Activated carbon adsorption boxes are often used for gas adsorption, separation and purification, solvent recovery, decolorization agent for sugar solution, oil, glycerin, medicine, deodorant for drinking water or refrigerator, filter for gas mask, and can also be used as catalyst or metal salt catalyst cross section.
Model | Air volume (m³/h) | Dimensions (mm) | Air outlet size (mm) | Activated carbon content (kg) | Equipment resistance (Pa) | Material | Purification efficiency (%) | Allowable concentration (mg/m³) |
THY-HXT5k | 5000 | 1500×1250×1230 | 300×300 | 70 | 600-700 | Carbon steel, PP | ≥90 | 1000 |
THY-HXT10k | 10000 | 1410×1250×1700 | 400×400 | 140 | 600-700 | Carbon steel, PP | ||
THY-HXT15k | 15000 | 1800×1250×1700 | 500×500 | 200 | 600-700 | Carbon steel, PP | ||
THY-HXT20k | 20000 | 2080×1250×1700 | 550×550 | 280 | 600-700 | Carbon steel, PP | ||
THY-HXT25k | 25000 | 2350×1250×1700 | 600×600 | 350 | 600-700 | Carbon steel, PP | ||
THY-HXT30k | 30000 | 2800×1250×1700 | 700×700 | 420 | 800-900 | Carbon steel, PP | ||
THY-HXT35k | 35000 | 2220×1600×2000 | 700×700 | 490 | 800-900 | Carbon steel, PP | ||
THY-HXT40k | 40000 | 2350×1600×2000 | 800×800 | 560 | 800-900 | Carbon steel, PP | ||
THY-HXT45k | 45000 | 2700×1600×2000 | 850×850 | 630 | 900-1000 | Carbon steel, PP | ||
THY-HXT50k | 50000 | 2820×1600×2000 | 900×900 | 700 | 900-1000 | Carbon steel, PP |
When the exhaust gas is powered by the fan, activated carbon adsorption box enters the adsorption box and then enters the activated carbon adsorption layer. Due to the unbalanced and unsaturated molecular attraction or chemical bond force on the activated carbon adsorption surface, when the surface of the activated carbon adsorbent contacts the gas, it can attract gas molecules, causing them to concentrate and remain on the solid surface. This phenomenon is called adsorption. By utilizing the adsorption capacity of the surface of the activated carbon adsorbent, the exhaust gas contacts the porous activated carbon adsorbent with a large surface area. The pollutants in the exhaust gas are adsorbed on the surface of the activated carbon, separating them from the gas mixture, and the purified gas is discharged into the air.
Activated carbon is a black powdery, granular or pelletized amorphous porous carbon. The main component is carbon, and activated carbon adsorption box also contains a small amount of oxygen, hydrogen, sulfur, nitrogen and chlorine. It also has a fine structure like graphite, but the grains are smaller and the layers are irregularly stacked. It has a large surface area (500-1000㎡/g). It has a strong adsorption capacity and can adsorb gas, liquid or colloidal solid on its surface. The adsorption of gas and liquid can be close to the mass of the activated carbon itself.
Its adsorption is selective, and non-polar substances are easier to adsorb than polar substances. In the same series of substances, the higher the boiling point, the easier it is to be adsorbed. The greater the pressure, the lower the temperature, the higher the concentration, the greater the adsorption amount. On the contrary, decompression and temperature increase are conducive to gas desorption.
Activated carbon is often used for gas adsorption, separation and purification, solvent recovery, decolorization of sugar solution, oil, glycerin, and medicine, deodorant for drinking water or refrigerators, and filter for gas masks. It can also be used as a catalyst or a cross-section of a metal salt catalyst.
1. High adsorption efficiency and strong adsorption capacity
2. Able to treat multiple mixed organic waste gases at the same time, with high purification efficiency
3. Small footprint, simple maintenance and management, low operating cost
4. Strong adaptability, fully sealed, can be used indoors and outdoors, wide range of applications
5. Adopts automatic control operation design, easy and safe operation
Activated carbon adsorption technology is widely used in the treatment of low-concentration and high-volume waste gas in industries such as petroleum, chemical, rubber, coating, printing, electronics, pharmaceuticals, textile printing and dyeing, food, furniture, coating, plastics, feed, leather, machinery, semiconductor manufacturing, and material synthesis.