The filter is mainly used to collect waste gas for filtration. It is widely used in many production workshops, but do you know how the gas filter achieves filtration? Now I will explain it to you.
Industrial waste gas filters generally use different adsorption characteristics, such as activated carbon fiber, honeycomb activated carbon, columnar activated carbon, granular activated carbon, etc. Different activated carbons have different treatment efficiencies for waste gas according to the difference in iodine value and adsorbed substances. The treatment process is generally: the gas is powered by a fan and enters the activated carbon adsorption tower under positive or negative pressure. Due to the uneven and unsaturated molecular gravity or chemical strength of the solid surface of activated carbon, when the solid surface contacts the gas, the gas molecules are attracted and concentrated and remain on the solid surface, and the pollutants are adsorbed. After the waste gas passes through the filter, it enters the dust exhaust system of the equipment, and the purified gas reaches high standards.
The main function of activated carbon is to adsorb harmful gases such as formaldehyde, filter out insoluble substances, and adsorb some soluble substances. It has strong physical adsorption and chemical adsorption functions, and can adsorb some organic compounds to achieve removal effects. Using this principle, we can quickly and effectively remove harmful substances, odors and pigments from aquarium water, thereby directly and quickly improving water quality.
Industrial waste gas filter adsorption characteristics:
1. The adsorption of aromatic compounds is better than that of non-aromatic compounds.
2. The physical adsorption of hydrocarbons with branched bonds is better than that of straight-chain hydrocarbons.
3. The adsorption of organic matter containing inorganic groups is always lower than that of organic matter without inorganic groups.
4. The adsorption of compounds with large molecular weight and high boiling point is always higher than that of compounds with small molecular weight and low boiling point.
5. The higher the concentration of adsorbate, the higher the adsorption amount.
6. The larger the internal surface area of the adsorbent. The higher the adsorption amount.
The filter is mainly used to collect waste gas for filtration. It is widely used in many production workshops, but do you know how the gas filter achieves filtration? Now I will explain it to you.
Industrial waste gas filters generally use different adsorption characteristics, such as activated carbon fiber, honeycomb activated carbon, columnar activated carbon, granular activated carbon, etc. Different activated carbons have different treatment efficiencies for waste gas according to the difference in iodine value and adsorbed substances. The treatment process is generally: the gas is powered by a fan and enters the activated carbon adsorption tower under positive or negative pressure. Due to the uneven and unsaturated molecular gravity or chemical strength of the solid surface of activated carbon, when the solid surface contacts the gas, the gas molecules are attracted and concentrated and remain on the solid surface, and the pollutants are adsorbed. After the waste gas passes through the filter, it enters the dust exhaust system of the equipment, and the purified gas reaches high standards.
The main function of activated carbon is to adsorb harmful gases such as formaldehyde, filter out insoluble substances, and adsorb some soluble substances. It has strong physical adsorption and chemical adsorption functions, and can adsorb some organic compounds to achieve removal effects. Using this principle, we can quickly and effectively remove harmful substances, odors and pigments from aquarium water, thereby directly and quickly improving water quality.
Industrial waste gas filter adsorption characteristics:
1. The adsorption of aromatic compounds is better than that of non-aromatic compounds.
2. The physical adsorption of hydrocarbons with branched bonds is better than that of straight-chain hydrocarbons.
3. The adsorption of organic matter containing inorganic groups is always lower than that of organic matter without inorganic groups.
4. The adsorption of compounds with large molecular weight and high boiling point is always higher than that of compounds with small molecular weight and low boiling point.
5. The higher the concentration of adsorbate, the higher the adsorption amount.
6. The larger the internal surface area of the adsorbent. The higher the adsorption amount.