VOC Adsorption Rotor
VOC Adsorption Rotor
Application field:
Lithium battery industry: In the production process of lithium batteries (such as coating, taping, etc.), a large amount of exhaust gas containing VOCs is generated. VOC adsorption wheel technology can effectively control pollution emissions and meet domestic/international environmental emission standards;
Spray coating industry: In the spray coating industry, VOC adsorption wheel technology is used to treat low concentration high air volume organic waste gas generated. The high air volume and low concentration organic waste gas is concentrated into low air volume and high concentration waste gas through zeolite rotor, reducing the investment and operating costs of subsequent treatment equipment;
Consumer electronics industry: The consumer electronics industry generates various VOCs during the production process, and VOC adsorption rotor technology can effectively remove these pollutants;
Fine chemical industry: The fine chemical industry produces various harmful volatile organic compounds in the production process. The application of VOC adsorption rotor technology in this field helps to reduce the emissions of these pollutants;
Semiconductor industry: The semiconductor industry also generates VOCs during the production process, and VOC adsorption rotor technology can effectively treat these waste gases.
Equipment Advantage:
Stainless steel VOCs adsorption runner unit with cold bridge design ensures the unit is corrosion resistant and beautiful;
The inner core adsorption rotor is a lipophilic rotor designed by NICHIAS of Japan, specialised in the VOCs adsorption;
The adsorption material adopts honeycomb zeolite molecular sieve, which is hydrophilic and non-flammable;
The equipment is regenerated by continuous rotation, which provides continuous processing capability and higher purification performance;
It is suitable for treating air with low VOC concentration and large air volume, which can control the operation cost at a low level;
Through experiments and actual engineering cases, the adsorption rotor system has a very high NMP adsorption efficiency and can control the NMP emission concentration to 10-50mg/Nm³ with laboratory testing data low to 1 mg/Nm3.
Process Priciple:
The VOCs molecular sieve rotor can adsorb large gas molecules such as NMP at specific temperatures, and achieve desorption and regeneration with high-temperature gas in specific areas of the rotor, thereby achieving recycling.