Under the guidance of the "Dual Carbon" goal, the distributed power supply architecture, with its flexibility and efficiency, has emerged as a key direction for optimizing the energy structure. This architecture is centered around distributed energy sources such as photovoltaic, wind, and gas turbines, complemented by energy storage equipment and intelligent control systems, creating a "generate and supply nearby" energy supply model.

Its core advantages include: 1) Efficient energy utilization, reducing energy loss during long-distance transmission; 2) High reliability in power supply, enabling complementary operation with the main power grid and ensuring power supply for critical loads during grid failures; 3) Significant environmental benefits, prioritizing clean energy generation to effectively reduce carbon emissions. Currently, the distributed power supply architecture has been widely applied in industrial factories, commercial complexes, communities, rural areas, etc., meeting local power demands while providing strong support for the transformation of energy structure towards clean and diversified sources.