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Global connectivity, empowering generations to come.
BIPV photovoltaic modules integrate photovoltaic power generation functions with building materials, enabling them to be directly used as architectural facades, roofs, or daylighting structures. This creates an integrated solution that combines power generation, architectural functionality, and aesthetic design, making BIPV a crucial component of future green buildings.
BIPV photovoltaic modules integrate photovoltaic power generation functions with building materials, enabling them to be directly used as architectural facades, roofs, or daylighting structures. This creates an integrated solution that combines power generation, architectural functionality, and aesthetic design, making BIPV a crucial component of future green buildings.
Agrivoltaics is an integrated utilization model that combines agricultural production with photovoltaic power generation. By installing photovoltaic support structures above farmland, this approach achieves “power generation above and crop cultivation below.” The photovoltaic arrays provide moderate shading, which helps increase soil moisture and improve the growing environment for crops, thereby realizing dual benefits from the same land.
Solar-photovoltaic complementary
Forest-solar complementarity involves deploying photovoltaic power stations in forested areas (such as sparse forests, secondary forests, and barren hills), where the photovoltaic mounting systems are designed to maintain coordinated development with the forest ecosystem, thereby achieving a win-win situation that protects forest resources while generating clean energy.
Fishery-solar complementary systems involve erecting photovoltaic power stations on the surface of fish ponds and aquaculture waters, enabling “aquaculture on the water surface + power generation above” to take place simultaneously. The photovoltaic modules provide shade, which helps regulate water temperature fluctuations and promotes stable growth of aquatic products.
Salt-light complementarity refers to the construction of photovoltaic power stations in salt-pan areas, operating in parallel with the sea-salt drying process. The photovoltaic arrays can reduce evaporation losses and enhance the overall functional utilization of the salt pans.
Pasture-solar complementary systems involve constructing photovoltaic power stations in grasslands, pastures, and other similar areas. The photovoltaic modules can regulate sunlight exposure on the pasture, enhancing the growth of forage crops while simultaneously fostering the dual development of both pastoral and photovoltaic industries.
Industrial and commercial power plants
Commercial and industrial power stations are primarily deployed on large rooftops of factories, warehouses, logistics parks, and retail supermarkets. By utilizing underutilized rooftops to install photovoltaic systems, these stations help achieve energy savings, reduce carbon emissions, lower electricity costs, and enhance companies’ ESG performance.
All-terrain photovoltaic installation is a PV mounting system designed for complex terrains such as mountains, slopes, hills, deserts, and wastelands. It features strong adaptability and flexibility, enabling large-scale PV deployment without terrain limitations.
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