Shandong Shanlan Environment Group Co., Ltd 
System Principle:
Under the condition of low temperature, the organic waste gas with large air volume passes through the zeolite rotor, and the VOC molecules are adsorbed on the surface of the zeolite molecular sieve pores, and the waste gas passing through the zeolite rotor can be discharged in compliance with the standard. Adsorbed with a large number of VOC zeolite wheel in the rotation of the role of the motor into the high-temperature desorption area, the use of small air volume of high-temperature gas will be adsorbed on the zeolite wheel VOC molecules desorption out of the formation of a high concentration of waste gas, desorption of high concentration of exhaust gas into the back end of the RTO / CO / RCO thermal oxidation system decomposition, purified exhaust gas can meet the standards for discharge. The zeolite rotor in the desorption area then enters the cooling area to be cooled down and regain the adsorption capacity, and the exhaust gas in the cooling area is then heated to the desorption temperature by heat exchange with the high temperature wind, which is used as the desorption gas of the rotor, thus achieving the effect of energy saving.
Technical Advantages:
High air volume, low concentration of exhaust gas with high concentration multiplier, small footprint of the equipment.
Concentration and combustion release a large amount of heat to be recycled in the system, low fuel consumption.
Safe and stable operation, with a comprehensive removal rate of 92% or more.
Fully automated and virtually unmanned operation.
Easy maintenance of the equipment, simple maintenance.
Process flow diagram of zeolite rotor & CO combination system
