The apparatus comprises: a cylinder having an opening presenting perpendicular to a flow of air in use such that, in use, air flows through the cylinder; and means for generating power based upon the flow of air through the cylinder.

A system with orbiting axis for converting energy from a fluid includes an inner transmission shaft and an output transmission shaft; a sectorial blade configured to exchange energy with the fluid and connected to the inner transmission shaft a support element pivotable such that the blade is configured to rotate around an axis of the inner transmission shaft; a group for synchronization and transmission of rotation-oscillation movement of the blade and including the inner transmission shaft and the output transmission shaft. The support element is hinged to the inner transmission shaft by a first rotator rigidly connected, at a first extremity, with the support element by a pin and, at a second extremity, to one of the transmission shafts, each blade being configured to perform the rotation-oscillation movement integrally with the support element and always oriented in the direction of the fluid.

A system with orbiting axis for converting energy from a fluid includes an inner transmission shaft and an output transmission shaft; a sectorial blade configured to exchange energy with the fluid and connected to the inner transmission shaft a support element pivotable such that the blade is configured to rotate around an axis of the inner transmission shaft; a group for synchronization and transmission of rotation-oscillation movement of the blade and including the inner transmission shaft and the output transmission shaft. The support element is hinged to the inner transmission shaft by a first rotator rigidly connected, at a first extremity, with the support element by a pin and, at a second extremity, to one of the transmission shafts, each blade being configured to perform the rotation-oscillation movement integrally with the support element and always oriented in the direction of the fluid.

A kite comprises: a wing; upper and lower flaps located along at least a portion of an edge of the wing that forms the trailing edge of the wing when the wing is active; a controller configured to generate control signals; and an actuator arrangement configured to change orientations of the upper and lower flaps relative to the wing based on the control signals generated by the controller.

Windraider is a process and a machine for converting wind energy into electricity. The Windraider process is a previously undiscovered highly efficient process for converting kinetic wind energy into oscillating rotating mechanical energy. The Windraider machine provides a unusually robust and stable platform for effecting the Windraider process, and a series of mechanisms for improving its range of applicability and for efficiently converting its resulting oscillating rotating mechanical energy into electrical energy.

Windraider is a process and a machine for converting wind energy into electricity. The Windraider process is a previously undiscovered highly efficient process for converting kinetic wind energy into oscillating rotating mechanical energy. The Windraider machine provides a unusually robust and stable platform for effecting the Windraider process, and a series of mechanisms for improving its range of applicability and for efficiently converting its resulting oscillating rotating mechanical energy into electrical energy.

An electrical power generator includes a first part configured to be located in a fluid such that, when the fluid moves, it generates vortices in the fluid so that a lift force is generated on the first part, which produces an oscillating movement of the first part, which has an amplitude. The natural oscillation frequency of the first part may be adjusted to wind speed by way of magnets, which repel each other. Magnets may also be used to generate electrical currents in coils. The first part can have a diameter that increases with distance above the base of the generator.

An electrical power generator includes a first part configured to be located in a fluid such that, when the fluid moves, it generates vortices in the fluid so that a lift force is generated on the first part, which produces an oscillating movement of the first part, which has an amplitude. The natural oscillation frequency of the first part may be adjusted to wind speed by way of magnets, which repel each other. Magnets may also be used to generate electrical currents in coils. The first part can have a diameter that increases with distance above the base of the generator.

A reciprocating fluid-energy device to be used in a flowing fluid, having a foil, an upstream support member, a downstream support member, and a frame, where the frame retains the device in place within the flowing fluid, the support members movably attach the foil to the frame, and the foil moves laterally back and forth across the direction of the flow of the fluid, with changes in direction of the movement of the foil occurring automatically and spontaneously without external intervention other than the force of the flowing fluid.

A system is provided comprising a tunnel for immersion in a moving mass. Energy from the mass passing through said tunnel converts to rotational force. An energy collector is provided having open and collapsed states, the open state resisting the mass. Bidirectional converter systems convert said rotational force to constant singular direction. A mechanical converter comprises an input shaft turned bidirectionally by said rotational force and two gears driven by the input shaft in opposite rotational directions, the gears separately attached to idler gears causing output gears attached to the idler gears to engage an output shaft in a same rotational direction. A hydraulic converter comprises a hydraulic pump turned bidirectionally by said rotational force. Check valves positioned between the pump and a hydraulic motor enable control of pressure and volume in one direction at the pump.