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Carbon molecular sieve is a material widely used in gas separation and purification. Its working principle is mainly based on the special properties of carbon materials and the interaction between molecules. The “sieving” effect of carbon molecular sieve is the key to its separation of different gases. Based on the difference in the kinetic diameter of gas molecules, the pore size of carbon molecular sieve can selectively allow certain gas molecules to pass through, while preventing other larger molecules from passing through. This selectivity enables carbon molecular sieve to effectively separate components in mixed gases.

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In practical applications, the working process of carbon molecular sieve is to drive the flow of gas through pressure difference. When the gas flows through the carbon molecular sieve, it is screened and separated according to the size and shape of the molecules. This process is a physical process and does not involve chemical reactions. Therefore, carbon molecular sieve can be widely used in a variety of gas separation fields, such as air separation, natural gas purification, hydrogen purification, etc.

Carbon molecular sieve achieves efficient separation of gas molecules through its unique adsorption principle and screening effect. Its huge surface area, porous structure and selective adsorption characteristics make carbon molecular sieve have broad application prospects in the field of gas separation and purification. Through further optimization and improvement of carbon molecular sieves, it is expected that more efficient and reliable gas separation technology will be achieved in the future.