Ozone catalytic oxidation technology achieves deep treatment of wastewater at low cost
Deep treatment of wastewater is also called advanced treatment or tertiary treatment. It is to further treat the effluent from the secondary treatment physically, chemically and biologically in order to effectively remove impurities of various properties in the sewage, so as to meet the user's requirements for water quality. There are many methods for deep treatment of wastewater, including ozone oxidation.
As we all know, ozone has extremely strong oxidizing properties and reacts to many organic matter or functional groups to effectively improve water quality. Ozone can oxidize and decompose the color and smell caused by various impurities in the water; it can also reduce the turbidity of the effluent and play a good flocculation role. However, the ozone generation efficiency and the properties of ozone itself determine that it cannot fully react with pollutants, resulting in increased costs and increased difficulty in promotion. Ozone catalytic oxidation technology is different from traditional ozone oxidation technology, so let's talk about how ozone catalytic oxidation technology can achieve deep treatment of wastewater at low cost today.
Case study of ozone catalytic oxidation technology achieving deep treatment of wastewater at low cost
Ozone catalytic oxidation reactor
The ozone catalytic oxidation reactor is mainly composed of the reactor main shell, proprietary tower components, and proprietary ozone catalyst packing. The proprietary tower components achieve efficient mixing of ozone gas and wastewater, combined with our patented ozone catalyst series products, improving the utilization rate of ozone.
Technical advantages
(1) Verify multiple instance solutions and flexibly design the layout structure of the packing layer to meet the customized requirements of customers for the quantity of additives.
(2) The design concept of mass transfer mixed reaction inside the equipment ensures sufficient reaction of water, gas, and solid phases.
(3) The reactor material is selected from SS316L or carbon steel lined with anti-corrosion materials to ensure the service life of the reactor.
(4) Provide customers with optimal multi reactor layout and operation plans based on their on-site land occupation and layout conditions.
Typical applications
Efficient sedimentation tank/filter - ozone catalytic reactor/tank - biological filter - water production or subsequent processes
Wastewater treatment plant effluent - Ozone catalytic reactor/pool - Artificial wetland
Ozone catalytic oxidation reactor
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