The Project Objectives

The “Next Generation Vertical Axis Wind Turbine” is designed in the most suitable and compatible structure with nature’s most organic form and its highly efficient life chain. Its high efficiency will be sufficient to eliminate the “inefficient” perception of vertical axis wind turbines in the literature. It has a lot to add to the environment with its beauty. Its local and original design will demonstrate public awareness at the highest level with its efficiency and reasonable costs. It will be the best-selling renewable product in the market. It will create significant awareness where it is installed.

Project Application Areas:

The turbine can be directly coupled or added with a gearbox to the following applications:

Rüz-Pump: A water pump connected to the turbine’s axis serves by pumping water.
Rüz-Compressor: Serves by operating an air compressor connected to the turbine’s axis.
Rüz-Air Conditioning: Similar to the mechanical structure of “Rüz-Compressor” but instead compresses and pumps air conditioning gases to integrate into a unique air conditioning system or existing systems. It can be used to eliminate or reduce energy costs of heating and cooling systems.
Rüz-Heat: Generates heat by operating an alternator coupled directly to the bottom of the turbine’s axis, providing electricity to connected resistances. The generated heat serves by directly heating a volume or liquid.
Rüz-Electric: Converts the mechanical potential energy obtained from the wind into electricity through an alternator, then either charges batteries (if off-grid) or supplies it to the grid (if on-grid).
The project varies in versions according to physical differences within itself:

Wind Collected Vertical Axis Wind Turbine (“Version 1”): Besides the model depicted in “Figure 1”, it is produced from stationary heavy materials such as concrete and fiber composite to create inertia. It is particularly designed aerodynamically for low wind areas to gather wind from a broader area to generate efficient turbulence, focusing the wind like a lens on the required turbine areas. This collector structure also serves as the structural support for the turbine’s upper and lower bearings.
Prismatic Structured Vertical Axis Wind Turbine (“Version 2”): Depicted in “Figure 2”, it is designed with a steel structure suitable for the turbine’s main structure to accommodate the turbine bearings at the top and bottom of the axis. This type of structure facilitates maintenance by housing a motorized tent structure on top and offers production convenience.
Pole-Top New Generation Vertical Axis Wind Turbine (“Version 3”): As shown in “Figure 3”, it is aerodynamically featured but is mounted on a pole fixed to the ground, allowing the blades to rotate around the pole. This version can be integrated into street lighting poles or uniquely designed models.
Floating Wind Turbine (“Version 4”): As depicted in “Figure 4”, produced under shipyard conditions, the “Highly Efficient New Generation Vertical Axis Wind Turbine” is vertically mounted on a platform at the lower end, with the turbine bearing-mounted on top and secured to the platform with tension cables. This configuration, similar to a sailing technology, allows the platform to be large enough to be used as a floating entertainment center or energy storage area. It features a “Fly-Wheel” at the top that increases gyroscopic effect with wind speed, helping it maintain upright stability against gravity.