Activated carbon is a black porous solid carbon material. In the early stage, it was made from wood, hard fruit shells, or animal bones by carbonization and activation, and later use coal through pulverization, molding, or granular coal by carbonization and activation.The main component is carbon with few elements of oxygen, hydrogen, carbon with low packing density and large specific surface area. Because its irregular arrangement of microcrystalline carbon and fine pores between cross connections, which can cause carbon tissue defects during activation. The specific surface area of ordinary activated carbon ranges from 500 to 1700 m2/g. It is a widely used industrial adsorbent and has strong adsorption performance.
Activated carbon is made up of 80%-90% carbon which is the reason why activated carbon is a hydrophobic adsorbent. In addition to carbon elements, activated carbon also contains two types of admixtures: one is chemical elements, mainly oxygen and hydrogen, which are left in the carbon due to incomplete carbonization, or during the activation process, the external non carbon element chemically combine with the surface of the activated carbon, such as when activated by water vapor, the surface of the activated carbon is oxidized; Another type of admixture is ash, which is the inorganic part of activated carbon. Experts in activated carbon can see that it also contains a small amount of Cl.
Activated carbon is a hydrophobic adsorbent made from carbon-based materials through high temperature carbonization and activation. It contains a large number of micropores and has a huge specific surface area, which can effectively remove color,odor and most organic pollutants and some inorganic substances like some toxic heavy metals. The factors that affect the adsorption of activated carbon including: the characteristics of activated carbon,the characteristics and concentration of the adsorbed substance, pH value of wastewater,suspended solid content,contact system and operation mode, etc. Activated carbon adsorption is the most important and effective treatment technology in handling urban sewage, which has been widely applied.
Activated carbon can effectively adsorb chlorinated hydrocarbons, organic phosphorus, and carbamate insecticides, as well as phenyl ether, n-nitrochlorobenzene, naphthalene, ethylene, xylenol, phenol, DDT, aldehydes, alkylbenzenesulfonic acid, and many esters and aromatic compounds. There are also some organic substances that are not adsorbed by activated carbon in the secondary effluent, such as intermediate degradation substances of proteins, which are more difficult to be adsorbed than the original organic substances. The removal ability for THMS is relatively low, only reaching 23-60%. The combination of activated carbon adsorption with other treatment methods significantly prolongs the adsorption cycle, reduces the dosage, and greatly improves the treatment effect and scope. New methods like Ozone-activated carbon method, coagulation adsorption activated carbon method, Habberer process, activated carbon diatomaceous earth method.
Activated carbon adsorption technology was born in the First World War.Soldiers wore gas masks to protect themselves from toxic gas.In 2003,SARS outbroken, doctors and nurses all used activated carbon masks to against. These are enough to prove that activated carbon adsorption technology has become the most mature technology for harmful gas adsorption and treatment. Activated carbon is a porous carbon containing substance with a well-developed pore structure that gives it a large surface area, making it easy to fully contact with toxic and harmful gases in the air. The strong adsorption field around the activated carbon pores will immediately suck toxic gas molecules into the pores.
Activated carbon adsorption technology utilizes the principle of absorbing odors and harmful gases from carbon, and has been used for a long time. Therefore, it is mature, stable, cost-effective, non-toxic, and has no side effects. It has good adsorption effects on hydrogen sulfide, ammonia, formaldehyde, benzene, and volatile organic compounds (VOCs), and will not produce secondary pollution.
Activated carbon has a common characteristic which is adsorption.Although there are many varieties of activated carbon in terms of appearance and use. The reason why it can adsorb is the well-developed pore structure, just like the sponges we see. Under the same weight conditions, sponges can absorb more water than other objects, and the reason is also because it has a well-developed pore structure. But the pore structure of activated carbon is invisible, as they are only 1×10-12mm―10-5mm. The degree of developed pores in activated carbon is unimaginable,if we take one gram of activated carbon and unfold all the pore walls into a plane, it will reach 1000㎡ (means the specific surface area is 1000g/m2). The main factor affects the adsorption is depend on the degree of development of its internal pore structure.
