Evoaeo excels in the design, fabrication and manufacturing of BDD electrode customized for electrochemical water treatment challenges.
Our electrochemical water treatment application ranges from tertiary polishing to pre-treatment prior to conventional biological treatment to increase bio-degradability, yes, electrochemical advanced oxidation processes treatment is designed to treat complex wastewater, especially industrial effluents with high level of organic compounds.
BDD electrodes excel in tackling a range of water treatment challenges, such as refractory organic substance remediation, chemical oxygen demand (COD) reduction, total organic carbon (TOC) removal, and the elimination of total ammonia nitrogen (TAN) and total nitrogen from contaminated water sources. But their capabilities don’t stop there.
Still struggling with comlex organic wastewater and industrial effluents? Boron doped diamond BDD electrode is recognized as the best electrode material available for electrochemical treatment of industrial effluents, especially those with huge amount of recalcitrant organic pollutants, high toxic, high salinity, highly concentrated wastestream.
Explore which type of industrial effluents was treated by employing boron doped diamond electrode, types of wastewater could be treated, treatment/degradation results, and mechanism of electrochemical oxidation treatment, followed by professional electrochemical oxidation water solutions.
Petrochemical Wastewater Treatment Application With Boron Doped Diamond Electrode
Massive increasing of vehicles and industrial development, vivid business activities created larger demand on oil and gas, oil and gas industries are much more active to meet the rising global petro and gas consumptions, booming gas and oil extraction consumes larger amount of water and generate much more wastewater, boron doped diamond electrode was applied to conduct onsite complex wastewater and water stream treatment aimed to degrade huge amount of organic compounds such BTEX, Phenols, TOC, and TPH, these are typical major recalcitrant pollutants from the oil and gas industry.
Application of Boron Doped Diamond Electrode For Pharmaceutical Wastewater Treatment
Pharmceutics and medicines are criticial for human and animal health, rising demand of pharmaceutics all around the globe expedited manufacturing scale and efficiency, huge amount of complex pharmaceutical wastewater was generated during the manufacturing process, usually this type of wastewater contents highly concentrated, toxic active pharmaceutical ingredient (APIs), antibiotics, steroids and etc, these organic compounds are microbial toxicity, and hard to biodegrade.
Electrochemical advanced oxidation processes using boron doped diamond electrode is employed to degrade pharmaceutical wastewater directly combined with other treatment methods, or installed as pre-treatment to increase biodegradability.
Application For Lithium-ion Battery Production And Recycling Wastewater Treatment
Increasing demand over electric vehicles requires larger amounts of lithium-ion batteries, Lithium-ion batteries are quite promising and greener method for energy source while compared with traditional fossil fuels, however manufacturing process of lithium-ion batteries in industrial scale are one of the major sources of complex wastewater, especially high salinity, high concentrated organic compounds such as N-methylpyrrolidone, ammonium, carbon powder, sodium sulphate, organic lipids, heavy metals, and organic compounds. Boron doped diamond demonstrated unmatched mineralization capability toward refractory organic pollutants in lithium battery manufacturing and recycling wastewater, emits great results as tertiary treatment, no or few sludges.