Patent Application
20190296610
Wave is formed when wind blows across a large expanse of water. The power derived from waves is proportional to its height and average speed.
The Buoyant Synchrony Actuated Inductance AC Generator is basically a Wave Energy Converter. This hydroelectricity producer uses the marine energy from Wave Power. It amplifies slight movements of the water surface to a higher magnitude within the Generator.
With serious view of the present circumstances of global warming scenario, a cheap and clean source of energy has to be identified. It also has to be a sustainable and renewable source. The answer is marine energy in the form of Wave Power which is abundant and promising.
Though there have been numerous attempts to harness this form of energy in the 1700s the momentum arose tremendously in the 1970s. This was due to disputes over oil prices and rights thus spiralling the costs of this commodity. Recent interest and advances in Wave Energy technology is about four decades old and can be considered to be in the infancy stage. Novelty designs have been introduced but only a handful have been successful.
Funding has always been a major factor, because of the high cost to produce most of these innovations. The returns are not comparable to investments.
After reading in detail about the various contraptions and designs, a flaw is quite apparent. Some point in those innovations, a generator is incorporated to generate electricity. The generators used are the standard type i.e. having rotors and stators. To achieve high output current, there should be a significant r.p.m which is quite lacking on those converters. This BSAI AC Generator uses Linear motion instead of the conventional Rotary motion of generators. Above all this, the BSAI AC Generator is made up of a large number of individual sub-generators.
This Converter is suitable for shoreline, nearshore and offshore installations.
The concept employed in developing the BSAI AC Generator is based on Faraday's Laws (1861)
Faraday's Law A voltage (emf) is “induced” in the coil by moving a magnet towards or away from a coil.
Faraday's Law of Induction A voltage is induced in a circuit whenever relative motion exist between a conductor and a magnetic flux and the magnitude of the voltage is proportional to the rate of change of the flux.
Undulating waves tend to displace the Ball (6) within the Bowl (5) from its neutral position. Movements of this ball triggers the motion of the ball within the Hollow Circular Channel (7). One ball undergoes rotational motion, whereas the other is radial and angular. The motion of the balls do not conform to each other and appears to be operating independently. This results to instability.
Instability is the key factor to achieve high yield current output. Meaning, the flux change between the magnets (14) and the Solenoid coils (15) is going to be numerous and erratic. Always, all the magnets will be in motion because they are all connected to the Swash Plate (9) by Tie Rods (11). At any one moment, half of the magnets will travel Downwards and the rest Upwards. This continuous variation in flux results in the flow of current through the solenoid coils which are connected to the Junction Box (17).
This dome encloses the whole Converter Assembly. It is to protect the Converter Assembly from the elements, namely seawater. It has to provide a watertight sealing. For an advanced design to be considered, is to replace the air inside the dome with inert nitrogen. The smooth contours of the dome offers little resistance to wind and increase its overall stability.
The float is attached to the Converter Assembly at a determined height to achieve best stability of the platform housing the Converter Assembly.
The Top Cover of the Bowl Assembly (5) is detachable for access to the Solid Ball (6). The ball is placed inside the Bowl only when the Converter is to be operated. This is to ensure the entire assembly is statically balanced at other times.
The sidewalls of the Bowl (5) and the inner periphery of the Top Cover (3) are lined with rubberized material to cushion and dampen the impacts of the free travelling Ball (6).
It is the housing for the free travelling Ball (6) and is attached to the Swash Plate (9). The Bowl Assembly is basically a large short hollow cylinder with a slightly concave bottom and an open top.
2 Solid Balls are used for the efficient operation of this Converter. Both are free travelling within their confined space. Their distance and duration of travel depends on the angular position of the Bowl/Swash Plate relative to the wave contour.
One Ball is within the Bowl (5) and the other within a Hollow Circular Channel (7). The Balls should be placed at their locations only when the Converter is operating. The Balls should be removed during none operational phase to maintain static balance and ease for transport, maintenance etc.
This item is fixed onto the Swash Plate (9) and contains a Solid Ball (6) within.
It is to support the Bowl Assembly (5) on top of the Swash Plate (9).
Note: The Bowl, Support and Swash Plate operates as a single unit.
The Swash Plate supports the Bowl Assembly/Support (5)(8) and attached to the Universal Joint Coupling Assembly (10). These are then supported by the Central Pylon (13).
The Swash Plate is able to displace itself in any vertical direction from the central axis with the help of the Universal Joint Coupling (10). Activation of its displacement is accomplished by lateral movement of the Ball (6) within the Bowl Assembly (5) which subsequently accelerates the Ball (6) within the Hollow Circular Channel (7).
A heavy duty Universal Joint Coupling is the device connecting the Pylon (13) to the underside of the Swash Plate (9). This device is able sideways away from the vertical axis in all directions.
11) Tie Rods with Spherical Plain Bearings and Clevis fittings
The Tie Rods are essential for the transfer of vertical movements of the Swash Plates (9) to the Magnets (14). Per assembly of the Tie Rod train consist of 2 separate Tie Rods connected at its ends with Spherical Plain Bearings and Clevis fittings. The Tie Rods are in 2 separate sections to compensate for deflections exerted by the Swash Plate (9) while in motion.
The Swash Plate Limit Stop is actually a hollow cylindrical tube around the Central Pylon (13). It functions to limit the ‘Up’ and ‘Down’ travel of the Swash Plate (9) from its ‘Neutral’ position as indicated in
This robust Pylon is the main load bearing structure of the Converter Assembly together with the Universal Joint Coupling Assembly (10). It also has to support the Bowl (5), Supports (8), Hollow Circular Channel (7), Balls (6), Swash Plate (9). Tie Rods (11) and Magnets (14).
Permanent Cylindrical Magnets are used for the creation of Magnetic flux. The relative movement between the Magnet and Solenoid Coil (15) produces current.
This conducting coil wound around a spindle works in conjunction with the moving magnet to produce current.
The Solenoid coil as a Core is removable for maintenance etc.
The Guide is just to keep the Magnet (14) centralized within the Solenoid Core (15).
It is the focal point for the outputs from each Unit (
Solenoid Coil ends for connection to Junction Box (17).
To have a perspective view of the BSAI AC Generator and its workings, accompanying drawings will elaborate with precise details.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/MY2016/000077 | 11/18/2016 | WO | 00 |