Only activated carbon with a large pore size slightly larger than the diameter of toxic and harmful gas molecules has extremely strong adsorbability. To meet this requirement, the material selection and processing (pore formation, activation) requirements for activated carbon are extremely strict. Activated carbon fully conforms to gas phase adsorption, with particle sizes ranging from 20 to 40 mesh, a large specific surface area, developed internal voids, low density, light feel, intense bubble phenomenon.More volume for the same weight, which can effectively purify indoor air. It can adsorb odorous, toxic, and various harmful gases in the air, especially formaldehyde, benzene series compounds, TVOC, CO, NH3, O3, and Cl2 in the air. It has unique adsorption, purification, and catalytic capabilities, and is widely used in decoration pollution removal, filters, and air conditioning equipment.
Applied in industries such as chemical, oil, petrochemicals, pharmaceuticals, pesticides, automotive components, coatings, electrical, electronic components, printing, electroplating, canned vehicles, rubber, photosensitive materials, fibers, plastics, artificial leather, dry cleaning, etc. Applicable organic matter types:
1) Hydrocarbons: benzene, toluene, n-hexane, naphtha, cyclohexane, methylcyclohexane, dioxane, diluent, gasoline, etc;
2) Alkenes: trichloroethylene, perchloroethylene, trichloroethane, dichloromethane, trichlorobenzene, dichloroethane, trichloromethane, carbon tetrachloride, fluorocarbons, etc;
3) Aldehydes and ketones: formaldehyde, furfural, acetone, MEK (methyl ethyl ketone), MIBK (methyl isobutyl ketone), cyclohexanone, etc;
4) Esters: ethyl acetate, butyl acetate, ethyl oleate, etc;
5) Ethers: methyl ether, methyl ether, THF (tetrahydrofuran), etc;
6) Alcohols: methanol, ethanol, isopropanol, n-butanol, isobutanol, etc;
7) Polymeric monomers: vinyl chloride, acrylic acid, styrene, vinyl acetate, etc;
8) Amides: dimethyl formamide (DMF), dimethyl acetamide, etc;
1) The temperature of waste gas should not exceed 40 degrees;
2) Adsorption saturation 26%-33%;
3) The specific surface area ranges from 500 to 1700m2/g;
4) Filling density 0.45-0.55g/cm;
5) Moisture ≤ 10%;
6) After the activated carbon adsorption is saturated, we need to heat exhaust gas to desorb the saturated activated carbon. The heating temperature is generally not higher than 120 ℃; When steam is used for desorption of saturated activated carbon, the temperature can be higher than 120 ℃, but does not exceed 200 ℃. Specific adjustments need to be made based on the characteristics of the exhaust gas;
7) Each kilogram of activated carbon adsorbs 0.15-0.3 kg of organic waste gas..
After being treated by the pre-treatment device, the waste gas enters the activated carbon adsorption box which is adsorbed on the surface of the activated carbon, then the clean gas is discharged by the rear induced draft fan. Activated carbon is very suitable for adsorbing organic solvents in waste gas. Because it has hydrophobicity and high adsorption efficiency for organic solvents,while other adsorbents have hydrophilicity, they can only adsorb water molecules in the gas and have low adsorption rates for organic solvents.
Utilizing the adsorption characteristics of activated carbon micropores to adsorb organic waste gas is the most effective industrial treatment method. The activated carbon adsorption device adopts a new type of activated carbon, which has a large specific surface area and porosity, strong adsorption capacity, good mechanical strength, chemical stability, and thermal stability, and high purification efficiency.
The organic pollutants in the waste gas are adsorbed on the surface of the activated carbon and seperated by airflow. Gas from the activated carbon adsorption device has reached the emission standard and can be directly discharged. We can design the types according to clients specific requirements such as drawer type, grid filling type, and top loading and bottom unloading type to meet customers’ needs.
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