1. The vertical axis power generation system is installed at the bottom of the tower. The overall center of gravity is low, making it easier to adapt to large-scale and complex environments. maintain.
2. Vertical axis blades rotate in a simple cylindrical shape. Theoretically they can receive wind energy from all directions, the energy production should be higher.
3. The noise is low. It can generate electricity in just a dozen revolutions, this is already the rated speed. Generally, the wind speed can be between 1 and 28 meters/second. The low speed will not affect the ecology either.
4. The turning radius is small, saving more space and accommodating more equipment.
5. The wind resistance is very low and can work under a typhoon of 50 meters/second.
The wind load type coefficient is a parameter thatdescribes the force exerted by wind on an object and is related to the object's shape, size, arrangement, wind speed, and other factors. factors.
1. The wind load type coefficient is a dimensionless value, generally represented by the symbol Cw. Wind load type coefficients are widely used in wind power generation, aerospace, construction and other fields.
2. The size of the wind load type coefficient depends on many factors such as the shape, size, arrangement of the object and wind speed. In the field of wind power generation, the wind load type coefficient is one of the important parameters for evaluating the performance of wind turbines. The higher the wind load type coefficient, the greater the object's resistance to wind and the more electricity it can generate. Therefore, for the design andWhen optimizing wind turbines, it is very important to understand the wind load type coefficient.
3. In the aerospace field, the wind load type coefficient is also one of the important parameters to evaluate the performance of aircraft. The shape, size, layout and flight speed of the aircraft will all affect the size of the wind load type coefficient. For aircraft, reducing the wind load coefficient can reduce the resistance experienced by the aircraft, improve the lift and propulsion efficiency of the aircraft, thereby improving the performance and efficiency of the aircraft.
4. In the field of construction, the wind load type coefficient is also one of the important parameters for evaluating the wind resistance of buildings. Building shape, size, layout, and construction materials will all affect the size of the wind load type coefficient. Understanding the coefficientwind load of a building can help designers to better design the building structure, improve the wind resistance of the building, and ensure the safety and stability of the building.
The application of wind load type coefficient in the field of wind power generation is mainly reflected in the performance evaluation of wind turbines and design optimization:
1. Wind load type coefficient It is one of the important parameters to evaluate the performance of wind turbines. The higher the wind load coefficient, the greater the resistance of the object to wind and the more electricity it can generate. Therefore, for the design and optimization of wind turbines, it is very important to understand the wind load type coefficient.
2. Wind load type coefficient plays a key role in wind resistance design of wind turbinesennes.In the field of wind power generation, the wind load type coefficient can help designers to better design the building structure, improve the wind resistance of the building, and ensure the safety and stability of the building. building.
3. The wind load type coefficient is also an important value for calculating the horizontal linear displacement and displacement characteristics of the building under the action of wind load. It can be applied to the dynamic response analysis of building structures to represent the characteristics of building displacement parameters when affected by wind loads, thereby calculating the magnitude and order of spatial distribution vibrations. This information is very important for the design and analysis of the building structure and can help designers reduce the risk of structural damage.