The first batch of units of the Shannan Caipeng Wind Power Project in Tibet was officially connected to the grid for power generation on the 8th. It is expected to generate over 223 million kilowatt-hours of electricity annually, saving approximately 60,000 tons of standard coal and reducing carbon dioxide emissions by about 164,000 tons each year. This will effectively enhance local energy security and play a positive role in advancing the "dual carbon" goals. The Shannan Caipeng Wind Power Project in Tibet, invested and constructed by China Huaneng Group, is located on a plateau in Naidong District, Shannan City, with an average altitude of about 5,050 meters. The project has an installed capacity of 80,000 kilowatts and is equipped with a 16 MW/64 MWh grid-forming energy storage system. It is reported that the Caipeng Wind Power Project utilizes a nationally leading blade lightning protection monitoring system. By employing optical vibration sensors and fiber optic communication methods, it avoids the additional risks that traditional communication cables and metal sensors might pose in lightning-prone environments. During periods of high electricity demand in winter, the grid-forming energy storage system can store electricity generated during the day and release it at night to supplement power supply, alleviating the imbalance between daytime surplus and nighttime deficit.