Electro-Decolorization
Suitable for the pretreatment of high-concentration organic and dye wastewater, or the advanced treatment of biologically treated wastewater.
Objective: Improvement of biodegradability, COD degradation, and color removal
Strong oxidation capability, no need for iron salts, and low treatment costs.
Objective: Improvement of biodegradability, COD degradation, and color removal
Strong oxidation capability, no need for iron salts, and low treatment costs.
Electro-Fenton
Effective for the pretreatment or advanced treatment of refractory, toxic organic wastewater.
Based on advanced oxidation principles, it generates highly efficient, non-selective strong oxidants (·OH).
Simultaneous removal of COD, SS, and chroma
Small equipment footprint, low operational and maintenance costs, and no secondary pollution.
Based on advanced oxidation principles, it generates highly efficient, non-selective strong oxidants (·OH).
Simultaneous removal of COD, SS, and chroma
Small equipment footprint, low operational and maintenance costs, and no secondary pollution.
Electrocoagulation for Phosphorus Removal
Suitable for phosphorus-containing wastewater
Utilization of electrolysis to achieve multiple effects, including oxidation-reduction, coagulation, adsorption, and flotation.
High phosphorus removal efficiency, fast reaction, no need for additional chemicals, and simultaneous removal of COD and SS.
Utilization of electrolysis to achieve multiple effects, including oxidation-reduction, coagulation, adsorption, and flotation.
High phosphorus removal efficiency, fast reaction, no need for additional chemicals, and simultaneous removal of COD and SS.
DTAOP Ozone Catalytic Oxidation
The advanced ozone generation unit, paired with a range of specialized catalysts, delivers highly selective catalytic oxidation, making it widely applid to municipal wastewater tertiary treatment, industrial wastewater decolorization, reclaimed water reuse, and zero-discharge pretreatment.
Technical Features
High ozone utilization efficiency achieved through the use of proprietary catalysts.
Ozone is rapidly converted into hydroxyl radicals (·OH), which effectively break down organic pollutants into CO2 and HO, without generating secondary pollution.
High COD removal rate, significantly improving the biodegradability of wastewater.
Widely applied to wastewater treatment, concentrated brine deep treatment, and pretreatment for reclaimed water reuse.
Ozone is rapidly converted into hydroxyl radicals (·OH), which effectively break down organic pollutants into CO2 and HO, without generating secondary pollution.
High COD removal rate, significantly improving the biodegradability of wastewater.
Widely applied to wastewater treatment, concentrated brine deep treatment, and pretreatment for reclaimed water reuse.
