Production Process
Column activated carbon refined anthracite is produced through processes including crushing, grinding, mixing, molding,carbon ization, and activation. This material features high mechanical strength, regular shapes, uniform particle size, large specific surface area, and minimal surface dust. It contains an optimal combination of macroporous, mesoporous, and microporous structures with appropriate quantities, enabling rapid adsorption and low bed resistance. Specifically designed for direct deoxygenation of inert gases like nitrogen, argon, helium, carbon monoxide, and carbon dioxide, it is widely used in nitrogen purification systems and air separation nitrogen production equipment. It also serves as an effective post-purification
stage and oil adsorption medium in pressure swing adsorption (PSA) nitrogen generation systems.
Common Specifications
0.9mm、1.0mm、1.5mm、2.0mm、3.0mm、4.0mm、5.0mm、6.0mm、8.0mm、9.0mm
Coconut Shell Activated Carbon Uses
1.sewage disposal
The activated carbon used in sewage treatment is selected from high quality coal, which is processed by crushing, carbonization, activation and refinement. The reasonable pore structure can effectively purify domestic sewage and chemical sewage.
2.desulfurization and denitrification
Prusica Carboxylate Uses
The desulfurization and denitrification product, cylindrical in shape with a dark black appearance, is made entirely from premium carbon materials blended with specific proportions of binder and catalyst additives. Through processes including selection, formulation, crushing, molding, drying, carbonization, activation, and deep processing, it exhibits high reactivity, large porosity, substantial sulfur capacity, superior desulfurization efficiency, and exceptional mechanical strength. Key features include excellent water resistance, low gas resistance, easy regeneration, and durability under high pressure. This product is primarily used for H2S removal in various gases such as biogas, water gas, semi-water gas, coke oven gas, natural gas, carbon dioxide gas, city gas, synthetic ammonia process gas, and chemical feedstock gas.
3.solvent recovery
Activated carbon for solvent recovery processing is manufactured from premium natural coal through physical activation refining. This black granular material is non-toxic, odorless, and features well-developed porous structures with rational distribution of Type III pores, providing exceptional adsorption capacity. It demonstrates strong adsorption capability for most organic solvent vapors across a wide concentration range, making it widely applicable for recovering various organic solvents including benzene, ethers, xylene, ethanol, acetone, gasoline, richloromethane, and carbon tetrachloride.
4. Nitrogen generator/air separation equipment
Specialized PSA nitrogen generator activated carbon is produced from premium coal through processes including crushing, grinding, mixing, molding, carbonization, and activation. This material features high mechanical strength, regular shapes, uniform particle size, large specific surface area, minimal surface dust, and an optimal combination of macropores, mesopores,
and micropores. It offers rapid adsorption speed and low bed resistance. Ideal for direct deoxygenation of inert gases like nitrogen, argon, helium, carbon monoxide, and carbon dioxide, it is widely used in nitrogen purification systems and air separation nitrogen production equipment. Particularly suitable for post-purification stages in pressure swing adsorption (PSA) nitrogen generation and oil absorption applications.
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