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First, the site of the photovoltaic power station needs to be studied and evaluated, including geological conditions, soil stability, wind speed, sunshine intensity and other factors.
Design the layout and bracket parameters of the photovoltaic array based on site conditions and power station capacity. Consider the tilt angle and orientation of photovoltaic panels to maximize the absorption of sunlight energy.
Perform foundation works on the site, including soil leveling, site leveling and providing a stable foundation.
Install the bracket step by step according to the design layout. The bracket material is generally made of floating zinc-aluminum-magnesium alloy, which has good corrosion resistance and structural stability.
Install the photovoltaic panel on the bracket, position it and fix it with screws.
After installing the photovoltaic panels, connect them to the grid and convert the solar energy into usable AC power through an inverter.
Establish an appropriate monitoring system to regularly check the performance of the PV array and clean the panels to maintain optimal power generation efficiency. Perform routine maintenance and upkeep as needed.
The process of using floating zinc-aluminum-magnesium photovoltaic brackets includes site research, design layout, foundation engineering, installation of brackets, installation of photovoltaic panels, connection to the grid, and monitoring and maintenance. These steps need to be carried out by professionals to ensure the stable and efficient power generation of the photovoltaic power station.
Product Details:
Item | Zinc Aluminum Magnesium Solar Photovoltaic Support |
Surface Treatment | Zinc aluminum magnesium coating |
Steel grade | S350\S420\S450 |
Processing | Ordinary processing and custom processing are available |
Terms of payment | L/C, T/T |
Delivery | 7-30days |
Supplying BV or SGS Inspection if the client needs it. Other accessories or requirements can be ordered. |
First, the site of the photovoltaic power station needs to be studied and evaluated, including geological conditions, soil stability, wind speed, sunshine intensity and other factors.
Design the layout and bracket parameters of the photovoltaic array based on site conditions and power station capacity. Consider the tilt angle and orientation of photovoltaic panels to maximize the absorption of sunlight energy.
Perform foundation works on the site, including soil leveling, site leveling and providing a stable foundation.
Install the bracket step by step according to the design layout. The bracket material is generally made of floating zinc-aluminum-magnesium alloy, which has good corrosion resistance and structural stability.
Install the photovoltaic panel on the bracket, position it and fix it with screws.
After installing the photovoltaic panels, connect them to the grid and convert the solar energy into usable AC power through an inverter.
Establish an appropriate monitoring system to regularly check the performance of the PV array and clean the panels to maintain optimal power generation efficiency. Perform routine maintenance and upkeep as needed.
The process of using floating zinc-aluminum-magnesium photovoltaic brackets includes site research, design layout, foundation engineering, installation of brackets, installation of photovoltaic panels, connection to the grid, and monitoring and maintenance. These steps need to be carried out by professionals to ensure the stable and efficient power generation of the photovoltaic power station.
Product Details:
Item | Zinc Aluminum Magnesium Solar Photovoltaic Support |
Surface Treatment | Zinc aluminum magnesium coating |
Steel grade | S350\S420\S450 |
Processing | Ordinary processing and custom processing are available |
Terms of payment | L/C, T/T |
Delivery | 7-30days |
Supplying BV or SGS Inspection if the client needs it. Other accessories or requirements can be ordered. |