Titanium Anode for Electrocatalytic Degradation of Organic Pollutants

Substrate: ASTM Grade 1 Titanium
Coating: SnO₂-Sb₂O₅ mixed oxide
Current Density: 500–5000 A/m²
Temperature Range: 5°C to 80°C
Oxygen Evolution Potential: ≥1.9 V vs SHE
Coating Loading: 10–30 g/m²
Design Life: ≥3 years
Application: Electrocatalytic degradation of organic pollutants

Send Inquiry

Download

Product Description

What Is Titanium Anode for Electrocatalytic Degradation of Organic Pollutants and How to Choose the Right One for Your Industry?

In modern industrial wastewater treatment, removing persistent organic pollutants remains a major challenge. A Titanium Anode for Electrocatalytic Degradation of Organic Pollutants plays an important role in advanced electrochemical oxidation systems. This type of Ru+Ir coated titanium electrode uses a titanium substrate coated with ruthenium oxide and iridium oxide to provide stable catalytic performance, excellent corrosion resistance, and long service life in aggressive environments.

The anode works through electrocatalytic oxidation. During electrolysis, strong oxidizing species form on the electrode surface and break down harmful organic compounds into smaller, safer substances. It effectively treats dyes, phenols, ammonia nitrogen, pharmaceutical residues, printing wastewater, chemical wastewater, and difficult-to-degrade industrial pollutants.

Choosing the right titanium anode depends on wastewater composition, conductivity, pH level, treatment capacity, operating current density, and expected service life. Mesh, plate, tubular, and customized electrode designs support different reactor systems and industrial needs.

At HY Ti-Ni Import & Export, we manufacture high-performance Ru+Ir coated titanium electrodes for industrial electrochemical applications. Our products deliver stable current distribution, high catalytic activity, low energy consumption, and excellent durability for long-term wastewater treatment systems.

Features of Titanium Anode for Electrocatalytic Degradation of Organic Pollutants

Superior Corrosion Resistance、Ultra-Long Service Life、High Electrocatalytic Activity & Efficiency、Eco-Friendly、Low Maintenance

Superior Resistance to Corrosion Damage

The titanium anode boasts outstanding anti-corrosion performance to withstand harsh acidic, alkaline and saline electrolyte environments for stable long-term operation.

Ultra-Long and Reliable Service Life

With stable coated active layers and robust titanium substrate, this anode achieves remarkably extended service cycles far exceeding conventional metal anode alternatives.

High Electrocatalytic Activity & Efficiency

Its specialized noble metal coating delivers excellent electrocatalytic performance, lowering cell voltage and improving overall electrolysis energy utilization efficiency.

Environmentally Friendly and Energy Saving

No harmful heavy metal dissolution occurs during electrolytic reactions, avoiding secondary pollution and complying with global environmental production standards.

Low Maintenance with Reduced Costs

Structurally stable with minimal electrode degradation in regular service, requiring few downtime checks and negligible spare part replacement costs.

Full Customization Solutions to Meet Your Specific Needs!

Customization Available (Size, Material, Coating, Shape, Lifespan & Installation)

Titanium Anode for Electrocatalytic Degradation of Organic Pollutants can be fully customized according to industrial requirements:

HY Ti-Ni Import & Export provides customized Ru+Ir coated titanium electrodes for different wastewater treatment systems.

Customized Size — Diameter, thickness, width, and length available.

Customized Material Grade — Titanium Gr1 or Gr2 substrate options.

Customized Coating Formula — RuO₂–IrO₂ ratio adjustment for performance optimization.

Customized Shape — Mesh, plate, tubular, rod, ribbon, or special geometry.

Customized Current Density — Based on treatment efficiency requirements.

Customized Coating Thickness — Enhanced catalytic activity and durability.

Customized Lifespan — 3–15 years according to operating conditions.

Customized Connection Method — Bolt, cable, flange, welded terminal.

Customized Surface Design — Expanded mesh or precision perforation.

OEM & ODM Service — Technical drawings and project customization supported.

Why Choose Titanium Anode from HY Ti-Ni Import & Export?

At Hengyi Ti-Ni Import Export, we specialize in titanium-based electrochemical materials with strong engineering capability in anode system design.

HY Ti-Ni Import & Export specializes in manufacturing durable Ru+Ir coated titanium electrodes for industrial electrochemical applications.

Professional titanium anode manufacturer from Baoji, China.

High-purity titanium substrate with strict quality control.

Advanced MMO coating technology for stable catalytic performance.

Excellent corrosion resistance in aggressive wastewater environments.

Long service life with reduced maintenance costs.

Flexible OEM and ODM manufacturing capabilities.

Customized engineering solutions for wastewater projects.

Fast production cycle and global export experience.

Strict testing before shipment for stable quality.

Responsive technical support for international customers.

Titanium Anode Purchase Guide: A Comprehensive Guide

Choosing the correct Titanium Anode for Electrocatalytic Degradation of Organic Pollutants directly affects treatment efficiency, operating cost, and equipment life. Buyers should first evaluate wastewater characteristics. Different pollutants require different electrocatalytic oxidation conditions. Wastewater conductivity, pH value, contaminant concentration, and operating temperature all influence electrode performance.

Second, determine the required anode structure. Mesh anodes suit large surface reactors. Plate anodes work well in compact electrochemical cells. Tubular anodes support pipeline systems, while customized electrodes fit specialized wastewater treatment equipment.

Coating selection also matters. A Ru+Ir coated titanium electrode offers strong catalytic activity, stable current efficiency, and excellent corrosion resistance for long-term operation. Coating thickness and loading should match system voltage and treatment requirements.

