Manufactured in China, the Lvquan Zeolite Concentration Wheel is a top-quality product offered by a reliable manufacturer and supplier at competitive prices.
The Lvquan Zeolite Concentration Wheel, proudly manufactured in China, exemplifies excellence in quality and performance. As a trusted supplier, we offer competitive prices for this advanced solution, ensuring superior quality without compromise.
Utilizing the Zeolite Concentration Wheel, the LQ system effectively adsorbs organic waste gas, concentrating low-concentration, large-volume waste gas into high-concentration, small-volume waste gas. This process significantly reduces both equipment and operating costs while ensuring efficient VOC treatment. Following high-temperature desorption, the concentrated VOCs are heated and directed into the incinerator. Here, high-temperature combustion raises the temperature of combustible and harmful gases, facilitating oxidation decomposition.
Air containing VOCs is directed to the processing area of the Zeolite Concentration Wheel after passing through a pre-filter. Within this zone, VOCs are effectively removed by adsorbents, leading to purified air discharged from the processing interval of the concentrator wheel. The VOCs adsorbed in the concentrator wheel undergo desorption and concentration (by 5~15 times) through thermal treatment in the regeneration zone. Subsequently, the highly concentrated VOCs are desorbed and introduced into the heat exchanger for further temperature increase before being directed to the direct combustion waste gas incinerator. Here, high-temperature combustion raises the temperature of combustible and harmful gases, facilitating oxidation decomposition. This comprehensive process ensures an effective removal rate of waste gas exceeding 98%, meeting stringent national emission standards.
The LQ Zeolite Concentration Wheel boasts:
- High purification efficiency: Achieving a theoretical removal rate of up to 98.5% with wheel adsorption (except for specific chemicals).
- Superior desorption efficiency: Capable of effectively detaching organic compounds with boiling points below 220°C.
- Compact footprint: Occupying a relatively small space compared to other adsorption equipment.
- Reduced fire risk: Offering non-combustible properties and eliminating ignition risks during the desorption process, unlike activated carbon adsorption.
- Rapid adsorption and desorption: Characterized by short adsorption times, easy saturation, high desorption efficiency, and brief cycles.
Rotor classification | Rotary Wheel (Cake Type) | Rotary Wheel (Cylinder Type) |
Zone setting | Absorption Zone, Cooling Zone, Desorption Zone. Fresh or raw gas enters the cooling zone for cooling, and the temperature of the gas discharged from the cooling zone is 110°C. When the desorption is set at 200°C, the temperature rise is only 90°C, which is relatively energy-efficient. | Absorption Zone, Desorption Zone |
Adsorption zone desorption zone | Complete replacement | No cooling zone, and when desorption is set at 200°C, it is necessary to preheat the gas at room temperature to 200°C, which is relatively energy-consuming. |
Zeolite module replacement | Rotary Wheel (Cake Type) | Partially damaged rotary wheels can be replaced individually. |
Waste heat can be recycled | exhaust temperature of 450 ~ 500°C, waste heat can be heated thermal oil, hot water, fresh air |
High purification efficiency | the higher the purification efficiency with the increase of furnace temperature, the theoretical value can reach 99% |
Convenient operation | using traditional electric control or industrial controller control, one key to start and stop after the parameters are calibrated, to achieve unattended supervision |
1. If the waste gas contains corrosive components such as sulfur or chlorine, it is necessary to inform specifically during the selection process. Corrosion-resistant materials such as SUS2205 or higher must be used for this type of gas, and special treatment is required for this type of gas in the latter stage of processing.
2. The mixed waste gas entering the direct combustion high-temperature incineration equipment should be within the range of < 1/4LEL explosion limit.
3. The maximum temperature used in direct combustion high-temperature incineration equipment is≤900° C. High-heat materials and high concentration gases need to be diluted and processed.
4. The gas entering the direct combustion high-temperature incineration equipment should not contain dust particles or oil mist that can cause blockage or flashback, in order to prevent flashback or blockage of the heat exchanger.
5. For areas where emissions of nitrogen oxides from high-temperature incineration equipment are required to be controlled, it is necessary to inform in advance so that low-nitrogen combustion systems can be used when purchasing combustion engines, and exhaust gas treatment equipment should be equipped if the emission exceeds the standard.