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Advanced Oxidation Module Electrolyzer ME21424

Advanced oxidation module electrolyzer ME21424, With two sets of advanced electro oxidation water treatment modular Unit 724 and one set of PP modular sink. Module electrolyzer ME21424 is a superb wastewater electrolytic electrolyzer cell for organic wastewater treatment at pilot scale. Boromond team managed to combine electrolytic treatment of organic wastewater with our modular treatment unit and electrolytic cells, modular sinks together to maximum removing efficiency over refractory organic pollutants in industrial effluents.

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Advanced Oxidation Module Electrolyzer Cell ME21424 for Greener Organic Wastewater Treatment Solution

Discover features, parameters, mechanisms, and typical applications of advanced electro oxidation module electrolyzer cell ME21424 and how sustainable advanced oxidation processes for wastewater treatment solutions tackle the challenges originates from recalcitrant organic compounds in industrial and commerical effluents and advanced oxidation processes revolutionize water treatment industry via pilot scale onsite organic pollutants degradation.

Introducing Advanced Oxidation Module Electrolyzer Cell ME21424

Module electrolyzer cell ME21424 is one of the first few commercially available electrolyzer cells/electrochemical electrolyzer systems in the market to reform the water treatment and management industry, ME21424 employs two sets of modular unit MU724 and one set of PP modular sink.                                                                                                                                                                                                                    Treatment modular units include several groups of electrode assembly made of boron doped diamond electrodes and titanium electrodes. The content will introduce unique working mechanism, structures of module electrolyzer ME21424. 

Working Mechanism of Advanced Oxidation Module Electrolyzer Cell ME21424:

Advanced oxidation processes technology application for wastewater treatment is how the advanced oxidation module electrolyzer cell ME21424 functions as one of the major commerically available pilot scale EO treatment system within the market.

Boron doped diamond electrode exhibits the largest electrochemical potential window amongst all electrode materials, and remarkable low background current, with unmatched chemical and dimensional stability, boron doped diamond electrode become the ideal electrode material for electrochemical generation of reactive oxygen species such hydroxyl radicals which demonstrate strong electrochemical oxidation pontential and non-selective mineralization of organic compounds.                                                                                We developed module electrolyzer cell employs boron doped diamond electrodes as the core component, with continuous degradation of recalcitrant organic compounds in mind, advanced oxidation wastewater treatment processes could be conducted under normal temperature and pressure conditions.    

Schematic diagram ofthe BDD potentialwindow
Boron Doped Diamond Electrode Potential Window And Current
Comparison With Conventional Electrode Materials
Boron doped diamond electrodes excels in electrochemical generation of hydroxyl radicals

Boron doped diamond electrode has the widest electrochemical potential window amongst electrode materials, which means a much wider cathodic and anodic potential window lead to higher overpotential for oxygen evolution, increase electrochemical generation of hydroxyl radicals, with remarkable low background current, unmatched chemical and dimensional stability, boron doped diamond electrode become the ideal electrode material for applications of advanced oxidation processes of wastewater treatment.

BDD Electrolysis - Schematic diagram ofelectrocatalytic oxidationtechnology
Schematic Diagram and Mechanism of Advanced Oxidation Processes Oxidation Technology (Direct & Indirect Oxidation In Electrolyte and On the Surface of Boron Doped Diamond Electrode)
Electrochemical Advanced Oxidation Processes Via Boron Doped Diamond Electrode Electrolysis

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)

*Potency of oxidizing agents: ranking by electrochemical oxidation pontential(EOP) and EOP relative to Chlorine
OH radicals are recognized as one of the most potent oxidants in existence.

Hydroxyl radical is one of most active oxidizing agents, and it presents non-selective mineralization toward oxidizable molecules for its high electrochemical oxidation potential.            Hydroxyl radicals could decompose organic compounds with no concentration, hydroxyl radicals mineralize the vast majority of organic pollutants, especially non-biodegradable compounds such as antibiotics, steroids, BTEX, PCBs, PAHs, APIs, etc. It’s an eco oxidizing agents, as hydroxyl radicals naturally decompose into water (H2O) and oxygen (O2), without leaving behind any harmful materials.

