Boron doped diamond electrode (BDD electrode)
An incomparable effect of electrolytic wastewater!
Boron doped diamond electrode (BDD electrode) excel in treating wastewater with high salinity, high concentration, biochemical resistance, high toxicity and strong acids and bases.
Still struggling with complex wastewater?
Electrochemical advanced oxidation processes technology could treat bio-fractory organic wastewater from industries such as pharmaceutical, pesticide, special chemical, petrochemical, coking, smelting, printing and dyeing, paper making, tanning, wine making, waste leachate, etc.
Difficult to biodegrade
Low B/C ratio. DMF, Mercaptothiazoline etc..
High Toxicity
Cyanide, Pyridine and Pyrimidine analogues etc.
High Salinity
A large number of Na+, Ca2+ and other dissolved inorganic salts
High Concentration
High pollutant content, high chemical oxygen demand (COD)
It's Our Goal To Support Your Treatment Process Development, Contact Boromond Technical Support Now!
Boromond specializes in providing customized industrial wastewater treatment solutions for manufacturers and sectors dealing with bio-refractory organic chemicals in their effluents.
Our services encompass:
Industrial wastewater treatment
Facilitating safe water reuse
Ensuring compliance with discharge regulations
Reducing the need for wasteful wastewater incineration
Welcome to Boromond, innovation expert of refractory industrial effluents treatment
Boromond is committed to innovation and sustainability, aiming to assist industries in adopting cleaner and more environmentally responsible practices.
Boromond specializes in the design and development of boron doped diamond (BDD) electrode and electro oxidation water treatment systems that are based on advanced oxidation processes technology.
Now, Boromond offers advanced electro oxidation technology to solve your complex wastewater problems!
The application of boron doped diamond electrode sheets is being studied all over the world. This is a promising technology for the treatment of highly concentrated/difficult to biochemically degrade organic wastewater
01.
The best anode material
Very high oxygen evolution potential and the widest electrochemical window.
02.
Economical and efficient
Small footprint; normal temperature and pressure; extremely resistant to acid and alkali.
03.
More environmentally friendly
No reagents need to be added. The hydroxyl radicals will realize the oxidation reaction.
About Boromond
Innovative Advanced Oxidation Treatment Processes Technology Solution Provider
As one of the major manufacturers and suppliers of boron doped diamond electrode and advanced oxidation water treatment products, Boromond dedicated to research and development, production of boron doped diamond (bdd) electrode and advanced electro oxidation water treatment systems based on our years of experience with boron doped diamond fabrication, component design, treatment process evaluation and assessment, and engineering to tackle the challenges with different sectors, with deep comprehension of electrochemical advanced oxidation processes, and combine application of advanced oxidation processes to industrial wastewater treatment solution to remove bio-refractory organic compounds, and comply with discharge regulations.
Boron Doped Diamond Electrode And Industrial Wastewater Treatment Equipments
As one of the major manufacturer and supplier of boron doped diamond electrode, it’s our mission is to push the boundaries of water treatment technology by utilizing the remarkable properties of boron doped diamond electrode (BDD electrode). We’re dedicated to designing and developing highly efficient advanced electro oxidation water treatment systems to revolutionize the way industries address industrial wastewater treatment challenges, with constant component design and enhancement, treatability testing, close projects monitoring. With deep understanding of water treatment and advanced electro oxidation processes technology, we developed electrolytic cells, electrolyzers, electro oxidation equipment for organic wastewater treatment, and supply oxidation treatment equipments at commercial scale to efficient and environmentally responsible practices in industrial wastewater treatment. Choose from permanent or portable treatment systems. Find the advanced oxidation treatment product that fits your needs!
Electro Oxidation Treatment Projects & Case Studies
By delving into these case studies and projects, we provide abundant data and information on the successful application of BDD electrodes and wastewater treatment systems across diverse industries. Boromond is committed to driving sustainability, environmental stewardship, and economic viability through innovative water treatment solutions. Join us in revolutionizing the way we approach wastewater treatment, one case study at a time.
API Removal
Application of Boromond wastewater Treatment System Over Pharmaceutical Wastewater To Remove Active Pharmaceutical Ingredient
Textile
Empowers specialty chemical manufacturers to degrading biocides, active ingredients, obstinate COD, and micropollutants.
Pesticides
Our water treatment equipment exceed at eliminating perilous organic chemical pollutants such as insecticides, herbicides, and pesticides.
Petroleum & Gas
Innovative tertiary treatment solution tailored to the challenge of addressing recalcitrant and hazardous organic compounds, such as BTEX and phenols.
Free Industrial Wastewater Consultation From Wastewater Treatment Experts
At the forefront of water treatment technology, Boromond's industrial water treatment solutions harness proprietary electrochemical oxidation techniques based on application of boron doped diamond electrode (bdd electrode). Our commitment extends to delivering resilient and highly efficient solu tions for the removal of organic contaminants from water sources. Whether it's tackling perilous micropollutants such as APIs and pesticides, or addressing the persistent COD (chemical oxygen demand) and troublesome coloration, we've got you covered. Find out how we bring solutions to remove refractory organic polluants within complex industrial effluents.