Distributed photovoltaic power generation refers to the installation of photovoltaic systems (solar photovoltaic panels) in distributed locations, such as residential, commercial buildings, or industrial parks. Unlike traditional centralized photovoltaic power generation, distributed photovoltaic power generation systems have the following characteristics:
Nearby power generation: Photovoltaic power generation systems are installed in places where electricity is needed, generating electricity nearby and saving transmission losses and grid capacity.
Increasing the coverage area of power generation: By distributing photovoltaic panels in multiple locations, the coverage area of power generation can be increased and energy utilization efficiency can be improved.
Diversified applications: Photovoltaic panels can be installed in various spaces such as roofs, walls, and parking sheds, providing flexibility and diversity.
Reduce dependence on the power grid: Distributed photovoltaic power generation systems can use some or all of their electricity generation for their own consumption, reducing dependence on the power grid.
Reduce environmental impact: Reduce the impact of long-distance transmission lines on the ecological environment and promote the utilization of clean energy.
The application of distributed photovoltaic power generation systems can provide renewable energy for buildings, and can also be interconnected with the grid through "surplus electricity grid connection" to supply surplus electricity to the grid, thereby achieving bidirectional energy flow.
In some countries and regions, the government also encourages the application of distributed photovoltaic power generation systems by providing subsidies or preferential purchase policies to encourage residents and businesses to install photovoltaic power generation systems, in order to promote the utilization of clean energy and reduce dependence on traditional fossil fuels.





