used for converting kinetic energy of water waves into electrical power, in a water body like sea, ocean, lakes or ponds.
Fig. 16 - shows schematic partial elevation of the plant, showing water waves in forward direction striking the flapper, with flap valves in closed position, of the plant of this invention and moving the same along the runway imparting rotational motion in clock wise direction.
Fig. 17 - shows schematic partial elevation of the plant, showing water waves striking the flapper in both the forward and reverse direction the lower water waves in reverse
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direction, make the flap valves opened to allow these waves to move easily and the flapper still moving in clock wise direction because of upper water waves in forward direction striking the flapper with flap vales is closed position.
Fig. 18 - shows schematic partial elevation of the plant, showing the position of the flapper across the water waves in reverse direction, making the flap valves of the flapper opened and allowing the reverse waves to move easily and no rotational motion will be imparted to the flapper in this position.
Fig. 19 - shows schematic partial elevation of one end of the plant, showing the position of the flapper, in the air, away from the water, having all the flap valves self opened, due to its own weight, allowing the air/wind to flow without resistance.
Fig. 20 - shows schematic partial elevation of the other end of the plant, showing the position of the flapper just before entering into water having flap valves in self closed position, in order to transmit water wave flow energy in to rotational motion in clockwise direction.
Figs. 21, 22 & 23 - show plan, elevation and end view, respectively, of the roller assembly, with runway, mounted on top portion of the pillar structure, according to another embodiment of this invention, as an alternative of the roller assembly shown in figs. 4, 5 & 6.
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Figs. 24, 25 & 26 - show, end view, partially enlarged end view and rack and pinion details, respectively, as an alternative of the system shown in figs. 1, 2 & 3, for transmitting motion from the flapper, to generate electricity.
Figs. 27, 28 & 29 - show, end view, partially enlarged and view and electric magneto systems details respectively, as a further alternative of the system shown in figs. 1, 2 & 3, for transmitting motion from flapper to generate electricity.
Referring to figs. 1 to 29, an electrical power generating plant by using kinetic energy of water waves or water flow in a water body such as ocean, sea, lake, pond, river, canal or the like, the said plant comprising a floating base (1) for supporting the said plant in floating state on the water surface in the water body. The floating base (1) mainly comprises one or more preferably, two barrels or similar tubular sections (2) preferably provided along the longitudinal sides (3) of the plant, in a spaced apart relationship. The distance (w) between the two longitudinal barrels (2) is kept according to the width of the plant. Length of each barrel (2) is selected according to the desired length (L) of the plant, which depends on the capacity of the plant.
However these barrels along with other structure can be made in modular form and a number of modules can be connected in tandem as per requirement. The barrels are kept longitudinally parallel to water flow. The two open ends of each barrel (2) are closed by using end plates (4). Preferably the open end of each of the barrel (2), facing the water flow is closed by a cone (5) in order to reduce the water force on the barrel end.
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The two barrels are inter connected by the plant and preventing the barrels diverging out at the bottom side of the plant. Barrels (2) being of a limited length may also be provided with flanges (7), for connecting a number of barrels in order to increase the length (L) of the plant, as per requirement. This also enables to reduce the length of the water waves in a water body. The floating base (1) provides mobility to the plant. That is the plant can be moved from place to place in the water body as well as at the same place it enables the plant, to move up and down to adjust with the water in the ocean, sea or lakes during high tides or low tides or during change of water flow, parameters in rivers or canals during flood or less flow. Further as the floating structure does not block the water waves/water flow and allows the water waves to move backward and forward direction the plant is safeguarded from damages during storms or floods. Though two numbers of the barrels (2) are shown in figures, but for increasing the width (W) more numbers of barrels (2) parallel to each other can be provided as per requirement. A pillar structure (8), preferably made of strong frame work, to provide more strength with less weight is rigidly fixed over each barrel (2), along its length. At the top portion (9) of the pillar structure (8) a plurality of roller assembles (10), having one pair or two pairs of rollers (11) and a runway (12) are provided in spaced apart relationship, along both the longitudinal sides of the plant. A continuous runway (12) is formed on both the longitudinal sides of the plant (as shown in fig. 2). A plurality of flappers (13) is provided in spaced apart relationship along the length of the plant, which are hanged from the roller assemblies (10) freely moving over the runway (12). Each of the flappers (13) is hanged across the water flow and is supported at its top at both ends in the said roller assemblies (10) engaging with the runways (12) at both longitudinal ends of the plant. The flapper (13) is made of a frame structure, like window frames, covered at both sides with plates and
