Solar steel structures are products offered by Çepaş Gonvarri Industries in the field of solar energy systems. As the demand for sustainable energy sources rapidly increases in today's world, the durability and efficiency of these energy systems have become crucial. Fixed solar structures, one of the fundamental components of solar energy systems, play a critical role in ensuring that solar panels are installed in a long-lasting, reliable, and efficient manner. Çepaş Gonvarri Industries provides adaptable fixed solar structures tailored to project and customer needs, offering efficient and cost-effective solutions in this field.

Design of Solar Steel Structures

Solar projects require different engineering specifications based on the geographic region, settlement characteristics, and local regulations. Çepaş Gonvarri Industries designs its solar steel structures by taking into account the unique dynamics of each project. These structures are efficiently designed by considering factors such as different module sizes, orientation, array size, and angle. Additionally, these elements are analyzed in accordance with the laws and regulations of the country in which the project is located, maximizing both regulatory compliance and safety standards.

Environmental and Corrosion Analysis in Solar Steel Structures

Solar steel structures must be designed and produced to withstand external conditions. Çepaş Gonvarri Industries uses specialized software to analyze the environmental and soil corrosion factors where its projects are located, ensuring the structures are durable and long-lasting. Corrosion poses a significant threat to structural elements used outdoors, and conducting detailed analyses can significantly extend the lifespan of these structures. This approach ensures CAPEX optimization and minimizes the impact of environmental factors, guaranteeing the long-term success of projects.

Ground and Pull Tests

The durability of the foundation used in each project is critical for the structures to operate seamlessly in the long term. For this reason, Çepaş Gonvarri Industries meticulously conducts pull tests to determine the appropriate foundation for each project. These tests verify whether the structure can bear the loads and gravitational forces imposed on it. Once the foundation type suited to the project's ground structure is determined, the installation process is accelerated, resulting in a more robust structure.

Flexible Design Adaptable to Any Slope

Solar steel structures are generally systems that need to be adapted to large areas and challenging ground conditions. The fixed solar structures by Çepaş Gonvarri Industries are designed to be flexible enough to adapt to all types of slopes. They perform exceptionally well even on rugged terrains with steep inclines in both N-S and E-W directions. This reduces the scale of construction work required, saving both time and cost.

Installation Time for Solar Fixed Structures

In solar projects, short installation times are a critical factor in enhancing project efficiency. Çepaş Gonvarri Industries’ solar fixed structures are designed with fewer components, significantly reducing installation times. This reduces the CAPEX of the project, allowing photovoltaic installations to be completed faster and at a lower cost. Additionally, these structures offer wide installation tolerances, making work easier for the on-site technical team and ensuring an error-free installation. The technical consulting team provides services at every stage to ensure that the structures are installed according to quality standards.

In conclusion, the success of solar projects also depends on the durability and reliability of the structures supporting the panels. Çepaş Gonvarri Industries offers cost-effective solutions to its clients with adaptable solar steel structures. From project design to environmental analysis, installation to quality control, Çepaş Gonvarri Industries works meticulously to uphold high standards at every stage.

For more information, please contact Çepaş Gonvarri Industries.