Zeolite Rotor and RTO Equipment is an organic waste gas treatment equipment suitable for low concentration and large air volume selected by our company based on many years of waste gas treatment engineering experience. The equipment is mainly composed of pretreatment equipment, zeolite concentrator rotor, regenerative thermal incinerator (RTO), fan, chimney, etc.
Zeolite Rotor and RTO Equipment is an organic waste gas treatment equipment suitable for low concentration and large air volume selected by our company based on many years of waste gas treatment engineering experience. The equipment is mainly composed of pretreatment equipment, zeolite concentrator rotor, regenerative thermal incinerator (RTO), fan, chimney, etc.
The zeolite rotor equipment mainly utilizes the porous adsorption of zeolite molecular sieves to adsorb and concentrate organic matter. The concentrated organic matter is oxidized and decomposed into harmless CO2, H2O, etc. by RTO high temperature (≥750℃).
Zeolite rotor concentrator is suitable for concentrated adsorption treatment of volatile organic compounds with low concentration and large air volume. It has unique advantages in continuous and stable operation, processing air volume, processing exhaust gas concentration and emission concentration. Zeolite concentrator rotor equipment has low pressure loss, high adsorption performance, low loss, low operating cost, excellent adsorption performance, large specific surface area, continuous and stable operation, and good desorption effect. Low energy consumption, high reliability, excellent design performance, filtration efficiency ≥95%.
The regenerative thermal incinerator (RTO) uses natural gas to directly burn organic waste gas. RTO can fully recover heat energy and greatly reduce energy consumption. It is applicable to a wide range of waste gases, with a waste gas treatment efficiency of 95%, insensitive to VOCs composition and fluctuations, low maintenance workload, safe and reliable, long equipment life, small pressure loss, and high purification efficiency.
As a mechatronic device with a high degree of automation, the burner can be divided into five major systems according to the functions it realizes: air supply system, ignition system, monitoring system, fuel system, and electronic control system.
Applicable conditions: low concentration, high air volume, temperature <50℃, humidity <90%RH;
Applicable organic components: benzene, benzene derivatives, alcohols, ketones, aldehydes, lipids, etc.;
Not applicable organic components: UV paint, curing agent, high boiling point polymer.