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provided with a pipe (14) at its top, The two ends of the flapper pipe (14) are rigidly connected to a pair of roller assemblies (10), one each, opposite to each other, on the runways (12) and thus the flappers can move smoothly along with the roller assemblies on the runways (12). To reduce the weight, the flappers are made of hollow frame, supporting the side plates, which are cut into 'V Shaper as shown in figure (12), as such the flappers are rigid and light in weight. A shown in fig. 15, the flapper (13) are made of large number of window frames, each of which is provided with an unidirectional flap valve (15) hinged with the help of hinges (16) to the window frame (17) at the top. The flap valve (15) is self opening and closing type. When the flapper is hanging downward flap valve closes by its own weight and when its lower free end moves, upward, the flap valve opens by its own weights, due to gravitational force. Also when water flow or water strikes the flapper in forward direction flap valve (15) remains closed and when the waves strike in reverse direction the flap valve is opened, unidirectional flap valve opening and closing in various positions are clearly illustrated in figs. 16, 17, 18,19 and 20.
Figs. 21, 22 & 23 show the roller assembly (10) provided with two rollers (11) instead of four, as shown in figs. 4, 5, and 6. As shown in figs. 7, 8 and 9, a pair of continuous chains (18) is fixed to the flapper pipe (14) and runs to the two longitudinal sides of the plant along the runways (12). A super structure (19) is mounted over the pillar structure (8), for supporting various electrical power generating and transmission systems. A pair of gears/spur wheels (20) mounted on a drive shaft (21) is provided in the super structure which engages and rotated with the chain (18). The drive shaft (21) is connected with electric generator/Dynamo (22) with the help of belt and pulley drive system (23). A flywheel (24) may also be provided
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to regulate the rotational motion. The super structure (19) is also made of frame structure provided with bracing to make it a strong rigid structure with low weight.
The flapper (13) along with floating base is the novel feature of this invention. While the floating base structure keeps the plant floating at the surface of the water body without interfering the flow of water or without interrupting the water waves or without affecting any navigation, mariculture or environment. The flapper (13) is made of a large number of windows provided with unidirectional flap valves (15). The novel feature of this invention is to harness the kinetic energy in water flow or water waves of a water body with the help of novel flappers (13) of this invention. The unidirectional flap vales (15) provided in the flapper are closed and opened by self weight. When water waves strike the flapper (13) the unidirectional flap valve (15) are closed and the wave energy striking the flapper, with its valve closed, moves the flapper with roller assembly (10) and chain (18) connected to the flapper pipe (14). The moving chain rotates the gears/spur wheels (20) with its shaft (21) which is turn rotates the electric generator/dynamo (22) with the help of belts and pulley drive (23) and thus the kinetic energy of the water waves is converted into electric power by the electric generator/dynamo (22) which is further transmitted with known electrical power transmission system. Novel construction of the flapper provides maximum water energy to be converted into electricity as it provides least resistance to water waves in reverse direction as well as it provides least resistance to winds. As shown in figure 16, water waves in forward direction, striking the flapper (13), with flap valves (15) in closed position, converts the kinetic energy in water waves to the maximum extent which moves the flapper with roller assembly and chain attached to the flapper top pipe (14) and this
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flapper movement is converted into electrical power through the generator (22). As shown in fig. 17, forward water waves at the upper level of water body, contribute to the motion of flapper, while reverse water waves at the lower level of water body opens the flap valves and pass back without much resistance. Similarly as shown in fig. 18, reverse water waves pass through opened flap valves, however in this position no motion will be transferred to the flapper but the chain will continue to rotate in clock wise direction due to the motion of the flapper (13), facing some other waves, like wise shown in figs- 16 and 17. Further as shown in fig. 19 wind velocity will not cause any resistance as flap valves will be opened to allow the wind to pass through flapper. The size of the flapper valves (15) may be kept smaller in the lower rows of the flapper, as the force of the water waves in reverse direction is comparatively less than the forward waves in upper level.
Electricity generator/dynamo (22) is mounted on the super structure by using pedestal and rotating shafts are mounted through bearings in a known manner and are not illustrated and described in details. Similarly speed variation gear box flywheel, alternator, circuit breaker, frequency converter and PLC, step-up transformer and step down transformer, the auxillation controller, etc. may also be provided in the known manner, which are not illustrated and described.