Explore More About Electrochemical Wastewater Treatment via Boron-Doped Diamond Electrode Electrolysis

BDD Electrolysis

Advanced Oxidation Module Electrolyzer Cell ME21424 Structures

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Structures of Module Electrolyzer Cell ME21424

Advanced oxidation module electrolyzer cell ME21424 come with two sets of advanced oxidation treatment module unit MU724, both sets are installed within the cell, and equiped with modular sink, and bracket.

advanced oxidation module electrolyzer me21424 top view
advanced oxidation module electrolyzer me21424
Advanced Oxidation Module Electrolyzer Scale Up

Scale-up of advanced oxidation treatment system is critical to the practical application of electrochemical treatment in refractory organic wastewater treatment in full-scale.
Under certain operating conditions and better anode material such as boron doped diamond electrode, and leveraging our professional experience from previous projects and advanced oxidation treatment products, successfully scaled-up electorlyzer cell managed to reduce chemical oxygen demand (COD) of wastewater massively in hours, it desmonstrated much higher performances on organic pollutants removal efficiency.

Electrolyzer cell ME21424 is very promising in typical refractory organic wastewater treatment.

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Key Features of Advanced Oxidation Module Electrolyzer ME21424
Versatile Organic Pollutant Removal Efficiency

Advanced oxidation module electrolyzer ME21424 is engineered for pilot scale thorough removal of organic pollutants thanks to the electrode assembly made of boron doped diamond electrodes and titanium electrodes.

As we mentioned above, boron doped diamond electrode have the widest electrochemical potential window, it could place much higher potential window between cathode and anode, which lead to higher overpotential for oxygen evolution, and eventually increase efficiency of electrochemical generation of hydroxyl radicals and other oxidizing agents.

With an oxidizing agent with second highest electrochemical oxidation pontential, Hydroxyl radicals accomplish rapid and complete oxidation of refractory organic pollutants, transform them into carbon dioxide and water. Organics and nitrogenous compounds are efficiently removed through electrochemical oxidation process.

With multiple electrode assembly and modular unit installed, advanced oxidation module electrolyzer cell ME21424 demonstratesremoval efficiency toward versatile organic pollutants such as:

Remediation of total organic carbon (TOC)

Chemical oxygen demand (COD)

Total ammonia nitrogen (TAN)

Total nitrogen

Active Pharmaceutical Ingredients (APIs),antibiotics, steroids from pharmaceutical sectors

BTEX,Phenols, TOC, and TPH from petrochemical industries

Typical organic pollutants from lithium-ion battery manufacturing and recycling businesses such as Dimethyl carbonate (DMC), Ethylene carbonate (EC/C3H4O3), Ethyl Methyl Carbonate (EMC), Diethyl carbonate (DEC/C5H10O3) and etc.

With remarkable treating capability and unparalleled removing efficiency to eliminate persistent and bio-refractory organic contaminants, advanced oxidation module electrolyzer cell ME21424 sets a new standard for wastewater treatment versatility. It is the ideal equipment for applications of advanced oxidation processes of wastewater treatment to treat bio-refractory organic wastewater, especially those from industrial effluents, an alternative approach to replace conventional treatment methods such as biological.

Chemical Free Advanced Electro-Oxidation Treatment

Advanced oxidation module electrolyzer cell ME21424 distinguishes itself by employing modular unit with boron doped diamond electrode assembly for advanced electrochemical oxidation of wastewater treatment.

Unlike Fenton, there is no need to add catalyst, no challenge with optimization of process parameters, what is more, there is no need for adding of extra hazardous chemicals to achieve optimal degradation efficiency.

Cost-efficient electrolytes in minimal volumes drive this clean and effective process, significantly reducing operational costs and addressing concerns related to chemical handling, storage, and possible environmental impact.

Pollution-Free Contaminant Solution

Embracing an inherently "clean" electrochemical process, this electrolyzer cell produces no secondary pollution or harmful byproducts. The reaction products are fully oxidized forms of targeted organic pollutants, ensuring an environmentally friendly and sustainable wastewater treatment solution.

Inherent Design Simplicity and Operation

Advanced oxidation module electrolyzer cell ME21424 is designed to conduct electrochemical oxidation water treatment in water treatment facilities and manufacturing sites, with modular treatment units and flow cell, modular sinks, brackets, and pipes, power outlet combined, customers can conduct onsite water treatment by connecting the electrolyzer cell to current treatment equipments and applying electric current, right on arrival, no catalyst or chemicals required, no sludges or solids generated as within chemical or biological processes.

