Widely used in high-tech industries such as semiconductors and pharmaceuticals.
Achieves photolysis of water molecules to produce highly oxidative hydroxyl radicals (·OH) while simultaneously exciting organic molecules to alter their structure, making them more reactive with ·OH, efficiently degrading organic compounds, and significantly reducing total organic carbon (TOC) in water.
Uses CFD simulation to analyze fluid flow and mass transfer processes, optimize dead zone ratios, and improve the contact and reaction efficiency between target pollutants (TOC) and radicals (·OH).
Employs special structural design and processing techniques to reduce fluid resistance and provide stable ultrapure water.
Equipped with advanced online monitoring and AI intelligent systems to monitor and collect key big data parameters in real-time, with AI intelligent operation, analysis, and learning capabilities.
Main components of the system: TOC photolysis reactor, electrical control system, online TOC detector, cleaning system (optional), etc.