Title: Plan to use P-Tip Propeller
The Prince P-Tip Propeller P-TipThe P-TIP design The droop P-TIP is to control the air spillage over the propeller tip. It delays the tip vorticies which cause drag and turbulence within the propeller arc. A propeller, like a wing, works best when it has unturbulated air over the airfoil sections. The P-TIP delays the vorticies, the propeller then has smooth air to provide best thrust and a pronounced reduction in propeller noise. RV with Carbon Fiber P-TipAn additional benefit of the P-TIP design is the volume of air the propeller produces. When air flows through a standard propeller, the airflow will "roll" over the propeller tip. As soon as it passes the tip it will tuck down behind the propeller blade giving a cone of air from the propeller smaller than the propeller diameter. For example, a 72" diameter propeller without a P-TIP will give a volume of air from the propeller of approximately 68" in diameter; a P-TIP propeller will provide 72" of air volume. This means that a 68" P-TIP will give the same volume of air as a standard tip 72" propeller. Sonex with Carbon Fiber P-TipBy reducing propeller diameter there is less frontal area or flat plate drag on the aircraft. Higher top speeds are the result without sacrificing takeoff or climb. Pitch change and the Scimitar shape The propeller has a fixed pitch that relies on the forward pull of the propeller to automatically provide pitch change proportional to the amount of force being applied to the propeller disk. When a propeller operates at a slower airspeed than its maximum capability, it has a proportional pull in relation to the velocity of forward motion, so at takeoff and climb, the propeller will have its largest forward pull. Due to the scimitar shape, the tip of the propeller cones forward, as the coning angle changes the propeller will lessen pitch that provides shorter takeoffs and higher rates of climb. As the propeller increases in forward speed the disk pressure is reduced, this forces the propeller to increase pitch and top speed. This change in pitch is approximately four inches from takeoff to cruise. See: https://www.princeaircraft.com/TheProp.aspx


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