Advanced Oxidation Process is a very complex process with complicated reaction theories. Among those, free radical theory is well accepted by scientists and researchers. H₂O₂ could be quickly broken into highly oxidative intermediates, such as Hydroxyl radical (OH·), Hydroperoxyl radical (HO₂ ·), and Oxygen radical (O·) etc. The radicals are very strong oxidants and could react with most of organics in the water, and induce chain reaction, which in turn convert the organic compounds into CO₂, H₂O and minerals. They can also oxidize organic compounds partially to improved biodegradability (BOD/COD), which will facilitate the ensuing biodegradation processes.

UVOP system is based on LightDomeTM technology. Integrated with the high power and high penetration rate of various wavelengths of the broad wavelength medium pressure UV technology, as well as the high efficiency and high ozone conversion rate of the low pressure UV technology, UVOP improves the photolysis capability and power efficiency of systems significantly.

UVOP is proven to be an effective and economical solution to waste water treatment from Chemistry, Pharmaceutical and Fine Chemistry industry which contain nitrobenzene, toluidine, aromatic azo compounds, cyanide and chlorinated organic compounds and other organic compounds containing nitrogen, sulfur and phosphorus.

Our solutions could be the following combinations:

Industrial wastewater has complicated properties based on the products and industries involved, which requires specific treatment solutions. We can offer a rental model to customer for lab-scale or pilot-scale experiment to help customers select the best solutions.

UV Photocatalysis and synthesis are used in Chemistry, Pharmaceutical, Organic Synthesis and other special process. we work with customers to design and manufacture customized equipments for pilot scale test or production for Photo-polymerization, Photo-chemistry addition, Photo-chlorination, Photo-sulfonation, Photo-nitrification and Woodward-Hoffmann reaction etc.

Based on customer's requirements on UV intensity and wavelengths, the reaction systems could use either single wavelength low-pressure system or multiple wavelength medium-pressure lamp technology. The intensity can be adjusted manually or automatically in the reaction processes.

Available wavelengths: