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Centrifugal Kinetic Power Turbine

Having reliable, abundant and predictable sources of renewable kinetic energy worldwide, here are some general benefits of the Centrifugal Kinetic Power

Turbine and its use:
- Allows safer wildlife migrations. Larger the turbine, the better for both power and environment.
- Simpler design makes it less expensive to build and maintain existing technologies.
- The turbine power drive end is above water and level and at the bottom for wind applications allowing better access to and lower maintenance costs of the generator and transmission.
- The large blades and slow speeds will keep noise and vibration at low levels.
- Flexibility in the size of the turbine for both height and width for various applications.
- Works in all directions of wind and water flow.
- Can be built in size ranging from personal to industrial. - Power generating stations in ocean streams can include docking for vessels needing service, battery charging, lifesaving team deployment and can be used for education and visiting facilities.

Centrifugal Wind Turbine
- Small turbines can be manufactured and deployed inexpensively to remote villages and areas that need critical lifesaving electricity.
- Better for the environment with large blades at slower speeds that will reduce bird kills and will have low noise and vibrations.
- Simple in design.
- Better access to the generator and transmission being at the bottom of turbine.
- The rotating casing allows the turbine to work when the wind direction changes.
- A large wind turbine would be more powerful and less expensive to build and maintain than the current technology.
- Small units with battery backup can be built from simple, easily acquired, materials.

Centrifugal Ocean Turbine
- Large powerful turbine or smaller, moored turbine arrays electrically tethered to a substation.
- Simple design will now allow large industrial size units to be built using existing ship building, offshore oil drilling, steel industry, etc. technologies and create turbines that will create great amounts of electrical power at lower costs.
- Large blades at slow speeds are better for the environment with less noise, vibrations and safer for marine life and migration.
- Ocean observatory (Atlantis) Harbor port for vessels needing service, battery charging and can be used for education and visiting facilities.

Centrifugal River Turbine
- Small turbines can be manufactured and deployed inexpensively to remote villages and areas that need critical life saving electricity.
- Works in all directions of flow for tidal waters.
- Safe for marine migration.
- Allows debris to pass through.

Hydroelectric Dam or River Diversion
- Upgrade to existing Hydroelectric Dam turbine technology.
- Ideal for low head pressure Dams.
- Large tall Dams can be designed with low head pressure, cascading pools to allow the capture of full potential energy during normal water flow operations and during larger flow, reservoir water level adjustment releases.
- Large blades at slow speeds along with the cascading pools will easily allow large amounts of fish to pass in either direction. Marine Vessel Centrifugal Kinetic Power Turbine
- A vessel turbine is deployed while docked, moored or anchored in moving water to charge its batteries.

Challenges
- Extreme weather conditions
- Large device anchoring systems or foundations
- Social acceptance of the device in nature Types of

Turbine Arrangements
- Single
- Stacked
- Duplex side by side opposite rotation
- Duplex shaft in a shaft opposite rotation