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TaizhouProduct Model: ZCP0046
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Product Description
Sysmyk® Nanocoating for Photovoltaic Glass—Highly Transparent and Anti-Sandstorm/Dust-Resistant (Specifically for Xinjiang)
[Product Code] ZCP0046
[Product Features]
ZCP0046 is a single-component, room-temperature self-drying inorganic nanocoating developed by Hishen Meike, featuring high light transmittance and designed specifically to protect photovoltaic panels from sandstorms in regions with severe sandstorm conditions, such as Xinjiang. This self-cleaning product incorporates the latest nano-hollow silica technology, antistatic technology, and hydrophobic control technology. It forms an ultrafine, uneven surface structure less than 50 nm in size on the material’s surface. After curing, the ultra-thin coating exhibits a water-repellent angle exceeding 90°. Being entirely inorganic, the coating boasts exceptional weather resistance and abrasion resistance. Moreover, it effectively suppresses static electricity generation on the substrate surface, making it difficult for dust to adhere. Even if dust and clay particles do manage to stick, they can be easily cleaned away by water or wind, ensuring that the photovoltaic glass surface remains consistently transparent and clean. As a result, the overall power-generation gain of photovoltaic modules increases by more than 5% on average.
◼ Quick-drying at room temperature—surface dry in just 1–5 minutes; full curing takes 24 hours, with a hardness of over 4 hours (from Mitsubishi Pencil, Japan).
◼ Compared to the 1,000-cycle abrasion resistance of conventional superhydrophilic coatings, this product boasts an abrasion resistance of over 25,000 cycles. It features a purely inorganic composition, excellent weathering resistance, and provides protective effects for more than 5 years.
◼ Superior antistatic and wear-resistant performance, with a surface resistivity ranging from 10⁶ to 10⁹ Ω, significantly reducing the adhesion of dust and clay.
◼ High transparency, low reflectivity, and remarkable light transmission enhancement—after application, the reflectivity of photovoltaic module glass is reduced to 0.6–1.0. The enhanced light transmission, combined with antistatic and anti-dust properties, collectively boosts power generation by more than 5%.
◼ A water contact angle greater than 90° enables self-cleaning of the surface from dust or clay when exposed to rainwater or condensation, reducing the frequency of cleaning.
[Main Ingredients]
Nano-scale inorganic resin, catalysts, nano-hollow silica, nano-tin dioxide, ethanol, isopropanol, water, and others
[Applicable Materials]
◼ Photovoltaic glass
◼ Solar photovoltaic modules
【Curing Method】
◼ Self-drying at room temperature; fully cured after 24 hours of standing.
【Scope of Application】
◼ Photovoltaic power plant self-cleaning treatment for dust and sandstorm prevention
[Technical Parameters]
[Construction Method]
◼ Pre-construction Preparation and Precautions
1. Before applying the coating, first assess the surface condition of the photovoltaic glass: Rinse the surface with clean water. If the surface forms a hydrophilic film, it indicates that there is no oily contamination and no residual anti-reflective coating on the surface. In this case, you can directly proceed with dust removal and ash removal using clean water before starting the coating application.
2. If the surface is coated with an anti-reflection and light-transmitting film, it is recommended to treat it with the undiluted solution of QCP0091S [Multi-purpose Cleaner Specifically for Photovoltaic Glass] before construction to remove the existing anti-reflection and light-transmitting film. [ZCP0046 comes with built-in light-transmitting enhancement functionality—no need to worry about affecting the output power of your original photovoltaic modules.]
3. If there is only slight shrinkage, you can use QCP0091S [Multi-functional Cleaning Agent Specifically for Photovoltaic Glass] diluted with water at a ratio of 1:3 to 1:10 for cleaning. If the shrinkage is severe, it indicates that residual anti-reflective coatings remain. To enhance adhesion, we recommend directly spraying QCP0091S [Multi-functional Cleaning Agent Specifically for Photovoltaic Glass] onto the surface, waiting 30 seconds to 1 minute, and then using specialized cleaning equipment designed for photovoltaic glass to perform the treatment. After completion, simply rinse thoroughly with clean water.
4. After cleaning, use a pH test strip [1–12] to test the surface pH value. If the pH is neutral, it indicates that the surface has been thoroughly cleaned; otherwise, rinse with water until the surface pH reaches neutrality.
5. The cleaned surface should be coated promptly to prevent dust from settling again.
6. ZCP0046 cannot be directly applied by scraping onto hydrophobic surfaces, as this will reduce the adhesion of the coating.
7. Avoid construction when it’s raining.
◼ Construction Method
1. Use dedicated construction equipment for scraping and coating.
2. Manual labor: 4 workers per machine per day can complete 1,000 square meters of construction; robotic equipment: 4 workers per machine per day can complete 12,000 square meters of construction.
3. One-time treatment, valid for 5 years
[Storage]
Recommended storage temperature: 18–25°C
Shelf life: 6 months
[Packaging]
20L/bucket
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