Rapid reaction time, typically treating general industrial wastewater within half an hour to several hours.
The range of organic pollutants treated is extensive, including substances containing structures such as perfluorinated, carbon double bonds, nitro, and halogenated groups, which are difficult to degrade, all showing excellent degradation effects.
Process simple, long lifespan, low investment cost, easy operation and maintenance, low operation cost, stable treatment effect. Only a small amount of micro-electrolysis reagents is consumed during the treatment process. The micro-electrolysis agents only need to be added periodically and do not require replacement; they can be directly added without activation.
Wastewater treated through micro-electrolysis forms native ferrous or iron ions in the water, which exhibit superior flocculation properties compared to conventional coagulants. No additional coagulants like iron salts are needed, resulting in high COD removal rates and preventing secondary water pollution.
Excellent coagulation performance, high color and COD removal rates, while significantly enhancing the biodegradability of wastewater.
This method achieves chemical precipitation for phosphorus removal and also serves to reduce heavy metal content.
For high-concentration organic wastewater treatment facilities that have been constructed but have not met the standards, using this technology as pretreatment for the wastewater from these facilities can improve the bio-degradability of the wastewater while degrading COD, ensuring that the treated effluent meets the standards for stable discharge. Furthermore, advanced treatment can be performed on the biological effluent through processes such as micro-electrolysis or a combination of micro-electrolysis with a biofilter bed.
.The individual units of this technology can be used as standalone treatment methods, and also serve as pretreatment processes for biological treatment, facilitating sludge settlement and biofilm formation.
