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Low-iron AR Coating Solar Glass

  • Price:

    Negotiable

  • minimum:

  • Total supply:

  • Delivery term:

    The date of payment from buyers deliver within days

  • seat:

    Shandong

  • Validity to:

    Long-term effective

  • Last update:

    2024-01-22 00:33

  • Browse the number:

    421

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Company Profile
Qingdao Migo Glass Co., Ltd
By certification [File Integrity]
Contact:

migoglass02(Mr.)  

Email:

Telephone:

Phone:

Area:

Shandong

Address:

No. 600 Road Zhujiang, Huangdao District, Qingdao, Shandong, China

Website:

http://www.migoglasstech.com/ http://migoglass02.jsthy56.com/

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Product Details


DESCRIPTION



 



Low iron AR Coating Solar Glass is a specialized type of glass used in solar panels, and it combines several essential features to enhance solar panel performance. An AR coating is typically applied to the glass before it is tempered (heat-treated). A thin layer of anti-reflection film is plated onto the glass surface. The coating improves transmittance by reducing the amount of light that bounces off the glass.



 



Purpose:




  • Reflection Reduction: The primary purpose of AR coating is to reduce reflection from the surface of the solar glass.

  • Increased Light Absorption: By minimizing reflection, more sunlight can penetrate the glass and reach the solar cells beneath.



 



Benefits:




  • Performance Boost: AR-coated solar glass can deliver a panel performance boost of up to 3% compared to standard uncoated glass.

  • Older Modules: For existing PV modules, retrofit AR coating can also increase power gain by up to 3%1.

  • Soiling Resistance: Coated modules soil less quickly and are easier to clean, maintaining optimal performance for longer.



 



AR coating enhances solar panel efficiency by allowing more sunlight to pass through while minimizing reflection. The low iron AR-coated solar glass combines transparency, anti-reflective properties, and strength, making it an ideal choice for both crystalline silicon photovoltaic applications and solar thermal collectors.



 





SPECIFICATION



 











































Product name

Low-iron AR Coating Solar Glass

Thickness

3.2mm/4mm

Glass shape

Flat

Light Transmittance (LT)

Low-iron float glass

3.2mm≥91.6%

4mm≥91.2%

Low-iron float glass with ARC

3.2mm≥93.6%

4mm≥93.2%

Size

1830*2134mm, 1830*2440mm, 1650*2134mm, 1650*2440mm, 650*1830mm, 920*1016mm, and 1500*2000mm



Any other size as per custom

Edge-work

Just cutting, flat edge, round edge, seamed edge and polished edge

Standard

EN12150-1, EN1288-3 certification by TUV Rheinland


 





PRODUCT PHOTOS



 





 





PACKING PHOTOS



 



Solar glass packaging plays a crucial role in transportation and delivery. Proper packaging is crucial to minimize potential impacts during transit; well-designed packaging safeguards against damage and ensures that glass panels reach their destination in pristine condition.



There is no universally accepted standard for solar glass packaging, loading, transport, and unloading. Client specifications, glass types, and manufacturers' packaging methods can vary significantly.



 



Key Points of MIGO Solar Glass Packaging:

-Solar glass panels are typically arranged horizontally or vertically within a box, depending on customer requirements.

-Moisture-proof paper or powder is placed between each glass sheet to prevent direct contact.

-Foam padding is inserted into the inner plywood crates to shield the solar glass from impacts and scratches.

-Plywood crates are reinforced with steel straps to prevent glass damage due to movement inside the container.

-The loading process is meticulously planned to maximize space utilization and minimize the risk of breakage.



 





 



As a reputable solar glass manufacturer and supplier, MIGO Solar Glass ensures the secure and efficient delivery of low iron patterned solar glass to its destination. This commitment guarantees that renewable energy projects can progress smoothly and effectively.



 



 





ADVANTAGES OF SOLAR GLASS FOR PV MODULES



 



1. Increased Energy Conversion: The low-iron composition and patterned design work together to enhance solar energy absorption. By maximizing light transmission and trapping, the glass improves the efficiency of solar collectors, leading to increased energy conversion and higher overall system performance.



 



2. Enhanced Durability: The tempering process increases the glass's mechanical strength, making it more resistant to breakage and impact. This durability ensures that the glass can withstand environmental stresses, prolonging the lifespan of solar collector systems.



 



3. Improved Cost Efficiency: The increased energy conversion and performance of low-iron patterned solar collector glass can result in improved cost efficiency. It enables more effective utilization of solar energy, potentially reducing dependence on other energy sources and lowering energy costs in the long run.



 



4. Versatile Applications: Low-iron patterned solar collector glass is suitable for a wide range of solar thermal collector applications, including solar water heaters, solar air heating systems, and solar thermal power plants. Its versatility makes it applicable to both residential and commercial projects.



 



5. Environmental Sustainability: By harnessing solar energy effectively, low-iron patterned solar glass contributes to environmental sustainability by reducing reliance on fossil fuels and minimizing greenhouse gas emissions. It helps promote clean energy generation and supports the transition to a greener future.



 


http://www.migoglasstech.com/

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