Further as and alternative shown in figs. 24, 25 and 26 for converting the flapper motion into electricity a rack and pinion system can be utilized. Dynamo (24) are attached to the flapper pipe (14), on its both ends, the shaft (25) of each dynamo is fitted with a pinion (26) which engages a rack (27) provided on the upper portion (9) of the pillar structure (8), at both the longitudinal sides of the plant. The electric power
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generated by a number of dynamos (24) in collected a distributed in the known manner.
As a further alternative shown in figs. 27, 28 and 29 magnetic strips system of generating electricity may be utilized. Magnetic strips (28) are mounted on the upper portion (9) of the pillar structure (8), on both the longitudinal sides of the plant, and the flapper pipe (14) of each flapper (13) is provided with magnetic strips (29) on its both ends in such a way that when flapper (13) moves after harnessing water energy of the water waves or water flow in a water body, the magnetic strips (29) also move over the magnetic strips (28), maintaining a desired gap, and electricity is produced in the known manner, due to the change in magnetic flux. The electricity produced is collected and transmitted in the known manner.
For generating electricity the plant is provided in the water body. For the converting kinetic energy of water waves of a water body like sea, ocean, lake or pool the plant is provided in the water body which remains floating on the water surface and anchored at a place by using anchors like Ship anchors. If required it can be attached to the water base.
The plant can be constructed in a desired length and which depending upon the capacity required. Wave generation study of various zones is available or can be carried out to design a plant. For better performance, length of the plant should be sufficient such that a large number of waves come across the flappers so that the chain always moves at a desired minimum speed to convert the water wave energy into electricity. The plant of this invention can be installed at any place near the sea shore or away from it. The plant is movable and can be shifted easily from one place to another. It remains floating on water
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surface and automatically adjusted up and down with rise and fall of water level and as it allows water waves to move without resistance, it is not likely to be damaged by storms.
For converting kinetic energy of water flow in a water body like river or canal where water flows continuously in a single direction, the plant is provided in a water body at a desired location and is fixed to some foundation. It does not obstruct the flow of water, but at the same time kinetic energy of the water flow is used for moving the flapper along with roller assemblies and chains and converting into electricity as described herein before. In this case flapper can be made without flapper valves as there will not be any reverse flow of water. The plant of this invention is preferably made of light weight corrosion proof material/metals or is provided with anti corrosive treatment/painting or coating.
The above description with reference drawings is given just to understand the invention rather than to limit its scope.
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I CLAIM:-
1). An electrical power generating plant by using kinetic energy of water waves oft water flow in a water body, the said plant comprising a floating base for supporting and keeping the plant in floating state on the water surface of the said water body, the said floating base, preferably, made of a pair of barrels of tubular sections of the length selected according to the desired plant length, each of the said barrel adopted to be placed, parallel to the direction of water flow or to the direction of motion of the water waves in the said water body, in spaced apart relationship according to the desired plant width, a pillar structure rigidly fixed over each of the said floating base barrel along both longitudinal sides of the plant, each of the pillar structure provided with a plurality of roller assemblies with a runway, one each, on each of the two longitudinal sides of the plant, a plurality of flappers provided, in spaced a.part relationship across the direction of water flow or water waves motion, each flapper hanging from the said roller assemblies connected at its two ends on the two runways, each of the flapper adopted to face the water flow or water waves of the water body and move freely with roller assemblies on the said runways in one direction only, a super structure provided on the said pillar structure, means for converting flapper motion into electricity and electrical power transmission system for transmitting electrical power generated in the plant and an anchoring means for keeping the said plant at a desired location in the water body.
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2). An electrical power generating plant as claimed in claim-1, wherein means for converting flapper motion in to electricity comprises a pair of chains attached at the two ends of the flapper top and moving along with the flappers and roller assemblies, a pair of gears/spur wheels provided on a drive shaft mounted on the super structure and each engaging with the said chain, the said drive shaft connected to electricity generator/dynamo shaft through belts and pulleys and the like drive system, the said electricity generator mounted on the said supper structure and provided with electrical power transmission system.
