Flow adsorption of gas by activated carbon
The application of coal-based activated carbon is divided into liquid phase and gas phase according to the characteristics of the material. The liquid phase is mainly used in decolorization, recovery of precious metals and water treatment.Gas phase is mainly used in gas purification and recovery, industrial waste gas treatment, flue gas desulfurization and gas protection, etc.activated carbon manufacturer
In recent years, some foreign activated carbon manufacturers have developed coal-based activated carbon with special adsorption capacity by adopting new processes, new methods and advanced raw material treatment technology, which has greatly improved and enhanced the performance of coal-based activated carbon products, expanded the application field and highlighted a broader market prospect.In order to buy qualified carbonized material as raw material, compared with direct raw coal as raw material to produce coal quality activated carbon, eliminating the raw coal washing, crushing, kneading, carbonization and a series of procedures, so the whole production process is short, small pollution production.The focus of the whole production process is the activation section. At the present stage, some domestic activated carbon production enterprises use air as the activation gas in the activation process. Although it is cheap and easy to get, the air used as the activation gas in the production of activated carbon has a high burning loss rate, low product yield and low finished strength of activated carbon particles. https://www.dxdcarbon.com/
(or K;O) direct reaction with carbon is difficult to be carried out at the activation temperature of 730℃, indicating that they react with -CH- and -CHZ - in petroleum coke and play an activation role.The elemental potassium generated from the activation reaction intercalated and activated the petroleum coke, and the specific surface area of the activated product reached 98m'g1.XRD analysis showed that there were potassium to graphite intercalated compounds in the activated product.According to the study results of activation mechanism, the mixing of additive N can improve the dispersion of alkali and the activation of additive N at high temperature to improve the activation effect.Activated carbon with a yield of 68% and a specific surface area of 2532m'g can be obtained under the conditions of alkali-coke ratio of 3:1, activation temperature of 730℃ and activation time of 30 minutes.At the same time, the amount of hydrogen produced in the activation reaction is large, reaching 38cm'g 'min', and hydrogen can be separated and purified.
Thus, a one-step process for the preparation of activated carbon with high specific surface area was proposed.Compared with the conventional method, the process reduces the production cost, shortens the production time, saves energy, and lays a foundation for further industrial production.The prepared petroleum coke based activated carbon was used as the carrier.The catalyst supported by Ni-Mo has similar hydrodesulfurization activity with commercial catalysts. The DBT conversion rate is more than 98% at 290℃ and the catalyst has high stability.The pore size distribution of petroleum coke based activated carbon with high specific surface area is mostly between 1.0~ 2.0nm. The methane storage experiment using this sample shows that it has a high methane storage performance: at 1.4 MPa, room temperature, the mass adsorption capacity of methane is 0.112 Gg '.