With the transformation of the global energy structure, the application of new energy technology in high-altitude areas has become a difficult point in the development of green energy. The successful application of Huawei's smart PV technology in Tibet's Ali region marks a solid step forward in the development of new energy in high-altitude areas. Ali 30MW photovoltaic power station project is the world's first intelligent string grid-based energy storage power station operating in ultra-high altitude, low temperature and weak power grid environment, and has made remarkable achievements in technological innovation, energy conservation and emission reduction, and promoting regional economic development, becoming a model of global high-altitude new energy projects.
Technological innovation and challenges
The 30MW PV plant in the Ali area is located at an average altitude of 4,600 meters, and the temperature can be as low as -20°C in winter. In this extreme environment, Huawei's smart PV string grid-based energy storage technology has been effectively applied. The technology has increased the output of the PV system from 1.5MW to 12MW, an increase of nearly eight times. The system can actively provide inertia support and voltage support, which greatly enhances the stability of the system, effectively suppresses the broadband oscillation, and ensures the stable operation of the power grid under the conditions of low temperature and weak power grid. Especially during the peak power demand period in winter, the stable operation of the system provides stable and continuous power support for the Ali area.
Energy saving, emission reduction and environmental benefits
The annual power generation capacity of the Ali 30MW photovoltaic power station in Tibet is expected to be 53,032,400 kWh, saving about 15,900 tons of standard coal and reducing carbon dioxide emissions by about 37,800 tons. This not only demonstrates the important role of the project in the energy transition, but also demonstrates its significant contribution to reducing fossil energy consumption and reducing carbon emissions. By replacing the use of traditional fossil fuels with photovoltaic power generation, the project plays a key role in promoting green and sustainable development.
Figure: The 30MW photovoltaic power generation project in Gaize County, Ali Prefecture, Tibet was successfully connected to the grid for power generation
Promote regional economic and social benefits
The 30MW PV power plant project in Tibet's Ali region not only has significant environmental benefits, but also helps to promote local economic development. The supply of clean electricity helps to improve the local energy infrastructure and promote the development of local tourism and other economic activities. With the stability of power supply, the industrial development and living conditions of residents in the region have been significantly improved. The project provides a reliable source of clean energy for the Ali region, which greatly alleviates the power shortage in the region.
International impact and future prospects
The successful application of Huawei's smart photovoltaic technology has not only had a profound impact in China, but also provided an important reference for the development of new energy in high-altitude areas around the world. As more and more regions around the world face the need to transform their energy structure, Huawei's smart PV technology provides an effective solution for renewable energy access at high altitudes, low temperatures, and weak power grid conditions. The success of this project provides lessons for other regions with similar conditions and promotes technological progress in the field of new energy around the world.
Conclusion
The Ali 30MW PV power plant project in Tibet is not only a successful example of Huawei's smart PV technology applied in high-altitude areas, but also a landmark event to promote the global green energy transition. Through technological innovation, energy conservation and emission reduction, and promoting local economic development, the project demonstrates the great potential and adaptability of photovoltaic power generation in harsh environments. With the continuous development of technology, Huawei's smart PV will play an increasingly important role in the global transformation of the global energy mix.
