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As solar power stations keep expanding, the importance of solar PV mounting structures for ensuring station safety is paramount. Among the various types available on the market, hot-dip galvanized and zinc-aluminum-magnesium structures are prevalent, but distinguishing between them can be confusing for many. This article aims to clarify by explaining the differences and address...
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With available flat land resources dwindling for photovoltaic power plant projects, flexible mounting structures have become crucial for efficient land resource utilization in recent years. Flexible mounting structures, a new type of solar energy support system, employ space structure technology such as suspending, tensioning, hanging, bracing, and compressing. By combining PC strands and steel st...
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Known as a new type of mounting system, flexible structures use PC strands instead of traditional steel to support solar systems. This innovation makes PV modules more flexible and reliable, better adapting to complex and changing site conditions and environmental challenges. In the sewage treatment industry, these structures are particularly advantageous. Sewage treatment plants often have large,...
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In the construction and operation of PV power stations, optimizing economic benefits is a core concern for investors and developers. Choosing the right photovoltaic structures not only enhances the stability and efficiency of the solar PV system but also reduces overall investment costs, thereby improving the project's economic returns. Statistics show that the raw material cost for photovoltaic s...
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As summer approaches, many regions inevitably face the threat of typhoons. These powerful storms bring intense wind and rain, impacting wide areas and often causing significant economic losses to solar PV power stations. Traditional steel mounting structures, with their limited ability to deform, struggle to unload wind loads effectively and may risk being blown away. In contrast, solar power stat...
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As we all know, traditional solar mounting structures face numerous challenges, such as insufficient stability and susceptibility to extreme weather, which can lead to damage and operational disruptions. Additionally, their complex installation processes consume significant manpower and resources, while inadequate maintenance mechanisms result in high upkeep costs. To tackle these issues, comprehe...
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The wind resistance of a PV power station largely depends on the design of its mounting structures. Typically, solar mounting structures can withstand winds up to level 17. However, in practice, factors like uneven construction quality and design flaws can compromise this capability. To ensure efficient and safe operation in severe weather, it's essential to maintain high engineering standards, co...
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When an earthquake strikes, most ground facilities suffer severe damage, often leading to power system failures. This is when PV power plants can step in as emergency power sources, quickly providing power to ensure the normal operation of communications and lighting equipment in disaster areas, playing a crucial role in the rescue process. To minimize damage to PV power plants, it's essential to ...
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Extreme weather conditions such as heavy rain and floods pose significant risks to PV mounting structures, potentially causing loosening, deformation, or even breaking. These issues can directly threaten the normal operation of a PV power plant. The powerful impact of floods may lead to the complete collapse of the solar mounting system, resulting in severe and irreversible damage. Therefore, ensu...
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