High-Efficiency UVA LED Photocatalytic Waste Gas Treatment Solution with 360° Illumination and Water Cooling
Product Overview
This premium UVA LED photocatalytic waste gas treatment system combines a powerful UVA LED light source with a water-cooling machine, designed for high-performance light curing and photocatalytic applications. The UVA LED source, set at a customizable peak wavelength range of 365±5nm, offers a 360-degree illumination, ensuring comprehensive coverage without dead spots.
Constructed from anodized, precision-machined aluminum alloy, the device is both stylish and durable. The UVA LED source is encapsulated in high-transmittance UV optical quartz glass, maximizing UV output and enhancing the effectiveness of curing and photocatalysis.
Key Features:
Mercury-Free Design: Environmentally friendly, safe, and energy-efficient.
Instant Operation: No preheating required; ready to use immediately.
Compact and Space-Saving: Small footprint, simple structure, and easy installation.
High Efficiency and Low Power Consumption: Reduces energy costs while maintaining a long lifespan.
Versatile Substrate Compatibility: Suitable for flexible, rigid, absorbent, and non-absorbent substrates, with low thermal radiation ideal for heat-sensitive materials.
This UVA LED photocatalytic waste gas treatment solution operates by utilizing UVA light to activate a catalyst, triggering a photocatalytic reaction to decompose harmful gases and pollutants. Here’s how it works:
1.UVA Light Activation: The UVA LED light source, operating within a wavelength range of 360-370nm, activates the catalyst (such as titanium dioxide, TiO₂), generating electron (e⁻) and hole (h⁺) pairs.
2.Free Radical Generation: These electrons and holes react with water molecules and oxygen in the air, forming highly oxidative hydroxyl radicals (•OH) and superoxide anion radicals (•O₂⁻). These radicals are highly reactive and can rapidly oxidize molecules of organic pollutants and harmful gases.
3.Pollutant Decomposition: Under the action of these radicals, harmful gases (such as VOCs, formaldehyde, benzene, etc.) and organic pollutants are broken down into carbon dioxide (CO₂), water (H₂O), and other harmless small molecules. This process doesn’t require chemical reagents, preventing secondary pollution.
4.High Light Output and Cooling System: The solution’s 360-degree design combined with UV high-transmittance quartz glass ensures efficient UVA light output with full coverage. Additionally, the water-cooling system effectively controls the LED temperature, preventing heat buildup and ensuring stability and long service life.
Customization Process
1.Requirement Collection: Customers provide details on required wavelength, dimensions, and performance specifications.
2.Design and Testing: Tailored design and simulations are conducted to ensure optimal performance.
3.Production and Quality Control: Manufacturing follows strict standards, and each product undergoes quality testing.
4.Delivery and Support: The customized solution is shipped with support for installation and operation.
Application Range
Ideal for industries requiring precise UV curing and photocatalytic processes, this system is suitable for:
Industrial waste gas treatment
Coating and adhesive curing
Photocatalytic oxidation in pollution control
Printing and packaging