• The wave is directed under the flexible surface, the direction of the wave does not matter.
• In order to prevent the wave which is directed under the flexible surface to move along the flexible surface and to prevent its escape from the system as much as possible, we use the guides under the flexible surface and move together with the buoys on the main structure. to form channels under the flexible surface)
• We control the progression of the wave under the flexible surface by determining the depth of the system in relation to the wave façade, so as we transfer the power of the wave to shafts, we spread this effect over a period of time and provide a controlled power transfer, we increase the system efficiency.
• We transfer the effects on the flexible surface of the wave which we made under the flexible surface by the drive points we have received from many points (86 drive points in our system, one-way pulley and rope connection). The wave of surviving from any point is prevented from passing through the system by trying to be caught at another point. We aim to transfer the energy acting on the whole surface with the aim of capturing all surface movements (surface absorber), which significantly increases our efficiency in this approach.
• In the system, when the wave does not work in a real sense by the flexible surface, it is moved again without losing anything from its energy and working again with the drive point at another point of the flexible surface.
• Since the flexible surface, we have placed on the sea in our system is sensitive to even the smallest wave movements, it provides advantages for all application areas and contributes positively to efficiency.
• As our wave system is directed under the flexible surface and the flexible surface thickness is very low, the waves that cannot penetrate under the flexible surface can easily move over the flexible surface and can not create a destructive effect on the system.
• Since the wave effect is transmitted directly to the power shafts in the system setup, the lack of process steps because the energy is produced increases the efficiency by reducing energy losses.
• Simple elements of the system elements to provide operational convenience, with less failure percentage provides stable operation
• Simple and easy structure of the system elements provides a great advantage in terms of initial installation costs
• The system can be produced as modular units according to the application area, which provides a wider range of applications while also providing ease of transportation and installation.
• The next stage of our system to get rid of the main cage structure and modular manufacturing will allow for open sea applications and will provide ease of offshore transportation installation (Successful with the first field prototype cycle system we run with the same cycle of the system elements on the surface of the sea was removed from the structural hardware. and it is completely aesthetically pleasing, with an unobtrusive look and, more importantly, suitable for offshore applications.