Service life is another important factor. High-quality MMO titanium anodes reduce downtime and replacement costs. Buyers should also confirm current density, installation method, and maintenance requirements before purchase.

HY Ti-Ni Import & Export offers customized solutions, technical support, and OEM manufacturing to help clients choose suitable titanium anodes for industrial wastewater treatment projects.

Purchase Guide

1. What is a Titanium Anode for Electrocatalytic Degradation of Organic Pollutants?
2. Main Technical Parameters of a Titanium Anode for Electrocatalytic Degradation of Organic Pollutants.
3. Specifications of a Titanium Anode for Electrocatalytic Degradation of Organic Pollutants.
4. Current Output of Standard Titanium Anode for Electrocatalytic Degradation of Organic Pollutants.
5. Applications of a Titanium Anode for Electrocatalytic Degradation of Organic Pollutants.
6. How to Purchase the Suitable Titanium Anode for Electrocatalytic Degradation of Organic Pollutants?
7. FAQ
8. Our Factory

Products Introduction

What Is Titanium Anode for Electrocatalytic Degradation of Organic Pollutants?

A Titanium Anode for Electrocatalytic Degradation of Organic Pollutants is an insoluble electrochemical electrode designed for industrial wastewater treatment systems. It uses a titanium substrate coated with ruthenium oxide and iridium oxide to generate strong oxidation reactions during electrolysis. The electrode helps degrade organic contaminants, dyes, pharmaceutical residues, ammonia compounds, and industrial wastewater pollutants. Compared with conventional treatment methods, a Ru+Ir coated titanium electrode provides higher electrochemical efficiency, lower chemical consumption, and stable long-term performance. It is widely used in chemical, textile, pharmaceutical, printing, electroplating, and municipal wastewater treatment industries.

Main Technical Parameters

Parameter	Typical Range
Base Material	Titanium Gr1 / Gr2
Coating Type	RuO₂–IrO₂ / Mixed Metal Oxide
Current Density	100 – 3000 A/m²
Operating Voltage	1.0 – 12.0 V
Working Temperature	0°C – 80°C
Wastewater Type	Organic / Chemical / Industrial
Coating Loading	6 – 15 g/m²
Design Life	3 – 15 Years
Installation Type	Reactor / Pipeline / Tank

Specifications

Type	Structure	Application
Mesh Anode	Expanded mesh design	Large wastewater reactors
Plate Anode	Flat sheet structure	Compact electrolysis systems
Tubular Anode	Cylindrical structure	Pipeline treatment systems
Rod Anode	Linear rod type	Precision electrochemical units
Custom System	OEM engineered design	Industrial wastewater projects

Cerrent output of Standard

Type	Current Output (A/m²)	Application Condition
Standard System	100 – 500	Low organic concentration
Medium Output	500 – 1000	General industrial wastewater
High Output	1000 – 2000	Heavy organic pollution
Industrial System	1500 – 3000	Chemical wastewater treatment
Customized System	Up to 3000+	High-efficiency degradation systems

Applications of MMO Titanium Anode

Be used in a wide range of industries.

Water Treatment Industry

Electroplating Industry

Chlor-Alkali Industry

Marine Engineering

Hydrogen Energy Industry

Mining and Metal Recovery

How to Purchase the Suitable Titanium Anode

Confirm Wastewater Composition — Identify organic pollutants and chemical properties.
Determine Treatment Capacity — Evaluate daily processing requirements.
Choose Proper Anode Structure — Mesh, plate, tubular, or rod design.
Select Suitable Coating — Ru+Ir coating for stable catalytic performance.
Check Current Density Requirements — Match electrochemical efficiency targets.
Evaluate Service Life — Reduce replacement frequency and maintenance cost.
Confirm Installation Method — Reactor, tank, or pipeline system compatibility.
Request OEM Customization — Special dimensions and technical drawings supported.
Verify Quality Standards — Ensure stable coating adhesion and durability.
Choose Reliable Supplier — Professional manufacturing experience matters.

FAQ

Q1: What is the main function of a Ru+Ir coated titanium electrode?

It helps degrade organic pollutants through electrocatalytic oxidation.

Q2: What industries commonly use this titanium anode?

Chemical, pharmaceutical, textile, electroplating, and municipal wastewater industries.

Q3: What shapes are available?

Mesh, plate, tubular, rod, ribbon, and customized structures.

Q4: How long does the electrode last?

Normally 3–15 years depending on operating conditions.

Q5: Can you provide OEM customization?

Yes. HY Ti-Ni Import & Export supports OEM and ODM production.

Q6: What coating is commonly used?

RuO₂–IrO₂ mixed metal oxide coating for stable performance.

Q7: Can the anode handle high-pollution wastewater?

Yes. Customized systems support high organic pollutant concentration treatment.

Our Factory

Water Treatment Anode | High Efficiency | Long Service Life | Eco-Friendly

Production site

State-of-the-art manufacturing for titanium anodes, precision coating and quality control.

Choseing titanium substrate	Substrate Cutting	Sandblasting	Pickling
Laser Cutting Configure Precious Metal	Coating	Sintering	Packaging

Workshop

Precision machining and coating workshop for titanium anodes.

Titanium anode coating workshop	Thermal decomposition sintering furnace workshop	Titanium mesh anode production area	Pickling/surface treatment process
Pickling/surface treatment process	Quality inspection workshop	Worker operation photos	Panoramic view of a clean production line

Quality inspection

Rigorous testing for coating adhesion, electrochemical performance, and durability.

Dimension Inspection	Coating Thickness Testing	Coating Adhesion Testing	Microstructure Analysis
Conductivity Testing	Corrosion Resistance Testing	Bond Strength Testing	Final Inspection & Packaging