Why Choose BDD electrode for wastewater treatment?
Boron Doped Diamond BDD Electrode for Wastewater Treatment
Exploring Applications of Boron Doped Diamond BDD Electrode for Wastewater Treatment
There were lots of discussion about the applications of boron doped diamond BDD electrode for different industries and scenarios, we unveil more details about boron doped diamond BDD electrode ‘s application for wastewater treatment, especially how boron doped diamond BDD electrodes remove persistant organic pollutants or increase biodegradability of wastewater:
Boron Doped Diamond BDD Electrode for Wastewater Treatment: Advanced Oxidation Processes
We published abundant contents about boron doped diamond electrode, the section below is about utilization of boron doped diamond BDD electrode in wastewater treatment by adopting advanced oxidation processes, and how does boron doped diamond electrode excels in water treatment.
Introduced in 1970, electrochemical oxidation technology has gained significant attention in wastewater treatment and disinfection due to its environmentally friendly and efficient characteristics. When coupled with flocculation, biochemistry, membrane treatment, and other technologies, it offers remarkable advantages and promising prospects for the deep purification and treatment of highly concentrated refractory wastewater.
Utilizing BDD as the electrode anode material, electrochemical oxidation technology can effectively degrade organic compounds through direct and indirect oxidation processes. Direct oxidation involves the removal of organic matter by adsorbing organic pollutants onto the anode surface through electron transfer. This process can further be categorized into electrochemical conversion and electrochemical combustion based on the degree of oxidation. Indirect oxidation, on the other hand, involves the removal of organic pollutants by generating active intermediates or high oxidizing metal oxides on the anode surface.
Boromond leverages electrode modules based on BDD electrode material as the core, enabling the continuous degradation of organic pollutants under normal temperature and pressure conditions. This process eliminates the need for chemical additives, relying solely on electricity consumption with minimal material usage. The simplicity and efficiency of this approach offer significant advantages. Boromond has developed test modules, trial modules, and integrated wastewater treatment modules to scale up electrochemical oxidation wastewater treatment to an industrial level. These sustainable and highly efficient electrochemical treatment equipment solutions contribute to effective and environmentally-friendly wastewater management.
OH radicals are recognized as one of the most potent oxidants in existence.
Water, being a polar molecule, exhibits a positive and negative end. During the process of water electrolysis, the positively charged hydrogen atoms are attracted to the negatively charged electrode (cathode), while the negatively charged oxygen atom is drawn towards the positively charged electrode (anode). As a result, the water molecules dissociate into their respective ions: hydrogen ions (H+) at the cathode and hydroxide ions (OH-) at the anode.
The water electrolysis process can be summarized by the following half-reactions:
At the cathode: 2H+ + 2e- -> H2 (hydrogen gas)
At the anode: O2 + 2H2O + 4e- -> 4OH- (oxygen gas)
Why Boron Doped Diamond BDD Electrode for Wastewater Treatment?
Boron doped diamond (BDD) electrode performed way better oxygen evolution potential which lead to stable and highly efficient electrochemical generation of hydroxyl radicals and other oxidizing agents, these oxidizing agents play immortant roles in the electrolysis processes, remove refractory organic compounds to treat waste effluents.
Wastewater Electrolysis & BDD Electrode for Wastewater Treatment
Mechanism of this new electrode for advanced oxidation processes treatment of wastewater, especially complex industrial effluents with high concentration, recalcitrant organic compounds.
01
Ideal Electrode
BDD electrode got high oxygen evolution potential and wider electrochemical window among all electrodes.
02
Efficient
Superb organic pollutant removal efficiency, resistant to acid and alkali, less fouling, easy to operate and maintenance.
03
Eco-friendly
No extra toxic chemicals need to be added to the electro oxdiation processes. Hydroxyl radicals mineralize organic compounds.
We spent years on research and synthesis of electrode materials for water and wastewater treatment, especially boron doped diamond BDD electrode, and mixed metal oxide MMO electrode, and then electro oxidation water treatment products, on site electro oxidation water treatment testing and countless experiments on organic pollutants emit result about treatability and removal efficiency on various persistant organic compounds, datas and details brought by previous projects within different industries help our team have better estimation, calculations, and treatment process assessments over performance, operation parameters, flow rate, and energy efficiency, and etc.
Advanced oxidation water treatment products to treat complex wastewater from different industries, our contents mainly covers lithium-ion battery recycling, petrochemical refinery wastewater, paper and pulp wastewater treatment, textile industry wastewater treatment, and water treatment plants.
character of low resistance, good thermal diffusivity, higer Oxidating temperature and excellent character of semiconductor.
An ideal anode material for electrochemical applications, epsecially electrochemical oxidation
BDD Engineer Project Equipment. The design is based on the water sample and the site environment.
Wastewater Treatment Case Studies
Boromond Dedicated To Develop & Design water treatment system, find out cases and projects with abundant data and information:
Explore Case Studies On Degradation Of Refractory Organic Compounds In Oil & Gas Industry
Have Questions Regarding BDD Electrode For Wastewater Treatment?
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