In the field of new energy, photovoltaic power generation has attracted much attention for its clean and renewable characteristics. However, the power generation efficiency of photovoltaic power generation system is restricted by a variety of environmental factors, among which meteorological conditions are particularly critical. In order to maximize the benefits of photovoltaic power generation, distributed photovoltaic weather stations came into being and became an important tool to improve the efficiency and stability of photovoltaic power generation.

WX-FGF11 distributed photovoltaic weather station is a high-tech equipment that integrates meteorological monitoring and photovoltaic power generation system optimization functions. Through the simultaneous deployment of meteorological monitoring equipment in multiple locations of photovoltaic power stations, it can real-time and accurately monitor the wind speed, wind direction, average wind speed, temperature, humidity, air pressure, total thermal radiation, total thermal radiation daily accumulation, total thermal radiation total accumulation, sunshine hours, component temperature and other key meteorological data in the area where photovoltaic power stations are located. These data are crucial for understanding the characteristics of the environment in which solar photovoltaic systems are located, and are an important basis for optimizing photovoltaic power generation strategies.

The distributed photovoltaic weather station provides a scientific basis for optimizing power generation strategies for photovoltaic power stations by accurately monitoring parameters such as light intensity and ambient temperature. Operations personnel can adjust the Angle and cleaning frequency of photovoltaic panels based on real-time data to maximize the use of light resources. At the same time, the system can also predict the power generation according to the meteorological data, help the operation and maintenance personnel to plan the operation and maintenance strategy in advance, optimize the operation and maintenance process, and reduce unnecessary resource waste.

Distributed photovoltaic weather stations have powerful data integration and analysis capabilities. It integrates weather data collected from different locations for in-depth analysis and report generation. These reports help PV plants evaluate the operating efficiency of the system, the amount of electricity generated, and potential risk factors. Based on these data, plant managers can develop more scientific and reasonable operation and maintenance strategies to further improve power generation efficiency and economic benefits.

In addition, the distributed photovoltaic weather station also has a built-in intelligent early warning system. When the meteorological parameter is abnormal or exceeds the preset threshold, the system automatically sends an early warning signal to remind the operation and maintenance personnel to take appropriate protective measures or adjust policies. This function can not only protect photovoltaic equipment from extreme weather conditions, but also reduce economic losses caused by sudden changes in weather.