Product Details:
Item | Zinc Aluminum Magnesium Solar Photovoltaic Support |
Surface Treatment | Galvanized zinc aluminum magnesium |
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. |
The installation of zinc-aluminum-magnesium photovoltaic brackets:
The photovoltaic area consists of two parts: the photovoltaic array field area and the substation. Among them, the area occupied by the photovoltaic array field is affected by factors such as site conditions, photovoltaic module conversion efficiency, photovoltaic array inclination angle and latitude.
1. For a distributed system, if it is installed on a concrete roof, it will occupy a larger area than a color steel tile roof. For ground power stations, if it is flat land, has a southward slope or a northward slope, the floor area will also be quite different. Generally speaking, the land area with a north-facing slope is the largest, followed by flat land, and the land with a south-facing slope is the smallest.
2. The improvement of the conversion efficiency of photovoltaic modules can reduce the area occupied by the photovoltaic array field area. Every 1% improvement in photovoltaic module conversion efficiency can reduce the floor space by approximately 59%. Likewise, reducing the inclination of the photovoltaic array can also reduce the floor space. Every time the tilt angle of the photovoltaic array is reduced by 1°, the floor space can be reduced by approximately 0.52%.
3. The influence of latitude on the floor area is mainly reflected in the shadow magnification. Shadow magnification is the ratio of the length of the shadow formed by an obstruction to its height. Generally, when designing, the shadow magnification at 9:00 and 15:00 on the winter solstice is mainly considered. When the latitude increases by 5°, the area occupied by the photovoltaic array field will increase by approximately 10% to 30%.
4. To estimate the photovoltaic floor area, you can follow the following steps:
Determine the installation method of the photovoltaic array (fixed, flat single-axis, oblique single-axis, dual-axis tracking).
Determine the conversion efficiency of photovoltaic modules.
Determine the terrain condition coefficient.
Multiply the value obtained from the query by the corresponding terrain condition coefficient to estimate the area occupied by the project.
Product Details:
Item | Zinc Aluminum Magnesium Solar Photovoltaic Support |
Surface Treatment | Galvanized zinc aluminum magnesium |
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. |
The installation of zinc-aluminum-magnesium photovoltaic brackets:
The photovoltaic area consists of two parts: the photovoltaic array field area and the substation. Among them, the area occupied by the photovoltaic array field is affected by factors such as site conditions, photovoltaic module conversion efficiency, photovoltaic array inclination angle and latitude.
1. For a distributed system, if it is installed on a concrete roof, it will occupy a larger area than a color steel tile roof. For ground power stations, if it is flat land, has a southward slope or a northward slope, the floor area will also be quite different. Generally speaking, the land area with a north-facing slope is the largest, followed by flat land, and the land with a south-facing slope is the smallest.
2. The improvement of the conversion efficiency of photovoltaic modules can reduce the area occupied by the photovoltaic array field area. Every 1% improvement in photovoltaic module conversion efficiency can reduce the floor space by approximately 59%. Likewise, reducing the inclination of the photovoltaic array can also reduce the floor space. Every time the tilt angle of the photovoltaic array is reduced by 1°, the floor space can be reduced by approximately 0.52%.
3. The influence of latitude on the floor area is mainly reflected in the shadow magnification. Shadow magnification is the ratio of the length of the shadow formed by an obstruction to its height. Generally, when designing, the shadow magnification at 9:00 and 15:00 on the winter solstice is mainly considered. When the latitude increases by 5°, the area occupied by the photovoltaic array field will increase by approximately 10% to 30%.
4. To estimate the photovoltaic floor area, you can follow the following steps:
Determine the installation method of the photovoltaic array (fixed, flat single-axis, oblique single-axis, dual-axis tracking).
Determine the conversion efficiency of photovoltaic modules.
Determine the terrain condition coefficient.
Multiply the value obtained from the query by the corresponding terrain condition coefficient to estimate the area occupied by the project.