Given the unparalleled chemical and dimensional stability of premium quality boron doped diamond electrode, there is way less chance of fouling, which simplified operation and require less maintenance.

Advanced Oxidation Module Electrolyzer ME21424 Specifications
advanced oxidation module electrolyzer me21424 right view

Electrode Assembly & Modular Unit:                                                          Electrolyzer cell ME21424 employs two sets of modular unit MU724, each modular unit has seven piecs of boron doped diamond electrodes with silicon substrate, and eight pieces of titanium electrodes.                                                                                                

Electrode Assembly Parameters:                                                      Anode Material: Boron doped diamond electrode                      Anode Dimensions: 240*130*3 mm                                                            Anode Quantity: Fourteen pieces                                                            Cathode Material: Titanium Electrode                                                    Cathode Dimensions: 324*150*1.5 mm                                                    Cathode Quantity: Sixteen pieces    

Flow Cell:                                                                                                          Overall Dimensions: 960*360*450 mm                                         Sealed Active Area: Up to 8400 cm2                                                        Input Power:DC 500A /20V                                                                      Current Density:  55-100 mA/cm2                                                              Net Weight: 65 kg                       

Download Electrolyzer Cell ME21424 Brochure
Applications of Advanced Oxidation Module Electrolyzer Cell ME21424

Based on expertises of boron doped diamond fabrication capabilities & years of experiences wiht advance electrochemical oxidation process water and wastewater treatment technology, the advanced oxidation module electrolyzer cell ME21424 is ideal for a wide range of wastewater treatment applications, including:

Industrial Effluent Treatment

Module electrolyzer cell ME21424 is one of our modular water and electro-oxidation wastewater treatment solutions designed for industries and businesses, manufacturers dealing with recalcitrant organic chemicals in their effluents.

Check the major organic pollutants we have applied advanced electrochemical oxidation processes treatment technology within treatability assessment, treatment methods evaluations and previous projects:

Active Pharmaceutical Ingredients (APIs) and process water from pharmaceutical manufacturers.
Special chemicals such as pesticides,herbicides and insecticides, typical refractory organic pollutants found in agricultural wastewater.
Hydrophilic & Hydrophobic organic pollutants.
COD degradation to extremely low level.
Other hazardous organic compounds.

ME21424 encompasses:
Organic industrial effluents/wastewater treatment Safe water reusage
Environment regulation compliance Reduce wastewater incineration
No sludge/solid

Distributed Wastewater Treatment Solutions

With mobility and compatibility in mind within the design and development processes, module electrolyzer ME21424 is set to be operating in stand-alone mode, with its compact design, the scalable electrochemical oxidation treatment electrolyzer cell could be installed and ready to operate within limited spaces in water treatment facility and manufacturing sites, therefore people can scale advanced oxidation treatment system up for increasing demands.

Environmental Remediation Projects & Explore Complete Bio-refractory Pollutants Removal

ME21424 could be a part of environmental remediation projects as advanced electrochemical oxidation processes represents a fundamental change in addressing organic pollution concerns. Unlike conventional wastewate treatment methods, this innovative technique relies on electrochemical reactions to decompose organic compounds at the molecular level, ensuring a thorough and lasting degradation. ME21424 is a new approach to a sustainable treatment as it minimizes the use of toxic chemicals, therefore reducing the environmental impact associated with remediation efforts.
Advanced electrochemical oxidation processes emerge as an alternative wastewater treatment methods to replace conventional biological treatment as AOP could remove most of the bio-refractory organic pollutants from effluents.

Get A Free Water Profile Analysis And Treatability Check Explore Recommended Water Treatment Equipment Solution

Free Water Analysis

Relevant Products of Advanced Oxidation Module Electrolyzer ME21424

As one of the major manufacturers of boron doped diamond electrode, Boromond always improve research and development of boron doped diamond electrode and field application of this superb electrode material, especially in organic wastewater treatment. Module electrolyzer cell ME21424 are results of research and component developments, process parameters optimizations, feasibility analysis, and scalbility exploration, we manage to bring advanced electrochemical water treatment systems and solution at differnt scales to cater to different markets and industries.                                                                                                                                                   Explore boron doped diamond electrode and trial scale, bench scale water treatment modules, pilot scale water treatment systems designed to meet specific experimental needs, and commerically available solutions with already achieved results.

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