WO2014058398A1

WO2014058398A1 - A kind of power generating system making use of the fluid motion

Info

Publication number: WO2014058398A1
Application number: PCT/TR2013/000095
Authority: WO
Inventors: Gokhan DEMIRTAS
Original assignee: Demirtas Gokhan
Priority date: 2012-10-11
Filing date: 2013-03-25
Publication date: 2014-04-17

Abstract

The present invention relates to an energy production system (10) comprising a platform (12) located on a fluidized bed in a way that it will be located at a higher level than its fluidized surface, a pontoon mechanism (30) extending from said platform (12) in a way that it will contact with the fluidized surface, and energy lines (20) composed of more than one pontoon mechanism.

Description

DESCRIPTION

A KIND OF POWER GENERATING SYSTEM MAKING USE OF THE FLUID

MOTION

TECHNICAL FIELD

The present invention relates to a kind of power generating system, which transforms the kinetic energy into a different type of energy by making use of the motion that the fluids in nature have generated.

PRIOR ART

One of the basic needs for people to continue their lives currently is energy. Most of the devices that are available in our surrounding and that facilitate our lives are run with the energy that they receive from a power source. The primary one of these energy types is the electric energy.

The electric energy can be generated by means of different methods. However, these methods can be basically divided into as nature-friendly methods and the methods giving harm to the nature. As is known, steam power plants, nuclear power plants and hydroelectric plants give harm to the environment that they are located, and start to change the conditions of that location, particularly the environment. Some methods cause the environment to be polluted and to lose its qualification of being a habitable location. Wind turbines, solar panels and electric generation from wave energy are among the known nature-friendly electric generation methods. Solar panels and the wind turbines are the electric generation plants which can be put into application without almost regarding the location.

The electric generation systems that are known and installed by making use of the wave motion require some special conditions. The primary condition is that such kinds of systems can be installed on the locations having great depths like the oceans. Another need is that the water where the plant has been installed should be wavy all the time. This condition prevents the plant from being installed to the locations where there is a certain amount wave. As the known systems make use of Standard methods, the amount of generated energy can vary depending on the type of the water.

In the patent applications numbered TR200807156 and TR200800454, a kind of energy generating system is disclosed which makes it possible to generate electricity out of the sea. However in said applications, there is an angle and joint configurations between the pontoons and the wheel system in the pontoon mechanisms forming the system. This situation causes the amount of motion that comes from the waves and transferred to the wheel system to be decreased. As the wheel system is independent, it cannot get a support from any point. Therefore, in the case that the wave height is low in such kind of systems, the energy is generated in an efficient way. Another disadvantage is that the gears of the wheel system used in such kind of systems are stable. Therefore, as the wheel steps and the distance depending on the rotation are certain, no customization can be made in the system depending on the status of the sea. In such systems, the pontoons extend towards a certain direction. In this case, the energy generation systems remain dependent to the direction that the waves come from. In the case that the wave comes from a direction different than the extending direction of the pontoon, it is not possible to efficiently benefit from the wave energy as adequately as possible.

Consequently, it has been made compulsory to make an improvement in the above- mentioned related technical fields.

BRIEF DESCRIPTION OF THE INVENTION

The present invention relates to a new type of energy generation system so as to eliminate the above-mentioned disadvantages and to provide new alternatives for the related technical field.

The main object of the invention is to provide a new type of energy generation system which generates energy by making most efficient use of the changing wave height of the fluid motion. Another object of the present invention is to provide a new type of energy generation system which can be installed in the presence of any kind of fluid, independently from the fluid area structure, particularly of water.

In order to achieve all the objects that are mentioned above and in the following detailed description, the present invention relates to an energy generating system comprising a platform located on a fluidized bed in a way that it will be located at a higher level than its fluidized surface, a pontoon mechanism extending from said platform in a way that it will contact with the fluidized surface, and energy lines composed of more than one pontoon mechanism. In order to generate energy by making an efficient use of the changing wave height (h) effect of the pontoon mechanism, said energy system characterized in comprising a pontoon in contact with the fluidized surface, a rod having a part with gears extending towards the outer part of the platform in contact with the pontoon, a wheel provided opposite to the gear part and changing the wave energy into kinetic energy, and a control box connected with the rod and controlling the movement of the rod.

In a preferred embodiment of the present invention, there is at least one centering gap provided on the pontoon.

In another preferred embodiment of the present invention, there is at least one pontoon centering rod extending from the platform towards the inner part of the fluid by passing through the centering gaps.

In a further preferred embodiment of the present invention, in order to help the control box to be connected with the rod, it comprises a connector housing provided on the control box, a connector housing provided on the rod, and a support bar hinged with the connector housings.

In a further preferred embodiment of the preferred invention, it comprises a short and a long part provided in a way that a wide angle will be created through the support bar. In a further preferred embodiment of the present invention, it comprises a rod connection point provided on the part where the rod is connected with the pontoon.

In a further preferred embodiment of the present invention, it comprises a motion gap provided on the platform that the rod passes through.

