Buy a vertical axis wind turbine online, our 1000 watt vertical axis wind turbine is designed for easy installation and use. With its compact and lightweight design, the vertical axis turbine can be easily installed on a roof, pole or other location and requires minimal maintenance after operation.
|Start Up Wind Speed
|Rated Wind Speed
|Survival Wind Speed
|Wind Wheel Diameter/Height
|Number of Blades
||Three-phase AC permanent magnetically suspended generators
||360° Automatically Adjust Windard
|Degree of protection
Dimension (Unit: mm)
The battery is charged by the wind turbine and solar panels through the controller, and the DC output port of the controller directly supplies power to the DC load. On days without wind or light, the power output by the wind turbine and solar panels is not enough to charge the battery, which can cause the battery to be under-voltage. In this case, the controller output dry contact control signal automatically switches to the grid power to supply the load.
Tips: How does a vertical axis wind turbine generate electricity?
A vertical axis wind turbine (VAWT) is a type of wind turbine where the main rotor shaft is arranged vertically instead of horizontally like in a traditional wind turbine.
VAWTs generate electricity through the rotation of the rotor blades, which are shaped like airfoils and are mounted vertically on the turbine's central shaft. As the wind blows, it causes the rotor blades to rotate around the central shaft, and this rotational motion is then transferred to a generator, which converts the mechanical energy of the rotating blades into electrical energy.
The generator is usually located at the base of the turbine, and it is connected to the rotor shaft through a gearbox or direct drive system. As the rotor rotates, it spins the generator, which generates electrical power that can be used directly or stored in batteries for later use.
VAWTs are designed to be more efficient than traditional horizontal axis wind turbines in areas with turbulent or inconsistent wind flow because they can capture wind from any direction, unlike horizontal axis turbines, which require the wind to be coming from a specific direction for optimal performance.
Additionally, VAWTs can operate at lower wind speeds, making them suitable for use in urban areas where wind speeds are typically lower than in open rural areas.