Ultra friendly, highly transparent, self-cleaning nano coating solution

1. Product Introduction and Features
        In the operation of photovoltaic power plants, crystalline silicon modules face multiple severe challenges, which seriously restrict the power generation efficiency and operational benefits of the power plant, and even bring safety hazards.
        Firstly, photovoltaic power plants are often built in outdoor open areas, and crystalline silicon modules are exposed to natural environments for a long time, making them highly susceptible to coverage and erosion by various pollutants such as sandstorms, bird droppings, dust, and leaves. These pollutants adhere to the surface of the components, not only blocking sunlight and directly reducing the absorption efficiency of photovoltaic panels for solar energy, but also gradually penetrating and eroding the surface of the components over time, affecting their service life. What is even more troubling is that in order to remove these pollutants and ensure the normal power generation of the power station, the operator has to carry out frequent cleaning. However, traditional cleaning methods, whether manual wiping or high-pressure water gun flushing, are prone to physical damage to photovoltaic panels, such as scratching the anti reflective film on the surface of the panel, further exacerbating the loss of power generation and forming a "; Cleaning and maintenance - damaged panel - decreased efficiency; The bad cycle.
        Secondly, the spot effect caused by surface pollution is a major safety and efficiency hazard in the operation of photovoltaic power plants. When there are local pollutants blocking the surface of the photovoltaic panel, the blocked part cannot generate electricity normally and will become a part of the circuit; Load” Generate local high temperature, also known as spot effect. This effect not only causes local overheating and damage to the photovoltaic panel, shortening the lifespan of the components, but also may lead to short circuit faults in the photovoltaic panel. In severe cases, it may even cause fires, posing great safety risks to the power station. At the same time, it will significantly reduce the power generation of the entire photovoltaic system, causing huge economic losses.
        In addition, in order to ensure that the power station meets the required minimum power generation, the operator has to invest a significant amount of cost. On the one hand, it is necessary to hire a large number of staff for regular inspections and cleaning operations, and personnel salaries, training, and other expenses have been increasing year by year; On the other hand, although the application of automation equipment such as cleaning robots has reduced manual dependence to a certain extent, the purchase, installation, maintenance, and later upgrading of equipment require high investment, which undoubtedly increases the operating cost burden of power plants and compresses their profit margins.
        Faced with the pain points in the above-mentioned industries, ultra friendly, highly transparent, and self-cleaning nano coating solutions have emerged, providing efficient, economical, and safe solutions for photovoltaic power plants. This product has multiple outstanding features: firstly, its superhydrophilicity allows water molecules to quickly spread on the surface of the photovoltaic panel, forming a water film that easily removes surface pollutants, achieving self-cleaning effect and significantly reducing cleaning frequency; Secondly, the anti-static function can effectively reduce the adsorption capacity of charged pollutants such as dust on the surface of the panel, thereby reducing the adhesion of pollutants from the source; Thirdly, the easy to clean property can easily remove stains even if manual assistance is needed after long-term use, avoiding damage to the panel; Fourth, the anti-aging performance can form a tough protective film on the surface of the photovoltaic panel to resist the erosion of natural factors such as ultraviolet rays, high and low temperature changes, and extend the service life of photovoltaic modules; The most important thing is that the coating solution has high transparency, which not only does not affect the absorption of solar energy by photovoltaic panels, but also improves the transparency to a certain extent, thereby increasing power generation and creating more revenue for power plants.
        Based on its excellent performance, the application scenarios of ultra friendly, highly transparent, and self-cleaning nano coating solution are very extensive. It can be widely used in various types of photovoltaic solar panels (including single crystal, polycrystalline, thin film, etc.), BIPV (photovoltaic building integration) systems, and BAPV (building attached photovoltaic system), providing comprehensive surface protection and efficiency improvement services for different forms of photovoltaic applications, and helping the photovoltaic industry achieve more efficient, economical, and sustainable development.

II. Basic Product Parameters

III. Project Implementation and Construction Technology

Post treatment brushing process technology:
1.    Use specialized cleaning equipment to clean the surface of photovoltaic modules
2.    Use a high-pressure water gun to rinse off surface dirt and residual cleaning agents
3.    Use a water scraper to dry the surface moisture of photovoltaic modules and avoid secondary pollution.
4.    Use specialized coating equipment for surface coating treatment

After applying the self-cleaning coating, the anti-static effect of the coating makes it difficult for dirt to adhere. The cleaning effect can be achieved by simply washing with rainwater or artificial water, greatly reducing the difficulty of cleaning, saving labor costs, and increasing power generation.

4. Video Display of Product Construction Process