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13X Molecular Sieve Powder

13X molecularsieve powder (NaX molecularsieve powder) is the hydrate or crystalline silica aluminate salt. 13X molecularsieve powder is stable in quality, has uniform size particles, and high crystallinity.

Description of 13.X Molecular Sieve Powder:

Chemical property

13X molecular sieve powder is a crystal structure composed of silicate, aluminate and other compounds. Its chemical stability is high, and reacting with acids, bases, salts and other substances is not easy. Therefore, 13X molecular sieve powder can still maintain the stability of its structure and properties under extreme conditions such as high temperature and high pressure.

Physical properties

13X molecular sieve powder has a large specific surface area and pore volume, which makes it have excellent adsorption properties. At the same time, the pore size in its crystal structure is moderate, which can effectively adsorb and separate the components in the gas and liquid mixture. In addition, 13X molecular sieve powder has a lower density, better mobility, and is easy to transport and use.

Adsorption performance

13X molecular sieve powder has excellent adsorption properties and can absorb water, carbon dioxide, nitrogen and other small molecules. Its adsorption capacity depends mainly on its pore size and specific surface area. Due to its moderate pore size, it can adsorb both larger and smaller molecules. In addition, 13X molecular sieve powder has good selective adsorption properties and can be used to separate and purify components in gas and liquid mixtures.

High-temperature resistance

13X molecular sieve powder has good high-temperature resistance and properties under high-temperature conditions. This makes it suitable for application under various high-temperature conditions in industrial production.


13XMolecularSieve

Applicaciones of 13X  Molecular Sieve Powder :

Petrochemical: In the petrochemical industry, 13X molecular sieve powders are used as catalysts and adsorbents. In the petroleum cracking process, it can effectively promote the selective catalytic cracking of hydrocarbons and increase the yield of light olefin. In addition, it can also be used to remove harmful substances in gases and liquids, such as sulfides and nitrogen oxides.

Gas separation: 13X molecular sieve powder has high selectivity and adsorption capacity, so it has a wide range of applications in gas separation. 

In the field of medicine, 13X molecular sieve powders can be used for the synthesis and separation of drugs. For example, it can synthesize some complex organic compounds or separate specific components in a mixture. In addition, it can also be used as a carrier of drugs to improve the stability and bioavailability of drugs.

Environmental protection: 13X molecular sieve powder is also widely used. In addition, it can also be used to remove harmful gases in the air, such as sulfur dioxide, nitrogen oxides, and so on.

Energy sector: In the energy sector, 13X molecular sieve powders can be used as catalysts and adsorbents for fuel cells. It can improve the energy density and stability of the fuel cell and extend the battery's service life. In addition, it can also be used as an adsorbent for solar cells to improve their photoelectric conversion efficiency.

Nanotechnology: 13X molecular sieve powder has a regular pore structure and good stability, which is also widely used in nanotechnology. It can be used as a template agent for synthesizing nanomaterials with specific morphology and structure. In addition, it can also be used as a carrier material for the preparation of nanocatalysts and nanomedicines.



Production Method of 13X  Molecular Sieve Powder :

Raw material preparation

The raw materials for producing 13X molecular sieve powder mainly include sodium silicate, sodium hydroxide, aluminum hydroxide, etc. These raw materials must undergo rigorous screening and treatment to ensure their purity and chemical properties meet production requirements.

Synthetic reaction

In the synthesis reaction, sodium silicate, sodium hydroxide, and aluminum hydroxide are mixed according to a particular proportion, and an appropriate amount of water and catalyst are added. The reaction is then carried out at a specific temperature and pressure. This reaction is a complex chemical process that involves the breaking and formation of multiple chemical bonds. The precursor of the 13X molecular sieve can be obtained at the end of the reaction.

Crystallization process

After crystallization, the precursor can be converted into 13X molecular sieve powder under certain temperatures and conditions. This process requires controlling parameters such as temperature, pressure and time to ensure the quality and purity of the crystal.

Post-processing

Post-treatment is an integral part of the production process, including washing, drying, screening and other steps. Through post-treatment, impurities and moisture in the product can be removed, and the purity and stability of the product can be improved.

Packaging and storage

Finally, the 13X molecular sieve powder that was produced is packaged and stored. Packaging materials with good sealing, moisture-proof and shock-proof materials should be selected to ensure product quality and safety. The storage environment should be kept dry and well-ventilated, avoiding direct sunlight and high temperature.

13X Molecular Sieve Powder  Properties

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