3). An electrical power generating plant as claimed in claim - 2, wherein the said electricity generator is mounted on the supper structure with the help of pedestal and a speed variation gear box and flywheel provided for controlling the speed variation.
4). An electrical generating plant as claimed in claim - 1, wherein means for converting motion into electricity comprises a rack attached to the top portion of the pillar structure, on each of the two longitudinal sides of the plant, a pair of dynamos mounted at the top of each flapper, at its two ends, the shaft of the said dynamo provided with a pinion which engages with the said rack, thereby rotating the said dynamos for generating the electricity and an electrical power collecting and transmission system provided for collecting and transmitting the electricity generated in the plant.
5). An electrical power generating plant as claimed in claim - 1, wherein means for converting flapper motion into electricity
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comprises a series of magnetic strips attached to the top portion of the pillar structure, on each of the two longitudinal sides of the plant, another series of magnetic strips provided on top of each flapper at its both the ends, adopted to move over the magnetic strips fixed to the pillar structure at a desired gap, when the flapper moves, for generating electricity, and an electrical power collecting and transmission system provided for collecting and transmitting the electricity generated in the plant.
6). An electrical power generating plant as claimed in any of the proceeding claims, wherein each of the said flapper comprises a plurality of window like frames provided in a number of rows, a pipe provided at the top, and the two sides are formed in 'V Shape, each of the windows provided with an unidirectional flap valve and said valve being opened and closed by its own weight.
7). An electrical power generating plant as claimed in claim - 6 wherein each of the said flappers is provided with a smaller size / height of window frame and flap valves, in its lower portion.
8). An electrical power generating plant as claimed in claims- 1, 2, 3, 4 or 5, wherein each of the said flappers comprises a 'V Shaped sides provided with a pipe at its top and internally supported by a frame structure to provide rigidity with less weight, such flappers being suitable in water bodies having unidirectional water flow.
9). An electrical power generating plant as claimed in any of the preceeding claims, wherein the said barrels at the two sides of the
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floating base are interconnected with strips, to maintain a constant width of the plant.
10). An electrical power generating plant, as claimed in any of the preceeding claims, wherein the said plant is made of high strength low weight corrosion resistant material such as stainless steel or other metal provided with anti- corrosion coating/painting.
11). A method of producing electricity by using kinetic energy of water waves or water flow in a water body with the help of an electrical power generating plant as claimed in any of the claims 1 to 10 comprising of providing the said plant in the water body such as sea, ocean, lake, pond, river, canal or the like, anchoring the said plant in the desired location, imparting unidirectional motion to the said flapper by harnessing the kinetic energy of water waves or water flow, converting the motion of the said flappers into electricity with the help of drive system and electrical power generating system and collecting and transmitting the electricity generated in the plant in the known manner.
12). A method as claimed in claim- 11, wherein the said plant is anchored in the water body by means of anchors, such as used for anchoring ships.
13). A method as claimed in claim- 11, wherein the said plant is anchored or provided at a desired location in the water with the help of foundation made at the base or on the banks of the water body.
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14). The method of producing electricity by using kinetic energy of water waves or water flow in a water body with the help of electrical power generating plant, substantially as herein described.
15). An electrical power generating plant by using kinetic energy of water waves or water flow in a water body, substantially as herein described and illustrated in figures 1 to 19 of the accompanying drawings.
Dated this 9th day of December 2003.
(Y.J. TRIVEDI) Authorised Agent of the Applicant
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BSTRACT
An electrical power generating plant utilizing kinetic energy of water, which comprising a floating base for supporting and keeping the plant in floating condition. The floating base made of a pair of barrels of tubular sections placed in direction of water flow. A pillar structure rigidly fixed over each of the floating base barrel along both longitudinal sides of the plant, provided with a plurality of roller assemblies with a runway. On each of the two longitudinal sides of the plant a plurality of flappers provided, in spaced a part relationship across the direction of water flow. Each flapper hanging from the roller assemblies connected at its upper end on the runway bars. Each of the flappers adopted to face the water flow and move freely with roller assemblies on the runways in unidirection , which gives motion to the assembly connected to the flappers, that transfers motion to dynamo which generates electrical power.

