Resilient Solar Solutions: How Qn-SOLAR's PV Modules Withstand Extreme Weather

January was an eventful month for European weather, with a series of named storms impacting Western Europe and Scandinavia. After the storms, the instability of Europe's climate has once again highlighted the need for solar systems that can perform in extreme weather conditions. Strong winds, freezing temperatures, and harsh environments have posed significant challenges to infrastructure. However, with innovative design and technological advantages , Qn-SOLAR is committed to developing high-performance solar modules capable of withstanding harsh climate conditions.

Innovative Design and Material Selection
Qn-SOLAR’s PV modules are made with high-strength, impact-resistant materials and corrosion-resistant frames to ensure structural integrity during harsh weather events such as strong winds, heavy rain, and hailstorms. Their superior corrosion resistance allows the modules to perform reliably in salty and humid environments, making them especially suited for coastal and wet climates.

Wind Resistance and Temperature Performance
Qn-SOLAR’s QNN182-HG-72 modules undergo rigorous wind load and mechanical strength testing, with a static mechanical load capacity of up to 6000 Pa on the front and 3600 Pa on the back, significantly surpassing the standard of 5400 Pa and 2400 Pa, respectively. This ensures stable power generation even in extreme wind and snow conditions. Additionally, Qn-SOLAR modules excel in temperature adaptability, delivering exceptional power output whether in the scorching heat of the desert or the freezing cold of the Arctic.

QNN182-HG-72: Three Key Technological Advantages to Overcome Challenges

1. Dual POE Generation II Lamination: Enhances the module's anti-PID (Potential Induced Degradation) performance, making it especially suitable for high humidity and high salt-fog environments, thus extending the lifespan of the solar system.

2. Composite Frame: Improves corrosion resistance and strengthens the mechanical structure of the modules. After aging tests, their performance remains stable.

3. HTAR Double-Layer Coated Glass: Enhances light transmission and weather resistance, allowing the modules to better resist salt mist and moisture intrusion, ensuring long-term stable power generation.

With its innovative design and high weather resistance, Qn-SOLAR provides robust solutions to overcome the challenges posed by extreme weather. Whether in high winds, heavy snow, or extreme temperatures, Qn-SOLAR can reliably support solar power systems worldwide and contribute to the sustainable development of global renewable energy.

To learn more about how Qn-SOLAR’s solutions perform in extreme weather conditions, feel free to contact us!