Granular, columnar, conventional grain size for Ozone catalyst AOC-KLM01
Catalyst that effectively resolves VOCs
Description
Features Applications
- Under the same working conditions, the decomposition rate of ozone with the same quality catalyst is higher and more stable than that of the same kind of products
- Ozone removal process without the need to provide any additional chemicals
- High efficient catalytic decomposition of ozone at room temperature to produce oxygen to meet the requirements of safety and economy
- The material is simple and convenient to use, has long service life, and the purification efficiency of other catalysts is more than 1.2-2 times under the same quality
- Use Less, perform better, and be more economical with the same volume
- For the first time ozone elimination and efficient utilization of resources
- Composite multi-catalyst system, high ozone utilization rate, high mineralization rate
- The invention solves the problem of ozone secondary pollution caused by photolysis and plasma technology, improves the oxidation degree and purification efficiency, and upgrades the traditional technology
Method of use:
Ozone and exhaust gas into the catalyst surface at the same time, gas pipeline not short flow air leakage, all the gas through the catalytic network, the number of 2-4 layers.
Applications
- Industrial VOCs, Odors, Lampblack and other pollutants purification process of ozone by-products of equipment and engineering; UV photolysis, plasma, high-voltage static electricity, ozone generator and other equipment
- Plastic recycling, spraying, printing, electronic manufacturing, paint and other industries waste gas purification and garbage in the loading station and other odorous places
- The efficient elimination and utilization of ozone in many fields such as the place where the VOCs Waste Gas with low concentration is produced
- The ozonation catalyst is designed and developed for the purification of high concentration ozone pollution (especially O3≥500 ppm) , and is also safe and effective for the purification of low concentration ozone (O3 < 500 ppm) , fast catalytic decomposition of ozone to non-toxic oxygen.
- ozone generator generated residual ozone (high, medium and low concentrations of ozone) in all occasions
- Treatment of ozone tail gas from L Ozonation of wastewater
- high efficient elimination and utilization of ozone in many fields, such as sterilization and disinfection of medical instruments, ozone pollution purification after odor elimination in public places
Volume calculation:
catalyst volume=air volume/air speed
weight= catalyst volume* bulk density
Practical case:
|
blast capacity |
Ozone concentration |
Air temperature |
humidity |
Volume airspeeed selection |
|
5000m3/h |
20ppm |
20-30℃ |
30-60%RH |
20000h-1 |
catalyst volume=5000m3/h/20000h-1=0.25m3
catalyst dosage=0.25m3*500kg/m3=125kg
Specification & Packaging
Specifications:
|
Type and name of catalyst |
AOC-KLM-01(ozone oxidation catalyst) |
|
Catalytic action |
Catalytic decomposition of ozone to oxygen at room/low temperature |
|
Catalyst appearance |
Granular, columnar, conventional grain size 3mm |
|
Catalyst carrier |
Carrier-free, pure active component, manganese-based composite metal oxide |
|
Packing density |
614-834kg/m3 |
|
Product packaging |
Barreled, 30kg/barrel |
|
specific surface area |
≥500m2/g |
|
Ozone purification efficiency |
≥90-99% (related to actual working condition) |
|
Quality Assurance |
Service life not less than 8760h |
|
Active component |
Supported manganese-based composite metal oxide |
|
Recommend airspeed |
10000-50000h-1 |
|
Suggested reaction flow rate |
≤3m/s |
|
Air Resistance for catalyst use |
≤800pa |
|
Suggested gas residence time |
0.12-0.5s |
|
Treatment efficiency of VOCs |
≥80% (related to exhaust gas composition, ozone concentration) |
|
Installation requirements and points for attention |
Gas pipeline not short flow leakage, all the gas through the catalytic network, the number of 2-4 layers |