Rapid reaction time, typically treating general industrial wastewater within half an hour to several hours.
A broad range of organic pollutants, such as those containing structures like perfluorinated, carbon double bonds, nitro, and halogenated groups, are effectively degradable.
Process is simple, has a long service life, requires low investment, is easy to operate and maintain, has low operation costs, and offers stable treatment effects. 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 need to be replaced; they can be directly added without activation.
Wastewater treated with micro-electrolysis forms native ferrous or iron ions in the water, which exhibit superior flocculation properties compared to conventional coagulants. No additional coagulants like ferric salts are needed. It boasts a high COD removal rate and does not cause secondary pollution to the water.
Excellent coagulation effect, high chroma and COD removal rates, while significantly enhancing the biodegradability of wastewater.
This method achieves the effect of chemical precipitation for phosphorus removal and can also reduce heavy metals.
For high-concentration organic wastewater treatment projects that have been completed but do not meet standards, this technology can be used as pretreatment for the wastewater from these existing facilities. It enhances the biodegradability of the wastewater while degrading COD, ensuring stable and compliant effluent discharge after treatment. Additionally, the treated wastewater can undergo further deep treatment through micro-electrolysis or a combination of micro-electrolysis and biological filter bed processes.
