Why Choose boron doped diamond electrode for wastewater treatment?
Boron Doped Diamond Electrode for Wastewater Treatment
Unveiling Advanced Applications of Boron Doped Diamond Electrode for Wastewater Treatment
We discussed about typical applications of boron doped diamond electrode, in this section, we discuss details about electrochemical application of boron doped diamond electrode for wastewater treatment, we will discuss about the mechanism, princles, and methods to accomplish complete removal of organic compounds:
Boron Doped Diamond Electrode Used in Electrochemical Water Treatment
Boron doped diamond electrode is an excellent electrode material used in electrochemical water treatment, wastewater remediation and disinfection via boron doped diamond electrode are proven to be efficient and environmental friendly, via various research, testing, treatability assessment in electrochemical advanced oxidation processes (EAOPs).
How Boron Doped Diamond Electrode Functions for Water Treatment ?
Schematic Diagram of Advancd Electro Oxidation Processes Technology Application via Boron Doped Diamond Electrode For Wastewater Treatment (Direct And Indirect Oxidation Processes Explained)
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 boron-doped diamond 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.
Yes, you guessed right, boron-doped diamond (BDD) electrodes are non-active electrode materials thanks to the unique SP3 structure. has a high oxygen evolution overpotential, meaning it requires a significantly large potential to initiate the oxygen evolution reaction (OER), making it particularly useful for applications where a high level of oxidation is needed without unwanted side reactions due to its exceptional stability and wide potential window.
Oxygen evolution overpotential (V vs. SHE) comparison between conventional electrode materials and boron doped diamond electrode demonstrated that Titainium/Boron doped diamond electrode performed much higher oxygen evolution overpotential and oxidation power than MMO electrode and conventional electrode material.
Oxygen Evolution Potental And Background Current Comparison Chart Between Boron Doped Diamond Electrode And Conventional Electrode
Advantages of boron doped diamond electrode for wastewater treatment: largest oxygen evolution potential and highest hydroxyl radicals generation efficiency amongst electrode materials
Boron doped diamond electrodes offering an expansive potential window in aqueous solutions and impressively low background currents. Testing results indicated boron doped diamond electrode create much wider potential window between anode and cathode than conventional electrode materials. Higher oxygen evolution potential brought by wider potential window boosts hydroxyl radical productivity, hydroxyl radicals perform non-selective degradation of majority of refractory organic compounds, boron doped diamond electrode emits unmatched electrochemical removal efficiency over organic compounds via water electrolysis. That explains why choose boron doped diamond electrode for treating complex wastewater, especially industrial effluents with huge amount of recalcitrant organic compounds.
Hydroxyl radicals can be electrochemically generated on the surface of boron doped diamond electrode during this process, dismantling H2O to generate hydrogen atom and oxygen, these two are combined to form hydroxyl radicals. Hydroxyl radicals are the second most active oxidizing agents. Hydroxyl radicals react rapidly with many organic compounds through series of interaction. They performed strong chemical deterioration and released constant organic molecules mineralization, breaking these compounds into carbon dioxide, water, and etc.
Find Out How Boron Doped Diamond Electrode Electrolysis Be The Core Material In Electrochemical Application Of Boron Doped Diamond Electrode for Wastewater Treatment.
Evoaeo explains the foundamental conept and basical mechanism about electrochemical application of boron doped diamond electrode for water treatment, how direct and indirect redox/oxidation processes resolve especially complex industrial effluent with high concentration, bio-recalcitrant organic compounds.
01
Best anode material
Boron doped diamond electrode got extremely high oxygen evolution potential and the widest 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 chemicals need to added to the advanced electro oxdiation processes. Hydroxyl radicals mineralize majority of refractory organic compounds.
Explore More About Boron doped diamond Electrode Electrolysis
How Boron Doped Diamond Electrode Electrolysis Work?
Explore Organic Compounds Removal Efficiency via Application of Boron Doped Diamond Electrode For Wastewater Treatment To Degrade Complex Organic Effluents
We constantly explore advanced electrochemical oxidation treatment of wastewater, especially complex ogranic effluents with refractory organic compounds by leveraging electrochemical oxidation water treatment system based on boron doped diamond electrode as its core, enabling the continuous degradation of organic pollutants under conventional normal temperature and pressure conditions. With applications of advacend electrochemical oxidation treatment technology which realize continuous removal of organic compounds under regular temperature and pressures, AOP treatment processes does not require additions of extra chemicals, relying solely on electricity with minimal material usage. Check charts below to explore organic compounds removal efficiency and datas of boron doped diamond electrode, information we collected from experimental test, treatability evaluations, and previous projects:
Discover Our Advanced Simplified And Efficient Electrochemcial Oxidation Treament Solution: Boron Doped Diamond Electrode for Wastewater Treatment In Different Industries
Boron doped diamond electrode degrades phenols and other organic compounds primarily originate from petrochemical industry.
Advanced electrochemical oxidation (AOP) via boron doped diamond electrode have demonstrated great results in removal complex organic compounds from petrochemical industries, for instance, BTEX,Phenols, TOC, and TPH.
As one of the leading suppliers of electrochemical oxidation water treatment systems, we designed and developed advanced oxidation water treatment components and equipments to tackle the challenges from the petrochemical industry, given their compact design and super efficiency, electrochemical oxidation water treatment system based on boron doped diamond electrodes could be employed to tackle water streams from cooling tower, processing and refining process wastewater.
Explore Electro Oxidation Solutions for Petrochemical Industries.
Pharmaceutical intermediates, such as 17β-estradiol, are primarily sourced from pharmaceutical and chemical enterprises.
Rising demand of pharmaceuticals all around the world expedited pharmaceutical manufacturing, and during the manufacturing processes generated huge amount of complex wastewater with high concentration,high salinity, toxic Active Pharmaceutical Ingredients (APIs), antibiotics, steroids and etc. Advanced electro oxidation (AOP) demonstrated removing efficiency toward recalcitrant organic pollutants from pharmaceutical industries, and boron doped diamond electrodes are one the core part of electrochemical oxidation treatment methods. Evoae offers secure and easily maintained wastewater treatment solutions designed to fit the pharmaceutical industry.
Explore Electro Oxidation treatment Solutions for Pharm Sectors