In a further preferred embodiment of the present invention, it comprises a centering bar so as to provide more than one wheel to be connected with each other.

In a further preferred embodiment of the present invention, it comprises at least one support extension connected with the centering bar so as to enable the centering bar to be located on a position which is higher to a certain extent from the platform.

The present invention relates to a method of energy generation from the wave motion that the fluid has created by means of the energy generating system installed on a fluidized bed. Said method of generation characterized in comprising the following process steps;

a) The wave elevates the pontoon to a certain extent,

b) The rod connects with and rotates the wheel,

c) The wheel transfers the motion that it gets from the rod to the centering rod,

d) The centering rod transfers the motion to the energy generation unit.

In order for the advantages of the present invention to be understood in the best way together with its embodiment and additional parts, it should be evaluated with the figures described in the following.

BRIEF DESCRIPTION OF THE FIGURES

Figure 1 shows the general view of the energy generation plant.

Figure 2 shows the profile view of the energy generation plant provided in Figure 1. Figure 3 shows the general view of a production line forming the energy generation plant.

Figure 4 shows the general view of a pontoon mechanism forming the production line. Figure 5 shows the pontoon mechanism in Figure 4 from a different angle. Figure 6 shows the profile view of the support bar.

Figure 7 shows he support bar provided in Figure 6 which is connected with the rod. REFERENCE NUMBERS

10 Energy Generating System

1 1 Platform Leg

12 Platform

121 Motion Gap

20 Energy Production Line

21 Support Extension

22 Centering Bar

30 Pontoon Mechanism

31 Pontoon

31 1 Centering Gap

32 Rod

321 Geared part

322 Connector housing

33 Support bar

331 Short part

332 Long part

34 Control box

341 Connector Housing

35 Rod Connection Point

36 Wheel

37 Pontoon Centering Bar 40 Wave

50 Energy Generation Unit

A Pontoon Elevation Direction

h Wave Height

DETAILED DESCRIPTION OF THE INVENTION

In this detailed description, the innovation according to the present invention is disclosed only for a better understanding of the subject by means of examples not posing any effect limiting the scope of the invention. Accordingly, in the following description and figures, the energy generation system (10) and the structural elements forming the energy generation system (10) are disclosed which provides energy generation by making use of the wave (40) motion that the fluid has created.

In Figure 1 , the general view of the energy generation system (10) is shown. The energy generation system (10) has more than one platform leg (11) providing it to be connected with ground on which it will be installed. On the plane that the platform legs (11) have determined, there is a platform (12) in a way to cover the platform legs (11). The platform legs (11) provide the energy generation system (10) to protect its position in a stable manner in the location that it is installed. The forms of the platform legs (11) are designed in a way that they will not affect the directions of the waves (40) coming into the energy generation system (10). Therefore, the waves (40) coming into the energy generation system (10) are prevented from experiencing any loss. There is more than one energy production line (20) forming the energy generation system (10).

In Figure 3, an isometric view of a representative energy production line (20) is shown. The energy generation lines (20) are formed by more than one pontoon mechanism (30). The energy production line (20) comprises support extensions (21) which are connected with the platform (12) and located in a way that they will coincide on the same axis reciprocally. There are centering bars (22) that are connected in a way that they will extend from the upper end of each support extension (21), which is located reciprocally, to the other upper end. The centering bars (22) provide the pontoon mechanisms (30) to be located on the same axis. Moreover, all the energy production lines (20) are connected with each other through all the centering bars (22) located in the energy generation system (10). The centering bars (22) are connected with each other by means of a transferring element (not shown). Therefore, all the energy production lines (20) are synchronized. This motion received from the energy production lines (20) in a synchronized manner is directed to the energy generation unit (50).

