TROX-500 High Efficiency Oxygen Molecular Sieve

The TROX-500 Series high efficiency oxygen molecularsieve of TYPE X is a novel molecular sieve that's mainly used for pressure adsorption atmosphericpressure analysis or pressure swing adsorption to produce oxygen. The nitrogen adsorption rate is higher.

About TROX500 High Efficiency Oxygen Molecular Sieve：

High adsorption performance

TROX-500's high-efficiency oxygen molecular sieve has high adsorption performance and can adsorb many gas molecules. Its adsorption capacity and rate are higher than other types of molecular sieves, making it widely used in many fields.

Selective adsorption

TROX-500 high-efficiency oxygen molecular sieves are highly selective and can effectively adsorb and separate specific gas molecules. This selectivity makes it a unique advantage in gas separation, purification, storage, transportation and other applications.

Reproduction

The TROX-500 high-efficiency oxygen molecular sieve can be regenerated by heating, washing, and other recycling methods. This reduces the cost of use and reduces environmental pollution.

Environmental protection

TROX-500 high-efficiency oxygen molecular sieve is an environmentally friendly catalyst that does not produce harmful substances and is pollution-free to the environment. This makes it have a wide range of applications in environmental protection.

Applicationes of TROX500 High Efficiency Oxygen Molecular Sieve：

Gas separation and purification

TROX-500 high-efficiency oxygen molecular sieve has high adsorption performance and selectivity, which can effectively adsorb and separate impurities and harmful components in the gas. In gas separation, it can be used for industrial waste gas treatment, air purification, natural gas dehydration and other applications to improve the purity and quality of gas.

Environmental governance

TROX-500 high-efficiency oxygen molecular sieve is an environmentally friendly catalyst; it does not produce harmful substances and no pollution to the environment. It can be used in environmental protection for industrial waste gas treatment, wastewater treatment, solid waste treatment and other applications to reduce environmental pollution.

Fuel cells

TROX-500 high-efficiency oxygen molecular sieve can be used as an oxygen reduction catalyst for fuel cells to improve their efficiency and stability. Fuel cells, such as electric vehicles and drones, can be used in new energy fields to promote energy transformation and sustainable development.

Synthesis of ammonia

TROX-500 high-efficiency oxygen molecular sieve can be used as a catalyst for ammonia synthesis to improve the efficiency and selectivity of ammonia synthesis. Synthetic ammonia can be used in fertilizer, chemical industry and other fields to promote agricultural production and development.

Medical care

TROX-500 high-efficiency oxygen molecular sieves can be used as catalysts for medical waste gas treatment to remove harmful components and microorganisms such as bacteria and viruses in medical waste gas. In the medical field, it can be used to purify the air in hospitals, clinics and other places to ensure the health of medical personnel and the safety of patients.

Food industry

TROX-500 high-efficiency oxygen molecular sieve can be used as a catalyst for food additives to promote the synthesis and decomposition of food additives. 

Production Method of TROX500 High Efficiency Oxygen Molecular Sieve：

Raw material preparation: First, the raw materials required for the synthesis of TROX-500 high-efficiency oxygen molecular sieve need to be prepared, including silicon source, aluminum source, sodium hydroxide and so on. 

Synthesis: The silicon source, aluminum source, sodium hydroxide, and water are mixed in a particular proportion, and the reaction is carried out at a specific temperature and pressure. During the reaction process, the silicon and aluminum sources undergo hydrolysis to produce silicic acid and aluminum hydroxide colloids, which condense into molecular sieves with three-dimensional network structures.

Separation: After the end of the reaction, the reaction liquid is separated to obtain a wet molecular sieve. In the separation process, the molecular sieve can be separated from the reaction liquid by filtration, centrifugation and other methods.

Drying: The wet molecular sieve is dried to remove the water. In the drying process, hot air and vacuum drying can be used to avoid the destruction of the molecular sieve structure.

Screening: The dried molecular sieves need to be screened to get different particle sizes of molecular sieves. In the screening process, the vibrating and airflow screens can be used to classify the molecular sieve according to the particle size.

Packaging: The sieved molecular sieve is packaged for easy transportation and use. Precautions such as moisture and dust resistance should be taken during packaging to ensure product quality and stability.

Shipping and Packing of TROX500 high efficiency oxygen molecule sieve:

55 Gallon/sealed steel drum

Ten gallon/sealed steel drum

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