Ozone Destruction Catalyst (GTODC-BS)
GTODC-BS uses sheet honeycomb aluminum alloy as the carrier and nano-composite metal oxide as the catalytically active component. The size of the catalyst can be customized according to customer requirements, the thickness is between 10-50mm, and the length and width are up to 1000mm. The catalyst is mainly aimed at the purification of low-concentration ozone emissions.
|Appearance||Black honeycomb flake||Applicable Humidity||≤90%|
|Product size||Customization (Thickness 10-50mm; Length≤1000mm)||Applicable Airspeed||
|Supports Material||Aluminium alloy||Working Temperature||≥70 °F|
|Coating Material||Nano composite metal oxide||Purification efficiency||95-99.9%|
|Purification Depth||0.1 ppm|
|Specific Surface Area||
|Service Life||1-3 years|
|Suitable O3 Concentration||≤50 ppm||Product Packaging||Bag or Barrel|
1, Aluminium Alloy Supports
GTODC-BS catalyst uses aluminum alloy as the carrier and is made into a monolithic honeycomb structure, which is easy to install and suitable for use in air purifier equipment.
2, Customizable Size
The size of the catalyst can be customized according to customer requirements, the thickness is between 10-50mm, and the length and width are up to 1000mm.
3, High Catalytic Activity
The catalyst adopts a composite multi-element catalyst system. After years of technical research and use verification, the catalyst has high catalytic activity and high stability.
4, High moisture Resistance
The coating of the ozone catalyst adopts rare earth composite oxide with high catalytic activity, which has a stable structure and can resist high humidity.
1, Catalyst Installation
When the ozone destruction catalyst is used in the reactor, the minimum thickness of the catalyst layer is 50mm, the gas pipe does not flow shortly and the air is leaked, and all the gas passes through the catalyst layer.
2, Particle Filtration
Before the exhaust gas enters the catalyst layer, it is necessary to filter the particulate matter to avoid long-term accumulation of dust on the catalyst and cause the catalyst to fail.
3, Catalytic Temperature
The catalyst can catalyze the decomposition of ozone into oxygen at room temperature. Appropriate heating can help increase the rate of catalytic reaction. The effect is better when used at (40～80℃).
4, Restore Catalytic Activity
After the catalyst has been used for a certain period of time (for example, about one year), if the activity of the catalyst is found to be reduced due to the long-term accumulation of adsorbed moisture, the catalyst can be taken out, dried in an oven at 100°C for 6 hours or more, and then reloaded for use.
1, Decomposition of ozone tail gas from ozone generator.
2, Decomposition of ozone produced by corona treatment, plasma treatment or uv-curing etc.
3, Space ozone eliminating of copier & printer, medical equipment, aircraft cabin, etc.
4, Ozone Removal in Industrial Waste Gas Emissions.