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ProductsFounded in 2000, Yong Li Steel (Tianjin) Co., Ltd. is a modernized steel enterprise integrating steel production, processing, sales and service, rooted in Daqiuzhuang, Tianjin, an important steel industry base in northern China.
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About usFounded in 2000, Yong Li Steel (Tianjin) Co., Ltd. is a modernized steel enterprise integrating steel production, processing, sales and service, rooted in Daqiuzhuang, Tianjin, an important steel industry base in northern China.
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CasesFounded in 2000, Yong Li Steel (Tianjin) Co., Ltd. is a modernized steel enterprise integrating steel production, processing, sales and service, rooted in Daqiuzhuang, Tianjin, an important steel industry base in northern China.
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Contact UsFounded in 2021, Yong Li Steel (Tianjin) Co., Ltd. is a modernized steel enterprise integrating steel production, processing, sales and service, rooted in Daqiuzhuang, Tianjin, an important steel industry base in northern China.
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2025
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Working principle of photovoltaic mounting system: the supporting force of solar energy
In-depth exploration of the working principle of photovoltaic mounting systems and their importance in solar power generation.
Working principle of photovoltaic mounting system: the supporting force of solar energy
In this era of pursuing renewable energy, photovoltaic mounting systems, as an important part of solar power generation systems, are playing an increasingly important role. It not only supports photovoltaic components but also plays a crucial role in the entire power generation process. This article will take you to a deeper understanding of the working principle of photovoltaic mounting systems, revealing its secrets in solar power generation.
What is a photovoltaic mounting system?
Photovoltaic mounting systems can be considered the "home" of photovoltaic components. They are mainly used to fix and support solar panels, allowing them to **angle towards the sun, thereby** significantly improving power generation efficiency. Mounting systems come in various designs, commonly including fixed, tracking, and mobile types, each with its unique functions and advantages.
Working principle of photovoltaic mounting systems
Simply put, the working principle of a photovoltaic mounting system is closely related to its design and materials. By firmly fixing the photovoltaic components to the mounting system, the mounting system can effectively resist the influence of natural factors such as wind and rain, ensuring that the components operate normally under various climatic conditions.
1. Fixed mounting system
Fixed photovoltaic mounting systems are usually made of steel or aluminum alloy and can withstand considerable wind and snow loads. During installation, the mounting system is tilted according to the local solar angle to ensure that the solar panels can **maximally receive sunlight**.
2. Tracking mounting system
Tracking photovoltaic mounting systems are more advanced and can automatically adjust their angle according to the sun's movement. This mounting system works through sensors and motors, and can increase power generation efficiency by 20% to 50%. Imagine the sun moving across the sky, and your photovoltaic components, like a loyal follower, always maintaining the **optimal angle** with it—amazing!
Materials and design of photovoltaic mounting systems
The choice of materials for photovoltaic mounting systems is crucial. Common materials include aluminum alloy, stainless steel, and galvanized steel. These materials have advantages such as light weight, high strength, and corrosion resistance, ensuring the stability and durability of the mounting system during long-term use. In addition, scientific design can effectively reduce material usage while ensuring structural **integrity**.
Installation and maintenance of photovoltaic mounting systems
During the installation of photovoltaic mounting systems, foundation treatment is required first to ensure the stability of the mounting system. After installation, regular maintenance is also essential, such as checking whether the fasteners of the mounting system are loose and cleaning the surface of the mounting system. These small details can greatly extend the service life of the system.
Conclusion
In summary, photovoltaic mounting systems play an indispensable role in solar power generation systems. By understanding their working principles, we can better utilize this green energy and contribute to sustainable development. We hope to see more innovative photovoltaic mounting system designs in the future to make solar power generation more **efficient** and convenient!
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