Titanium electrodes For Sewage Treatment

Product Overview

Titanium anodes are advanced electrochemical electrodes widely used in wastewater treatment and water resource recycling systems.

Wastewater treatment generally includes three main technologies:

1. Physical Treatment Methods

Used to remove insoluble substances without changing chemical properties. Methods include:

Filtration

Sedimentation

Screening and separation

2. Biological Treatment Methods

Utilize microbial metabolism to decompose dissolved organic pollutants into stable inorganic substances.

3. Chemical Treatment Methods

Use chemical reactions to remove dissolved or colloidal contaminants. Titanium anode electrochemical treatment is widely used in industrial wastewater purification.

Electrochemical Oxidation Technology

Electrochemical oxidation includes two main mechanisms:

Direct Anodic Oxidation

Organic pollutants are adsorbed on the anode surface

Pollutants are decomposed through electron transfer reactions

Usually applied in:

High-concentration organic wastewater treatment

Indirect Anodic Oxidation

Pollutants are oxidized by strong oxidants generated on the electrode surface, including:

Hydroxyl radicals (•OH)

Hypochlorite ions (OCl⁻)

Hydrogen peroxide (H₂O₂)

Ozone (O₃)

These oxidants provide strong sterilization and pollutant degradation effects.

Wastewater Treatment Process Flow

Typical treatment process using titanium anodes:

1. Wastewater filtration

   Separation of filter residue and filtrate

2. Resource recovery

   Recover valuable materials from filter residue

3. Filtrate classification

   Clean filtrate → Sedimentation tank

Organic or heavy metal wastewater → Electrolysis treatment

4. pH regulation

   Adjust pH using acidic or alkaline media

5. Electrochemical oxidation

   Treat wastewater in titanium anode electrolysis cell

6. Sedimentation and water reuse

   Treated water can be recycled

This process reduces water consumption, saves energy, and lowers operating costs.

Product Specifications

Origin: Shaanxi, China

Brand: CSTY

Model: CSTY Anode Series

Substrate Material: Gr1 Titanium (≥ 99.6% Ti)

Manufacturing Technology: Sandblasting, pickling, surface activation

Coating Types

RuO₂ coating

RuO₂–IrO₂ mixed oxide coating

These coatings provide high electrocatalytic efficiency and excellent corrosion resistance.

Key Performance Advantages

High electrochemical catalytic activity
Strong corrosion resistance
High current efficiency
Stable electrode potential
Long service life
Low energy consumption
Environmentally friendly treatment process

Industrial Applications

Municipal & Industrial Wastewater Treatment

Textile dye wastewater

Printing wastewater

Oil-containing wastewater

Hazardous Wastewater Treatment

Heavy metal wastewater

Cyanide wastewater

Chemical plant wastewater

Environmental Protection Engineering

Hospital wastewater

Food processing wastewater

Landfill leachate

Electrode Reaction Mechanism

During electrolysis, reactive intermediates are generated:

Hydroxyl radicals (•OH)

Hypochlorite species

Other strong oxidizing substances

These substances destroy organic pollutants and pathogens.

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