The system for converting energy from flowing media with a rotor, in particular with an H-Darrieus rotor, comprising rotor blades made of a fibre-reinforced plastic profile manufactured in an injection moulding process, whereby the fibres of the plastic profile are carbon fibres and/or where the plastic is a thermoplastic material. The rotor blades of H-Darrieus rotor are connected to a shaft by means of radial struts and/or by means of diagonal struts and rotor blade connection components are arranged between the respective rotor blade and the radial struts and/or diagonal struts as a connection. Das rotor blade connection component comprises an enclosing element around at least part of the profile of the rotor blade and a corresponding connection element for the respective radial strut and/or diagonal strut.

A wind turbine is modified with weights to manage variabilities in wind speed.

Multiple horizontal axis type rotors are coaxially attached along the upper section of an elongate torque transmitting tower/driveshaft, The tower/driveshaft projects upward from a cantilevered bearing means, and is bent downwind, until the rotors become sufficiently aligned with the wind to rotate the entire tower/driveshaft, Power is drawn from the shaft at the base. Surface mount, subsurface mount, and marine installations, including a sailboat, are disclosed. Blade-to-blade lashing, and vertical axis rotor blades may also be included. Vertical and horizontal axis type rotor blades may be interconnected along the length of the tower/driveshaft to form a structural lattice, and the central shaft may even be eliminated. Aerodynamic lifting bodies or tails, buoyant lifting bodies, buoyant rotor blades, and methods of influencing the tilt of the rotors, can help elevate the structure. This wind turbine can have as few as one single moving part.

Provided is a hybrid street light in which an effect of facilitating use, by people, of a space under illumination is obtained. The hybrid street light includes: a support column; a power generation device main unit including, at an upper portion of the support column, a vertical-axis wind turbine power generation device and a solar photovoltaic power generation device; a lighting device installed around the support column and powered by either or both of the power generation devices; and a seat attached to the support column. In the daytime, power is generated by the solar photovoltaic power generation device. The wind turbine power generation device generates power by day and night as long as wind is available. Since the seat is attached to the support column, an effect of facilitating use, by people, of a space under illumination is obtained.

A perpendicular axis turbine having at least two blades, wherein the blades are longitudinally offset with respect to one another, reducing the effects of blade-vortex interaction and providing increased power generation. In one embodiment, the blades are longitudinally offset such that the attachment point of one blade is halfway between the attachment points for the other blade.

EnergyMaster is an innovative floating hybrid tidal/wave/wind energy harvesting system based on vertical axis turbines for synergized tidal, wave and wind energy production in agriculture and aquaculture applications. EnergyMaster can continuously, and simultaneously, harvest wind and tidal energy in a wide range of wind and tidal current speeds, while providing excellent self-starting capability.

A wind turbine for converting wind into mechanical energy, includes a support and a vane rotatably connected to the support, the vane including a wind receptacle that can adopt a first configuration when the vane is in a position to travel in the direction of the wind, in which first configuration the receptacle has a first capacity to convert wind force into motion of the vane, and a second configuration when the vane is in a position to travel against the direction of the wind, in which second configuration the receptacle has a second capacity to convert wind force into motion of the vane, the second capacity being lower than the first capacity, wherein the turbine is provided with an arrangement that is operable to force the receptacle to adopt at least one of the configurations independent from the direction of the wind.

An apparatus that can optimize wind power without compromising solar photovoltaic power collection by doing so and yet provide self-cleaning of the solar photovoltaic panels of the collector. The panels rotate in unison with rotation of the wind turbine airfoils and arranged in a planar region that is substantially transverse to a circumferential region in which the airfoils rotate beneath the solar photovoltaic collector.

A wind turbine includes twin cross-flow turbines connected to a generator. The generator includes a shaft configured to be rotated when the turbines rotate. The wind turbine includes a first turbine rotatably movable around a first axis of rotation and including several blades distributed around the first axis of rotation. A second turbine is rotatably movable around a second axis of rotation and includes several blades distributed around the second axis of rotation. The first axis of rotation and the second axis of rotation are symmetrical to each other relative to a vertical axis. The first axis of rotation and the second axis of rotation are inclined relative to the vertical axis at an angle of inclination of between 25? and 50?.

Disclosed is a novel method, process, and system (hereinafter method or process) for deploying, stationing, and translocating buoyant wind- and wave-energy converters and/or other buoyant structures or devices, as well as farms of same. Also disclosed is a novel apparatus and/or machine comprising a farm of buoyant wave energy converters deployed by said method and/or configured to be deployed by said method.