The influence of different particle sizes of molecular sieves on application

The influence of different particle sizes of molecular sieves on application.

Molecular sieve is a kind of hydrated aluminosilicate with the function of sieving molecules. It has many pores with uniform pore size and neatly arranged pores in its structure. Different molecules can be separated according to different pore sizes. Molecular sieves with different pore sizes can sieve molecules of different sizes and shapes. For example, 3A molecular sieve can only adsorb molecules smaller than 0.3nm, 4A molecular sieve can only adsorb molecules smaller than 0.4nm, and 5A molecular sieve can only adsorb molecules smaller than 0.5nm. Therefore, when selecting a molecular sieve, the appropriate type of molecular sieve should be selected according to the size and shape of the target substance to be separated, so as to achieve the best screening effect.

Common spherical molecular sieve particle sizes are 4*8 mesh (φ3-5mm), 8*12 mesh (φ1.6-2.5mm), 10*18 mesh (diameter 1-2mm). The particle size of molecular sieve refers to the diameter of molecular sieve particles, which has an important influence on the application of molecular sieve. This article introduces the influence of different particle sizes of molecular sieves on the application from the following aspects:

  1. Adsorption performance (mass transfer rate): Generally speaking, the smaller the particle size, the larger the specific surface area, the faster the mass transfer, and the stronger the adsorption capacity. When used as a desiccant, one gram of molecular sieve can absorb up to 22% of its own weight in water. Therefore, in applications that require efficient drying or removal of impurities, molecular sieves with relatively small particle sizes should be selected to improve their adsorption performance.
  2. Pressure drop: The particle size of the molecular sieve will also have a significant impact on the pressure drop that occurs during its application. In general, smaller particle sizes tend to result in higher pressure drops compared to larger particle sizes. This is because smaller particles have a higher surface area per unit volume, which results in more points of contact between the gas or liquid being filtered and the sieve material. As a result, there is greater resistance to gas or liquid flow through the screen, which translates into a higher pressure drop. Conversely, larger particles have less surface area per unit volume, which means fewer contact points and less resistance to gas or liquid flow, which results in lower pressure drop.
  3. Crush strength: The particle size of a molecular sieve has a significant effect on its crush strength, or the amount of pressure or force that can be applied to it before it breaks or crushes. In general, larger particle sizes tend to have higher crush strength than smaller particle sizes. This is because larger particles have less surface area per unit volume, which means they are less susceptible to surface imperfections or imperfections that would weaken the material. Conversely, smaller particles have a higher surface area per unit volume, which means they are more prone to surface defects, cracks and other imperfections that reduce their crush strength. In addition, smaller particles may also be more susceptible to attrition, the process by which small particles are shed from the surface of larger particles due to mechanical stress or friction. This further weakens the material and reduces its crush strength.
  4. Flow performance: The particle size of molecular sieve also affects its flow performance. Generally speaking, the larger the particle size, the smaller the flow resistance and the faster the flow speed. This is advantageous for some applications requiring fast separations. For example, in the process of gas or liquid purification, catalysis, adsorption, etc., it is necessary to choose a molecular sieve with a larger particle size to reduce flow resistance and increase flow velocity.

To sum up, the different particle sizes of molecular sieves have a significant impact on the application. Therefore, when using molecular sieves, it is necessary to choose the appropriate particle size according to different application requirements to achieve the best results.

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JALON JLOED MOLECULAR SIEVES USED FOR ELECTROLYTE DEHYDRATION

This letter is to inform you that we evaluated Molecular Sieve JLOED 3.0-5.0 MM product from Luoyang Jalon Micro-nano New Materials Co., Ltd to dry our organic solvents for production of electrolyte for Li ion battery. The resulting organic solvents that went through our process with the Molecular Sieve JLOED 3.0-5.0 MM product in our R/D and production facility located in Chico, CA, US passed our specifications showing extremely low content of moisture, below 10ppm. This Molecular Sieve product met our quality requirement, and it is highly recommended for use in the industry of Li ion battery for drying of organic solvents. We also appreciate the technical support from the company.

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It is worth mentioning that Yuntianhua United Commerce Co., Ltd. Company 52000 Nm3/Cryogenic air separation unit project. The design and manufacture method of the air separation unit by air, adsorber adopt vertical radial flow design, processing capacity of 311352 nm3 / h, 5.13 Bar (A) adsorption pressure, loading type my company JLPM3 efficient molecular sieve 92 tons, 107 tons of activated alumina, can ensure that the CO2 content in the air mean 1000 parts per million (2000 PPM) instantaneous equipment and stable operation, export CO2 molecular sieve < 0.1 PPM.

The fifth-generation high-performance molecular sieve JLPM1 is an advanced molecular sieve used in the pre-purification unit (APPU) of air separation equipment. Compared with previous generations, the fifth-generation high-performance molecular sieve JLPM1 has significantly improved CO2 adsorption capacity; the fifth-generation high-performance molecular sieve JLPM1 will bring multiple benefits to air separation designers and operators. For the design of the new air separation plant, the application of the fifth-generation high-performance molecular sieve JLPM1 can make the air separation occupy a smaller area, thereby reducing equipment investment and operating costs. The fifth-generation high-performance molecular sieve JLPM1 can also be used for the transformation of old equipment, which can reduce energy consumption or improveair separation processing capacity.

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The 30000Nm3/h pressure swing adsorption (VPSA) oxygen production project of Zhuhai Yueyufeng Iron and Steel Co., Ltd., designed and built by CSSC Huanggang Precious Metals Co., Ltd., was successfully started up on June 27, 2019. As of May 29, 2020, the device has been operating stably for 11 months, and all indicators are better than the design indicators. It has been highly recognized and praised by customers, and has created a cumulative effect of 150 million yuan per year for the enterprise. At the same time, the project has realized intelligent oxygen production, mobile control and remote monitoring to guide production, helping to realize the green and intelligent promotion of the industry.

 

The project uses 4 sets of pressure swing adsorption (VPSA) oxygen generators in parallel. The single set of device is designed to produce 7500Nm3/h of oxygen and 80% oxygen purity. It is filled with our company (Luoyang Jalon Micro Nano New Materials Co., Ltd.) JLOX-103 lithium-type high-efficiency oxygen molecular sieve is 68 tons, the actual oxygen output reaches 7650Nm3/h, and the oxygen concentration is above 82.3%. The 4 sets of equipment in this project are filled with 272 tons of our JLOX-103 oxygen molecular sieve, with a total oxygen production of more than 30000Nm3/h.

 

Oxygen molecular sieve is an important material to ensure the operation of VPSA oxygen production equipment. This project is another successful case of our company’s JLOX-103 lithium-type high-efficiency oxygen molecular sieve.

Luoyang Jalon Micro-nano New Materials Co., Ltd. JLOX-100 series high-efficiency oxygen generation molecular sieve is a lithium X-type aluminosilicate crystal, which is an oxygen generation molecular sieve with international advanced level. Widely used in: iron and steel, non-ferrous metallurgy, chemical industry, furnace energy-saving transformation, environmental protection, papermaking, aquaculture, medical care and other industries.

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