A system and method for improving efficiency of vertical axis wind turbines for all wind directions, comprising an inlet convergent section, a wind turbine section adjacent to exit of convergent section and an outlet divergent section. The system provides an air passage through the inlet section, the wind turbine and the outlet section, and allows for variation of the inlet and outlet depending on wind direction, in order to maximize efficiency harnessed within a time interval in accordance to wind direction and wind speed.

A system and method for improving efficiency of vertical axis wind turbines for all wind directions, comprising an inlet convergent section, a wind turbine section adjacent to exit of convergent section and an outlet divergent section. The system provides an air passage through the inlet section, the wind turbine and the outlet section, and allows for variation of the inlet and outlet depending on wind direction, in order to maximize efficiency harnessed within a time interval in accordance to wind direction and wind speed.

An apparatus for electricity generation is provided. The apparatus includes an air handling unit which absorbs air from an atmosphere and regulates a velocity of flow of the air. The apparatus also includes a hollow chamber which includes a first end and a second end, and provides a passage for the air. Further, the apparatus includes at least two conduits which includes an inlet end and an outlet end respectively, and receives the air from the hollow chamber. The apparatus also includes an electric power generation unit which includes a rotor which rotates at a pre-defined rotation speed, an electricity generator which generates a pre-defined amount of electricity and multiple outlets which releases the air. Furthermore, the apparatus includes a power management unit, wherein an electric power supply from the electric power generation unit is fed back to power the air handling unit.

An apparatus for electricity generation is provided. The apparatus includes an air handling unit which absorbs air from an atmosphere and regulates a velocity of flow of the air. The apparatus also includes a hollow chamber which includes a first end and a second end, and provides a passage for the air. Further, the apparatus includes at least two conduits which includes an inlet end and an outlet end respectively, and receives the air from the hollow chamber. The apparatus also includes an electric power generation unit which includes a rotor which rotates at a pre-defined rotation speed, an electricity generator which generates a pre-defined amount of electricity and multiple outlets which releases the air. Furthermore, the apparatus includes a power management unit, wherein an electric power supply from the electric power generation unit is fed back to power the air handling unit.

A pitch control method and system of a symmetrical-airfoil vertical axis wind turbine collects data by an anemometer, an anemoscope and an angle sensor, outputs an optimum pitch angle based on a control law of a pitch angle and controls the pitch angle to be the optimum pitch angle through a pitch control actuator. In addition to input variables of the control law such as a wind velocity v.sub.in and a blade azimuth angle Ψ, constants such as a rotation radius R, a rotation velocity Ω of the blade and aerodynamic coefficients c.sub.1, c.sub.2 and c.sub.3 are also related. A Reynolds number has little influence on three aerodynamic coefficients c.sub.1, c.sub.2 and c.sub.3. The pitch actuator controls the adjustment rods to realize the automatic pitch control of the blades. An expression of the control law of the pitch is concise, the calculation time is short, and a response speed is fast.

A pitch control method and system of a symmetrical-airfoil vertical axis wind turbine collects data by an anemometer, an anemoscope and an angle sensor, outputs an optimum pitch angle based on a control law of a pitch angle and controls the pitch angle to be the optimum pitch angle through a pitch control actuator. In addition to input variables of the control law such as a wind velocity v.sub.in and a blade azimuth angle Ψ, constants such as a rotation radius R, a rotation velocity Ω of the blade and aerodynamic coefficients c.sub.1, c.sub.2 and c.sub.3 are also related. A Reynolds number has little influence on three aerodynamic coefficients c.sub.1, c.sub.2 and c.sub.3. The pitch actuator controls the adjustment rods to realize the automatic pitch control of the blades. An expression of the control law of the pitch is concise, the calculation time is short, and a response speed is fast.

An apparatus includes a rotating pole, a first set of photovoltaic modules; and a second set of photovoltaic modules. At least one of the first set of photovoltaic modules is perpendicular to at least one of the second set of photovoltaic modules.

An apparatus includes a rotating pole, a first set of photovoltaic modules; and a second set of photovoltaic modules. At least one of the first set of photovoltaic modules is perpendicular to at least one of the second set of photovoltaic modules.

A vertical wind turbine that includes a plurality of vertical vanes, each of which is secured to a respective vertical vane axis so as to be rotatable about a respective vane rotational axis independently of one another by a motor and which are mounted on a common circular path in a rotatable manner about a vertical rotor rotational axis. A method for operating a vertical wind turbine. Angular positions about a respective vertical vane axis are specified for driven vertical vanes of the vertical wind turbine. The vertical wind turbine is operated in a particularly efficient and material-preserving manner in that the angular positions of the vanes are permanently regulated by directly driving the vanes using a pitch motor arranged concentrically to the respective vane axis.

A vertical wind turbine that includes a plurality of vertical vanes, each of which is secured to a respective vertical vane axis so as to be rotatable about a respective vane rotational axis independently of one another by a motor and which are mounted on a common circular path in a rotatable manner about a vertical rotor rotational axis. A method for operating a vertical wind turbine. Angular positions about a respective vertical vane axis are specified for driven vertical vanes of the vertical wind turbine. The vertical wind turbine is operated in a particularly efficient and material-preserving manner in that the angular positions of the vanes are permanently regulated by directly driving the vanes using a pitch motor arranged concentrically to the respective vane axis.