Documents:

1222-mum-2003-abstract(27-11-2003).pdf

1222-mum-2003-abstract(granted)-(24-4-2007).pdf

1222-mum-2003-abstract.doc

1222-mum-2003-abstract.pdf

1222-mum-2003-cancelled pages(12-3-2004).pdf

1222-mum-2003-claim(granted)-(12-03-2004).doc

1222-mum-2003-claims(27-11-2003).pdf

1222-mum-2003-claims(complete)-(29-12-2003).pdf

1222-mum-2003-claims(granted)-(12-3-2004).pdf

1222-mum-2003-claims(granted)-(24-4-2007).pdf

1222-mum-2003-claims.doc

1222-mum-2003-claims.pdf

1222-mum-2003-correspondence(13-6-2007).pdf

1222-mum-2003-correspondence(ipo)-(29-6-2007).pdf

1222-mum-2003-correspondence(ipo).pdf

1222-mum-2003-correspondence.pdf

1222-mum-2003-description(complete)-(29-12-2003).pdf

1222-mum-2003-description(granted)-(24-4-2007).pdf

1222-mum-2003-description(granted).doc

1222-mum-2003-description(granted).pdf

1222-mum-2003-description(provisional)-(27-11-2003).pdf

1222-mum-2003-drawing(12-3-2004).pdf

1222-mum-2003-drawing(27-11-2003).pdf

1222-mum-2003-drawing(granted)-(24-4-2007).pdf

1222-mum-2003-drawing(provisional)-(27-11-2003).pdf

1222-mum-2003-drawing.pdf

1222-mum-2003-form 1(25-11-2003).pdf

1222-mum-2003-form 1(27-11-2003).pdf

1222-mum-2003-form 1(29-12-2003).pdf

1222-mum-2003-form 1.pdf

1222-mum-2003-form 19(29-12-2003).pdf

1222-mum-2003-form 19.pdf

1222-mum-2003-form 2(cancelled).pdf

1222-mum-2003-form 2(complete)-(29-12-2003).pdf

1222-mum-2003-form 2(granted)-(12-03-2004).doc

1222-mum-2003-form 2(granted)-(12-3-2004).pdf

1222-mum-2003-form 2(granted)-(24-4-2007).pdf

1222-mum-2003-form 2(granted).pdf

1222-mum-2003-form 2(provisional specification).pdf

1222-mum-2003-form 2(provisional)-(27-11-2003).pdf

1222-mum-2003-form 2(title page)-(complete)-(29-12-2003).pdf

1222-mum-2003-form 2(title page)-(granted)-(24-4-2007).pdf

1222-mum-2003-form 2(title page)-(provisional)-(27-11-2003).pdf

1222-mum-2003-form 2(title page).pdf

1222-mum-2003-form 26(25-11-2003).pdf

1222-mum-2003-form 26.pdf

1222-mum-2003-form 3(25-11-2003).pdf

1222-mum-2003-form 3(25-12-2003).pdf

1222-mum-2003-form 3(29-12-2003).pdf

1222-mum-2003-form 3.pdf

1222-mum-2003-form 5(25-11-2003).pdf

1222-mum-2003-form 5(29-12-2003).pdf

1222-mum-2003-form 5.pdf

1222-mum-2003-form-2(garanted).doc

1222-mum-2003-specification(amended)-(12-3-2004).pdf

1222-mum-2003correspondence(ipo)-(24-4-2007).pdf

abstract1.jpg


Patent Number 206323
Indian Patent Application Number 1222/MUM/2003
PG Journal Number 30/2008
Publication Date 25-Jul-2008
Grant Date 24-Apr-2007
Date of Filing 27-Nov-2003
Name of Patentee PATEL GHANSHYAMBHAI KANJIBHAI
Applicant Address 26, VIVEKNAGAR SOCIETY, RANCHODJIVAS, AMRAIWADI, AHMEDABAD - 380 026., GUJARAT STATE
Inventors:
# Inventor's Name Inventor's Address
1 PATEL GHANSHYAMBHAI KANJIBHAI 26, VIVEKNAGAR SOCIETY, RANCHODJIVAS, AMRAIWADI, AHMEDABAD - 380 026., GUJARAT STATE
PCT International Classification Number F03B 13/12
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA