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The role of industrial ozone generator


The role of industrial ozone generator

  Industrial type ozone generator in the application of water reuse, wastewater treatment is easy to handle, the effluent effect is good; meet the national environmental protection discharge standards.

  The treatment of wastewater is generally used for the sterilization of primary and secondary biological treatment effluent, but is also widely used in other industries, such as the use of ozone oxidation to remove biodegradable or toxic compounds to improve the efficiency of the wastewater biological oxidation unit, in addition to reducing sludge production. It is also used to remove organic and inorganic pollutants from industrial wastewater and for disinfection. These include: wastewater from the production and use of pesticides, rinsing wastewater from PCP-contaminated wood or dioxane containing waste, mariculture wastewater, livestock manure wastewater, and waste leachate. Ozone is mainly used to treat phenols in wastewater from these plants (coking plants, petroleum refineries, plastic processing plants, pulp and paper mills, textile mills, soap and detergent processing plants, food and beverage processing plants, etc.). In addition to this, ozone can also be used to treat wastewater containing surfactants and dye wastewater. Most of the compounds in these wastewaters have very high rate constants for direct reaction with ozone, and therefore, ozone is expected to be the oxidant of choice for reducing or eliminating pollution in these wastewaters. Advanced oxidation techniques (biological + O3 oxidation) can also be used; to improve the biochemical properties of wastewater.

  Shandong Zhiwei Environmental Protection Technology Co., Ltd. as a professional ozone equipment manufacturer. After 21 years of unremitting efforts, in the non-homogeneous ozone ozonation catalytic oxidation method. A major breakthrough has been achieved, which can increase the production of light radicals up to "300%, significantly enhancing the oxidation capacity of ozone. The redox potential of light radicals is higher (2.80V), and the reaction with organic matter is not selective and the reaction speed is fast, which can better remove the organic matter from wastewater.
  The catalyst surface and internal cavities can adsorb and enrich the ozone in the water, which increases the local ozone concentration and increases the conversion efficiency of ozone-generated light radicals through the catalytic effect, which greatly increases the concentration of light radicals, resulting in significant reaction effect, faster reaction speed and more complete degradation of organic matter.


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