Yes.
During the application process, applications for photovoltaic and wind power generation projects can be integrated together to jointly prepare project feasibility study reports, proposals project, project application forms and other documents. at the same time, coordination and integration are carried out during project implementation to improve the economic benefits and power generation efficiency of the project. The application and implementation of integrated wind and solar power generation projects shall comply with relevant national laws, regulations and standards, such as "Renewable Energy Law", "Wind Farm Design Code », the “Code for construction and management of photovoltaic energy production projects”. , etc.
The integrated wind and solar energy production projectIt refers to the simultaneous construction of photovoltaic and wind power generation equipment in an area by combining the advantages of the two power generation methods, power generation efficiency and economy. services are improved.
Wind and photovoltaic energy have obvious seasonality and volatility
which will affect the stability of the power system.
Wind and photovoltaic energy production are representative of renewable energies. Electricity production is affected by weather conditions and presents a certain degree of randomness and unpredictability. The power system therefore faces certain challenges when integrating large-scale wind and photovoltaic power generation. The volatility of new energy generation causes fluctuations in grid frequency and voltage, affecting operationstable network. Large-scale integration of wind and photovoltaic power generation will increase uncertainty in the power grid. The integration of new energy sources also requires solving technical challenges in terms of grid stability and reliability.
Wind and photovoltaic power have obvious seasonality and volatility, and the increase in the proportion of wind and photovoltaic power generation will affect the stability of the power system.
Wind power generation relies primarily on wind energy, a natural energy source. Since wind speed in different regions is closely linked to climate change, wind energy supply also exhibits significant seasonality. For example, during active monsoon periods such as winter or spring, available wind resources will be more abundant; whiles that in summer or other dry, less rainy environments, factors such as sandstorms can affect the availability of wind resources.
At the same time, some specific geographic locations (such as mountains) also have certain wind stability requirements. This means that at different times electricity production will increase and decrease. Although modern technology can smooth out these fluctuations by storing excess electricity, there are still some technical challenges and limitations. ?
Solar photovoltaic (PV) systems, on the other hand, work by converting light into electricity. However, the intensity of sunlight also changes depending on weather conditions, including cloud cover, daylight hours, and intensity of UV radiation. This will affect the efficiency of photoelectric conversion, thereby further affectingthe stability of the output power.
The principle of wind energy production
The devices required for wind energy production are called wind turbines. This type of wind turbine can be roughly divided into three parts: the wind wheel (including the tail rudder), the generator, and the tower.
The wind wheel is the watchdogIt is an important component that converts kinetic energy into mechanical energy. It consists of several blades. When the wind blows toward the blades, an aerodynamic force is generated on the blades to rotate the wind wheel. The paddle material requires high strength and light weight, and is often made of fiberglass or other composite materials.
The iron tower is the structure that supports the wind wheel, rudder and generator. It is generally built relatively high in order to obtain a greater wind force and mores uniform and have sufficient strength. The height of the tower depends on the impact of ground obstacles on wind speed and the diameter of the wind wheel. It is generally between 6 and 20 meters.
The function of the generator is to transfer the constant rotation speed obtained from the wind wheel to the power generation mechanism through increased speed for uniform operation, thereby converting mechanical energy into electrical energy .