Minstrong Hopcalite catalyst has high catalytic activity and can catalyze the conversion of carbon monoxide into carbon dioxide at room temperature, meeting the needs of carbon monoxide removal in closed cabins, fire scenes, air separation systems and other occasions. In addition, Hopcalate also is widely used in the catalytic treatment of harmful gasesï¼? such as ozone and volatile organic compounds.
Minstrong Hopcalite catalyst adopts chemical synthesis method to manufacture active ingredients, and accurately controls each process parameter of the synthesis reaction. Aluminum oxide is used as a binder, and the active ingredient content is as high as 85%. The powder does not contain binders, and the active ingredient is as high as 99%. The catalyst does not contain activated carbon, can adapt to different working conditions, does not burn, has no volatility, which is safe to use, and does not cause secondary pollution.
Minstrong Hopcalite catalyst has pellet columnar, irregular granular powder and spherality ball type, and can also be customized according to your needs.
Minstrong ozone destruction catalyst can efficiently decompose ozone into oxygen, eliminate ozone odor, and achieve exhaust emission standards. Minstrong uses chemical synthesis method to manufacture active components, and precisely controls each process parameter of the synthesis reaction. Aluminum oxide is used as a bonding agent. The active ingredient content of Minstrong ozone destruction granule and pellet catalyst is higher than 85%. The ozone destruction catalyst powder does not contain binders, and the active ingredient is as high as 99%.
The catalyst does not contain activated carbon, which can withstand high temperature when dealing with high-concentration ozone. The catalyst does not burn, has no volatility, which is safe to use, and does not cause secondary pollution.
The VOC catalysts produced by our company adopt optimized formula and process for VOC catalytic reaction.It has characteristics of high strength, high conversion rate, low cost.
The main active ingredients of the catalyst is active composite metal oxide. In addition to catalytic oxidation of VOC, it also has the function of disinfection and sterilization. The long-term use of the catalyst will not breed bacteria and mold.
We have powder, pellet columnarï¼?granule, honeycomb and sphericity ball type.
General Packing: 30KG in iron barrel with plastic lining on pallet
Packing based on user's needs.
For quantity below 2 tons, we can deliver the Ozone O3 Destruction catalyst within 7 days.
Shipping Port: Guangzhou/Shanghai/other port as request
Air transportation, ocean transportation, railway transportation and truck transportation are available.
In order to help you know our products better, our factory would like to offer free sample by express air courier after mutual communication.
Thank you for your patient reading! We welcome your inquiry.
Minstrong CO2 Absorber has two types, one is soda lime, the other is cacium lime. Minstrong can provide the suitalbe CO2 absorber as your working condition and request.
Name:Soda lime
CAS:8006-28-8
Molecular formula:CaHNaO2
Molecular Weight:96.07
Application: Used as CO2 Absorber in Medical, military, diving, mining and safety
CO2 absorber can also be used as a desiccant (calcium oxide acts as a desiccant), which can be used to dry neutral gases such as oxygen, and can also be used to dry alkaline gases such as ammonia. At the same time, it can also be used to absorb acid gases, such as carbon dioxide and sulfur dioxide. If only sodium hydroxide is present, this desiccant cannot be used at higher temperatures, because sodium hydroxide can react with the most commonly used glass instruments in the laboratory (the main component is silica) and corrode the instruments. A small amount of methane produced in the laboratory can be co-heated with soda lime and sodium acetate (sodium acetate) to generate sodium carbonate and methane.
Minstrong copper oxide CuO catalyst is produced by chemical liquid-phase synthesis technology. There are a large number of micropores distributed in the structure, and the inner and outer surfaces have abundant active sites, with high specific surface area and high activity.
The forms of activated copper oxide CuO catalyst have columnar, granular, powder, spherical and so on.
Minstrong Ozone Decomposition Catalyst can decompose ozone into oxygen at room temperature. It can be widely used in the synthesis of fine chemicals and the treatment of tap water and waste water. It can also be used in the advanced cabins of atomic energy, radio and supersonic passenger aircraft, copiers, household appliances, etc.
Honeycomb Ozone Decomposition Catalyst Packing:
1. General Packing: carton box with plastic frame / Bubble shock absorber;
2. Packing based on userâ??s needs.
Minstrong carbon monoxide catalyst can convert carbon monoxide into carbon dioxide at normal temperature, avoiding equipment and personnel from being damaged by carbon monoxide. The catalyst adopts chemical synthesis method to manufacture active ingredients, and accurately controls each process parameter of the synthesis reaction. Aluminum oxide is used as a binder, and the active ingredient content is as high as 85%. The powder does not contain binders, and the active ingredient is as high as 99%. The catalyst does not contain activated carbon, can adapt to different working conditions, does not burn, has no volatility, which is safe to use, and does not cause secondary pollution.
Applications:
1.Purify carbon monoxide in refuge chambers, airtight compartments and respirators to avoid carbon monoxide poisoning;
2.Purify carbon monoxide in air separation system and compressed gas, remove carbon monoxide at low temperature;
3.Remove carbon monoxide from process gas;
4.Remove the carbon monoxide in the flue gas, and realize the discharge of carbon monoxide up to the standard.
Ozone catalyst technology is an advanced oxidation process based on ozone. It combines the strong oxidizing properties of ozone with the adsorption and catalytic properties of the catalyst, and be proved more effectively solving the problem of low ozone treatment efficiency, low ozone utilization, high operating costs, and incomplete degradation of organics questions.
The phase state of the ozone catalytic oxidation catalyst is divided into homogeneous catalytic ozonation and heterogeneous catalytic ozonation. In the homogeneous catalytic ozonation technology, the catalyst is uniformly distributed and has high catalytic activity, the mechanism of action is clear, and it is easy to study and grasp. However, its shortcomings are also obvious. The catalyst is miscible in water, causing it to be easily lost, difficult to recycle, and cause secondary pollution. The operating cost is high and the water treatment cost is increased. The heterogeneous catalytic ozonation method uses a solid catalyst to accelerate the oxidation reaction in the liquid phase (or gas phase) under normal pressure. The catalyst exists in a solid state, is insoluble in water, does not run off, has no secondary pollution, and reduces the operating cost of catalytic oxidation.
The ozone catalytic oxidation method of wastewater is a large-scale advanced oxidation technology, which is mainly realized through two ways of direct oxidation and catalytic oxidation. Ozone can directly mineralize the large molecules, long chains, and difficult-to-biodegradable organic matter remaining in the wastewater into carbon dioxide and water, and partially decompose into small molecules and easily biodegradable substances, destroy the structure of non-biodegradable organic matter, reduce toxicity, and increase B/ C ratio, so as to ensure the treatment effect of subsequent biochemical methods. The traditional ozone oxidation technology is mainly direct oxidation, which has poor mass transfer effect, low ozone utilization rate, and high investment and operating costs.
