Ground mounted solar structures 3V East-West (3×3 vertical – 4 poles)
The 3V East-West ground-mounted photovoltaic panel structure (3×3 vertical – 4 poles) is a support system for solar panels consisting of three vertical columns arranged in an east-west direction and four horizontal poles that connect the three columns. This structure is designed to optimize solar energy production by orienting the photovoltaic panels towards the east and west, instead of only towards the south, as is typical. Therefore, the photovoltaic panels capture more solar energy throughout the day, rather than just during peak hours.
This type of structure is used to support photovoltaic panels of small, medium, and large sizes.
The east-west panel mounting system is revolutionary and offers the following advantages:
Increased energy production: The orientation of the panels towards the east and west allows for a more even distribution of sunlight throughout the day, resulting in increased energy production.
Reduced installation time: The innovative design of the mounting system allows for quicker and easier installation of the panels, reducing labor and installation costs.
Versatile installation: The structure can be installed on various types of terrain, including uneven ground, making it suitable for a wide range of solar installations.
Durability: The structure is made of durable and corrosion-resistant materials, such as galvanized steel, ensuring a long lifespan and adequate protection against weather conditions.
Improved efficiency: The east-west panel mounting system can also help reduce the impact of shading from nearby buildings or trees, further increasing energy production.
- On the same land, 50-70% more photovoltaic panels can be installed using this system.
- There is no need to lose land space for shading zones.
- Inverters are not overloaded, and cables do not overheat.
- Energy production is more evenly distributed throughout the day compared to bell-curve production in south-facing systems.
- Compatible with any photovoltaic panel model.
- Large and impressive structure.
- Lower photovoltaic panel soiling rate compared to the 2V or 1V systems.
- Delivery time to the site is very short, within 15 days.
- Quick and easy installation, reducing labor costs.
- Expertise in the structure by MLPAT for use in Romania.
Photovoltaic mounting system with the panels arranged in a 3V East-West configuration, with three vertical panels mounted on a slope towards the east and three vertical panels mounted on a slope towards the west.
The structure is made of galvanized steel S235-S355 ZN 275.
The installation is possible within 15 days for a 1000 kWp installed capacity.
The foundation method is through ramming or in special cases, concrete piers.
Based on the geotechnical report, the depth of the pole foundation can be calculated, and soil tests can be conducted to determine the resistance of the poles' anchoring in the soil.
This structure can be installed on any type of terrain
The 3V East-West solar panel structure is a support system for solar panels that consists of three vertical columns arranged in the east-west direction and four horizontal poles that connect the three columns. This structure is designed to optimize solar energy production by orienting the photovoltaic panels towards the east and west, rather than just south as is common. As a result, the panels can capture more solar energy throughout the day, not just during peak hours.
The structure is constructed of durable and corrosion-resistant materials, such as galvanized steel, to ensure a long lifespan and adequate protection against the elements. It can be installed on flat or slightly sloping terrain, and the angle of inclination of the panels can be adjusted to optimize solar energy production.
The 3V East-West solar panel structure is suitable for areas with strong winds, as it is more resistant to lateral and vertical forces. Additionally, it can be used for large-scale installations such as agricultural or industrial sites, where high solar energy production is needed, and where an east-west orientation can be advantageous.
The panels used in the photovoltaic structures are designed to carry the 6mm2 solar cables for direct current transport.
The structure of the photovoltaic panels is ingeniously designed with profiles that also serve as cable trays, ensuring the transportation of the 6mm2 DC solar cables. This intelligent design significantly reduces electrical installation costs by eliminating the need for an additional metallic cable tray.