What are the characteristics of the adsorption of raw coal columnar activated carbon? Raw coal columnar activated carbon uses high-quality long flame coal as raw material, and is specially produced and processed using advanced technology. It has the appearance of gray-black cylindrical particles, with effective porosity structure, excellent adsorption characteristics, high impact toughness, easy to continuously regenerate, and low engineering cost. It is used for the cleaning of harmful gases in gas masks, organic waste gas treatment, industrial production.
What are the characteristics of the adsorption of raw coal columnar activated carbon? Raw coal columnar activated carbon uses high-quality long flame coal as raw material, and is specially produced and processed using advanced technology. It has the appearance of gray-black cylindrical particles, with effective porosity structure, excellent adsorption characteristics It has the characteristics of high toughness, easy to recycle, and low cost. It is used for cleaning harmful gases from gas masks, treating organic waste gas, purifying industrial and domestic water, and recovering solvents!
What are the characteristics of the adsorption of raw coal columnar activated carbon? Common specifications of raw coal columnar activated carbon
: 0.5-mm, 1-2 mm, 2-4mm, 3-5 mm
What are the characteristics of the adsorption of raw coal columnar activated carbon? Characteristics of raw coal columnar activated carbon:
Because high-quality wood residue and coconut shells are used as raw materials, the raw coal columnar activated carbon has lower ash content, less residue, liquid adsorption value, and CTC than traditional raw coal columnar carbon. The product diameter is widely distributed, and the largest Adsorption and absorption further increase the service life of the product (average 2-3 years), which is 1.4 times that of ordinary raw coal. Scope of application of raw coal columnar activated carbon:
1. Liquid phase adsorption
2. Recovery of organic chemical solvents (recovery of xylene, benzene gas, and toluene in the field of cellulose acetate)
3. Removal of residues and harmful substances, recovery of organic waste gas
4. Recovery of excess gasoline in chemical plants, gas stations, and petrochemical plants.
5. Use activated carbon to catalyze the removal of HCl from tetrachloroethane to produce trichloroethylene.
