Ozone Catalyst
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Product Description
- 产品描述
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Ozone catalysts use high-strength composite materials as the matrix, loaded with various precious metals and transition metals, supplemented by rare metals as dispersants, and produced through a high-temperature sintering integrated process with high efficiency. They can effectively provide ozone utilization and the ability to mineralize organic matter, greatly saving operating costs, making them ideal catalysts for the new generation of ozone catalytic oxidation.
Ozone catalysts are mainly divided into: ozone decomposition catalysts and ozone oxidation catalysts.
Main Functions
• Ozone decomposition catalysts: Mainly used for rapid ozone decomposition at room temperature, breaking ozone down into oxygen to avoid ozone pollution. For example, OD-KC ozone decomposition catalyst, OD-FC5-01 ozone decomposition catalyst, etc.
• Ozone oxidation catalysts: In addition to decomposing ozone, they utilize ozone's strong oxidizing properties to oxidize organic matter in water into carbon dioxide and water, or oxidatively decompose large organic molecules into smaller molecules, making them easier to degrade. They also remove pollutants such as VOCs in water. For example, OC-KLM ozone oxidation catalyst, OC-KF ozone oxidation catalyst, etc.
Carriers and Forms
• Ozone decomposition catalysts: Common carriers include granular modified activated carbon, cotton mesh activated carbon fiber, plate-type packed honeycomb panels, and aluminum honeycomb panels, with various forms to adapt to different usage environments and working conditions.
• Ozone oxidation catalysts: Usually include carrier-free granules, porous silica-alumina carriers, ceramic carriers, etc., with higher temperature resistance and space velocity.
Applicable Concentration
• Ozone decomposition catalysts: Due to the temperature limits of the carriers, they generally cannot be used in high-concentration ozone and sealed environments, suitable for ozone concentrations below 500ppm.
• Ozone oxidation catalysts: Can handle high concentrations of ozone well above 500ppm.
Reaction Characteristics
• Ozone decomposition catalysts: The ozone decomposition reaction is an exothermic reaction, and the catalyst generates a certain amount of heat during the reaction.
• Ozone oxidation catalysts: Catalyze ozone to produce hydroxyl radicals (·OH) and other strong oxidizing substances, reacting with organic matter to improve ozone oxidation efficiency.
Technical Parameters
Particle size mm
Specific surface area m2/g
Density g/ml
Strength N/piece
Pore volume ml/g
Service life years
Warranty period years
4-10
≥280
≈1
≥800
≥0.3
≥5
3
Execution standard: HG/T 5419-2018 "Chemical Composition Analysis Method for Manganese-based Ozone Decomposition Catalysts"
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