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BIPV, or Building Integrated Photovoltaics, refers to the integration of photovoltaic modules into building structures to replace traditional building materials and achieve a perfect combination of building and photovoltaic power generation. This technology can not only provide clean energy, but also effectively save building materials and improve the energy efficiency of buildings, with high practicality and economy.
BIPV products use ordinary crystalline silicon photovoltaic modules as roof surface materials to achieve the maximum saving of building materials. By installing photovoltaic modules directly on the roof purlins, the design integrates functions such as lighting strips, maintenance channels, and ventilators, making the entire building structure more compact and functional. This design not only improves the beauty of the building, but also improves the intelligence of the building and realizes the diversification of building uses.
BIPV products have strong adaptability and can be installed on various types of buildings, especially on old large steel structure factories and other buildings. Because BIPV products are integrated structures, there is no problem of rust and aging of color steel tiles, and safety hazards such as water leakage can be avoided. At the same time, photovoltaic modules have a service life of up to 25 years, avoiding the secondary replacement cost of color steel tiles and the loss of power station shutdown, with significant economic benefits.
Zinc-aluminum-magnesium coating materials have excellent corrosion resistance and can effectively resist corrosion from atmospheric, water vapor and other corrosive factors. In the BIPV system, the roof surface materials must withstand the test of various natural environments. Choosing zinc-aluminum-magnesium coating materials can ensure the long-term and stable use of the building roof and reduce maintenance and replacement costs.
Zinc-aluminum-magnesium coating materials have high high temperature resistance and can be used stably for a long time in high temperature environments. In the BIPV system, the roof is exposed to the sun in summer and will be affected by high temperatures. Choosing zinc-aluminum-magnesium coating materials with good heat resistance can ensure the long-term and stable operation of the system.
The zinc-aluminum-magnesium coating material not only has excellent physical properties, but also has good processability. It can be bent, cut and processed according to needs to meet the needs of different building shapes. This feature makes the installation of zinc-aluminum-magnesium coating materials in BIPV systems more flexible and convenient.
The surface of the zinc-aluminum-magnesium coating material is bright and smooth, with good texture and appearance. It can not only enhance the overall beauty of the building, but also increase the texture and modernity of the building. At the same time, its surface treatment technology makes it highly durable, not easily damaged by the external environment, and maintains a good appearance for a long time.
The zinc-aluminum-magnesium coating material is corrosion-resistant, heat-resistant, processable and makes it one of the preferred building materials in the BIPV system, which can provide strong support for the stable operation and long-term use of the BIPV system.
Installation site | Replace the original house roof, windows, exterior walls |
Component area | Any area |
Component area position | Any area position |
Bottom frame | Zn-Al-Mg steel profile |
Bottom fixing | Drilling screws |
BIPV, or Building Integrated Photovoltaics, refers to the integration of photovoltaic modules into building structures to replace traditional building materials and achieve a perfect combination of building and photovoltaic power generation. This technology can not only provide clean energy, but also effectively save building materials and improve the energy efficiency of buildings, with high practicality and economy.
BIPV products use ordinary crystalline silicon photovoltaic modules as roof surface materials to achieve the maximum saving of building materials. By installing photovoltaic modules directly on the roof purlins, the design integrates functions such as lighting strips, maintenance channels, and ventilators, making the entire building structure more compact and functional. This design not only improves the beauty of the building, but also improves the intelligence of the building and realizes the diversification of building uses.
BIPV products have strong adaptability and can be installed on various types of buildings, especially on old large steel structure factories and other buildings. Because BIPV products are integrated structures, there is no problem of rust and aging of color steel tiles, and safety hazards such as water leakage can be avoided. At the same time, photovoltaic modules have a service life of up to 25 years, avoiding the secondary replacement cost of color steel tiles and the loss of power station shutdown, with significant economic benefits.
Zinc-aluminum-magnesium coating materials have excellent corrosion resistance and can effectively resist corrosion from atmospheric, water vapor and other corrosive factors. In the BIPV system, the roof surface materials must withstand the test of various natural environments. Choosing zinc-aluminum-magnesium coating materials can ensure the long-term and stable use of the building roof and reduce maintenance and replacement costs.
Zinc-aluminum-magnesium coating materials have high high temperature resistance and can be used stably for a long time in high temperature environments. In the BIPV system, the roof is exposed to the sun in summer and will be affected by high temperatures. Choosing zinc-aluminum-magnesium coating materials with good heat resistance can ensure the long-term and stable operation of the system.
The zinc-aluminum-magnesium coating material not only has excellent physical properties, but also has good processability. It can be bent, cut and processed according to needs to meet the needs of different building shapes. This feature makes the installation of zinc-aluminum-magnesium coating materials in BIPV systems more flexible and convenient.
The surface of the zinc-aluminum-magnesium coating material is bright and smooth, with good texture and appearance. It can not only enhance the overall beauty of the building, but also increase the texture and modernity of the building. At the same time, its surface treatment technology makes it highly durable, not easily damaged by the external environment, and maintains a good appearance for a long time.
The zinc-aluminum-magnesium coating material is corrosion-resistant, heat-resistant, processable and makes it one of the preferred building materials in the BIPV system, which can provide strong support for the stable operation and long-term use of the BIPV system.
Installation site | Replace the original house roof, windows, exterior walls |
Component area | Any area |
Component area position | Any area position |
Bottom frame | Zn-Al-Mg steel profile |
Bottom fixing | Drilling screws |