In Figure 4 and 5, the general view of a pontoon mechanism (30) is shown. The pontoon mechanism (30) has a pontoon (31) that is provided to contact with the waves (40) that the fluid has created. The pontoon (31) has centering gaps (311) provided on the parts close to the corners. The pontoon (31 ) receives the motion to come from the fluid in the most efficient way, and transfers it to the other parts. There are pontoon centering rods (37) provided in a way that they will extend, starting from the surface of the platform (12) that faces to the fluid material, to the ground on which the energy generation system (10) is installed by passing through the centering gaps (311). There are motion gaps (121) provided in a way that they will correspond to each pontoon mechanism (30) on the platform (12). There is a rod (32) extending from the pontoon (31) to the outer part of the upper platform (12) by passing through said motion gap (121). There is a geared part (321) belonging to the rod (32) provided on the upper part of the platform (12). The pontoon mechanism (30) comprises a wheel (36) provided on the centering bar (22) in a way that it will correspond to said geared part (321). Moreover, there is a connector housing (322) provided on the upper part of the rod (32). On the point where the rod (35) is united with the pontoon (31), there is a rod connection point (35) granting the rod (32) with freedom of movement. Therefore, as a result of the wave (40) motion, flexibility is provided for the rod (32) to go away from the central axis within certain distances. The pontoon mechanism (30) has a control box (34) which is located around the motion gap (121) and provided on the platform so as to extend on the same axis with the connector housing (322). The control box (34) comprises a connector housing (341) provided on its upper wall. The pontoon mechanism (30) comprises a support bar (33) having a L-shaped form so as to form a wide angle between its short side (331) and long side (332). The support bar (33) is hinged to the control box (34) through its short side (331). The support bar (332) is connected to the connector housing (322) through its upper side. Referring to Figure 1 and 2, the work-out of the energy generation system (10) according to the present invention is as follows. The energy generation system (10) can be installed on an ocean, sea or a different fluid wave (40) source. The pontoon mechanisms (30) available inside each production line (20) that forms the energy generation system (10) are located in a way that they can contact with the surface of the sea. As a result of natural movements on the sea surface, waves (40) are created. These waves (40) are of a certain height (h). While they are passing under the energy generation system (10), the waves (40) contact with the pontoons (31). Upon contact with the wave (40), the pontoons (31) make an elevating movement in a certain direction (A). The elevation amount of the pontoons (31) equals to the wave height (h). Upon the elevation of the pontoon (31), an elevation movement is performed in the rod (32). The elevation movement of the rod (32) causes the wheel (36) with which the rod (32) is connected to rotate. The wheel (36) transfers the rotational movement, by means of the centering bar (22), to the unit which will generate energy. By locating the wheels (36) on the centering bar (22), the one-way rotational movement is made continuous. Thanks to the non-stop rotational movement on the centering bar (22), the energy generation is continuously provided at the highest level. Therefore, the movement that the waves (40) have created is evaluated with the help of rod (32) and wheel (36).

While the control box (34) provides the rod (32) to perform its movement within a certain axis with the help of the support bar (33), it also provides the desired rods (32) to be activated or de-activated. The pontoon centering bars (37), on the other hand, provide the pontoons (31) to move within certain tolerances in the vertical direction. Because of wind or various natural factors, the direction that the wave (40) comes from may change. Thanks to the way that the pontoon centering bars (37) and the pontoon (31) are located, the pontoon (31) can make an elevation (A) movement independently from the direction that the waves (40) come from. This situation enables the energy generation system (10) to generate energy under each condition that the wave (40) is in.

The protection scope of the present invention is determined by the accompanying figures, and cannot be considered as limited with the things that are described here in this detailed description as example. Since, it is apparent to a person skilled in the art that similar embodiments can be created under the light of the things described above.

Claims

1. An energy production system (10) comprising a platform (12) located on a fluidized bed in a way that it will be located at a higher level than its fluidized surface, a pontoon mechanism (30) extending from said platform (12) in a way that it will contact with the fluidized surface, and energy lines (20) composed of more than one pontoon mechanism, characterized in further comprising, in order to generate energy by making an efficient use of the changing wave (40) height (h) effect of the pontoon mechanism (30), a pontoon (31) in contact with the fluidized surface, a rod (32) having a part with gears (321) extending towards the outer part of the platform (12) in contact with the pontoon (31), a wheel (36) provided opposite to the gear part (321) and changing the wave (40) energy into kinetic energy, and a control box (34) connected with the rod (32) and controlling the movement of the rod (32).

2. An energy generation system according to Claim 1, characterized in comprising at least one centering gap (311) provided on the pontoon (31).

3. An energy generation system according to Claim 2, characterized in comprising at least one pontoon centering bar (37) extending from the platform (12) to the inner part of the fluid by passing through the centering gaps (311).

4. An energy generation system according to any of the preceding claims, characterized in comprising, in order to help the control box (34) to be connected with the rod (32), a connector housing (341) provided on the control box (34), a connector housing (322) provided on the rod (32) and a support bar (33) hinged with the connector housings (322, 341).

5. An energy generation system according to any of the preceding claims, characterized in that the support bar (33) comprises a short side (331) and a long side (322) provided in a way that a wide angle will be created in between.

6. An energy generation system according to any of the preceding claims, characterized in comprising a rod connection point (35) provided on the part where the rod (32) is connected with the pontoon (31).

7. An energy generation system according to any of the preceding claims, characterized in comprising a motion gap (121) provided on the platform (12) that the rod (32) passes through.

8. An energy generation system according to any of the preceding claims, characterized in comprising a centering bar (22) in order to enable more than one wheel (36) to be connected with each other.

9. An energy generation system according to any of the preceding claims, characterized in comprising at least one support extension (21) connected with the centering bar (22) in order to provide the centering bar (22) to be located at a higher level than the platform (12).

10. A method of generating energy from the wave (40) movement that the fluid has created by means of an energy generation system (10) installed on a fluidized bed, characterized in comprising the following process steps: a) The wave (40) elevates the pontoon (31) to a certain extent,

b) The rod (32) connects with the wheel (36) and rotates the wheel (36), c) The wheel (36) transfers the motion that it gets from the rod (32) to the centering bar (22),

d) The centering bar (22) transfers the motion to the energy generation unit.