Product Introduction
- Minstrong oxygen removal catalyst can remove oxygen with high efficiency. The catalyst adopts chemical synthesis method to manufacture active components, and accurately controls each process parameter of synthesis reaction.
- The oxygen removal catalyst can be used repeatedly after regeneration.
- Below is the reaction equation for catalytic deoxygenation :
CuO+H2=Cu+H2O
2Cu+O2=2CuO
Product Features
- Minstrong catalyst has good strength, and the average crushing strength is greater than 60N/cm;
- The specific surface area is high, with a specific surface area 160-240m2/g, and a large number of microporous structures are distributed inside the catalyst, which can effectively absorb oxygen and carry out catalytic decomposition;
- Minstrong catalyst is resistant to high temperature and does not contain flammable and volatile components. There is no risk of combustion and no secondary pollution;
- The content of active ingredients is high, the content of catalyst active ingredients is as high as more than 85%, the performance is stable, the life is long, and it is not easy to lose;
- The specific gravity of the catalyst is low, and the high specific surface area makes the specific gravity of the catalyst only 0.68-1.0 g/cm3, (specific gravity various for differnt type and size) and the weight of the catalyst required to process the same air volume will be reduced by 1/3;
- The raw materials and production process of the catalyst production are completely independent and controllable, and can be supplied stably.
Applications
- Remove oxygen from inert gases, nitrogen, helium, argon, etc.
- Other applications for oxygen tail gas removal.
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