Advanced Oxidation Catalyst M with Large Specific Surface Area High Catalytic Activity and Strong Enrichment Capacity

Name: Advanced Oxidation Catalyst M with Large Specific Surface Area High Catalytic Activity and Strong Enrichment Capacity
Brand: Chongqing Huanxiang Industrial. Co., Ltd.
SKU: Customized
Availability: InStock

Basic Properties

Place of Origin: Chongqing-China

Brand Name: Huanxiang

Certification: CE,ISO,KEMA,GOST

Model Number: Customized

Trading Properties

Minimum Order Quantity: 1 Piece

Price: To Be Negotiated

Payment Terms: T/T,L/C,Western Union

Supply Ability: To Be Negotiated

Waste Treatment Equipment

Waste Treatment Machine

Waste Treatment Machinery

Product Summary

MO Advanced Oxidation Technology uses high-efficiency catalysts to enhance hydroxyl radical formation, enabling powerful direct & indirect oxidation for superior organic pollutant breakdown and water treatment efficiency.

Product Details

Highlight:

Advanced Oxidation Catalyst

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Hydroxyl Radical Generation

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Organic Pollutant Removal

Oxidation Potential: 2.07V (O₃), 2.8V (*OH)

Specific Surface Area: Large

Catalytic Activity: High

Oxidant Efficiency: High

Reaction Conditions: Reduced

Enrichment Capacity: Strong

Product Description

MO Advanced Oxidation Technology

Technology Overview

Catalyst M features a large specific surface area and strong enrichment capacity. The unique manufacturing process utilizes multiple high-efficiency metal oxides as raw materials, resulting in a catalyst with exceptional activity and strong catalytic ability. This technology significantly reduces reaction conditions while improving hydroxyl radical formation.

The oxidant O is supplied by an independent device. The oxidant itself possesses strong oxidation capability, and its utilization efficiency is enhanced through the coordinated action of surface enrichment and catalytic activity.

Direct Oxidation Process

Ozone (O₃) has a high redox potential of 2.07V, making it a potent oxidizing agent that directly reacts with organic matter in water. The oxygen atoms in ozone molecules are highly reactive, capable of reacting with carbon and hydrogen atoms in organic molecules. This process oxidizes and breaks down large organic molecules into smaller compounds, reducing their toxicity and enhancing biodegradability.

Free Radical Generation (Indirect Oxidation)

Ozone in water decomposes to produce hydroxyl radicals (*OH). Hydroxyl radicals possess an even higher redox potential (approximately 2.8V) and are highly reactive oxidizing species. They rapidly undergo chain reactions with organic matter, further oxidizing contaminants into harmless substances including carbon dioxide, water, and inorganic ions.

Technology Visualization