LQ TO Exhaust Gas Treatment Equipment, manufactured in China, offers top-notch quality at competitive prices, provided by a reliable manufacturer and supplier.
LQ TO Exhaust Gas Treatment Equipment, originating from China, exemplifies superior quality and reliability. As a renowned manufacturer and supplier, we offer this advanced solution at competitive prices, ensuring both effectiveness in gas treatment and durability in performance.
Our LQ TO Exhaust Gas Treatment Equipment employs zeolite wheels to efficiently adsorb organic waste gas, converting low-concentration, high-volume waste gas into high-concentration, low-volume waste gas. This results in notable reductions in equipment and operational expenses while ensuring effective treatment of VOCs. Subsequent to high-temperature desorption, the concentrated VOCs undergo heating before being introduced into the incinerator, where high-temperature combustion elevates the temperature of combustible and harmful gases, facilitating oxidation decomposition.
Air containing VOCs is directed to the processing area of the TO Exhaust Gas Treatment Equipment after passing through a pre-filter. Within this area, VOCs are efficiently removed by adsorbents, resulting in purified air discharged from the processing interval of the concentrator wheel. The VOCs absorbed in the concentrator wheel are then desorbed and concentrated (by 5~15 times) through thermal treatment in the regeneration zone. Following this concentration process, the VOCs are desorbed and enter the heat exchanger for further temperature increase before being directed to the direct combustion waste gas incinerator. Here, the temperature of combustible and harmful gases is elevated to the reaction temperature through high-temperature combustion, leading to oxidation decomposition. This comprehensive process ensures an effective removal rate of waste gas exceeding 98%, meeting stringent national emission standards.
In the realm of TO Exhaust Gas Treatment Equipment, it excels in various aspects:
- High purification efficiency: The theoretical removal rate of wheel adsorption can achieve up to 98.5% (excluding specific chemicals).
- Exceptional desorption efficiency: Organic compounds with boiling points below 220°C can be effectively detached.
- Compact footprint: In comparison to other adsorption equipment, it occupies relatively minimal space.
- Reduced fire risk: Unlike activated carbon adsorption, zeolite wheels are non-combustible and pose no ignition risk during the desorption process.
- Swift adsorption and desorption: Short adsorption times, easy saturation, high desorption efficiency, and brief cycles characterize its operation.
| 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 |
When considering TO Exhaust Gas Treatment Equipment, several key points must be addressed:
1. Notify of corrosive components like sulfur or chlorine in waste gas for appropriate material selection, utilizing corrosion-resistant materials such as SUS2205 or higher, and implement special treatment during later stages of processing.
2. Ensure that mixed waste gas entering the direct combustion high-temperature incineration equipment remains within < 1/4LEL explosion limit.
3. Adhere to a maximum temperature of ≤900°C in direct combustion high-temperature incineration equipment, diluting and processing high-heat materials and high concentration gases accordingly.
4. Confirm that gas entering the direct combustion high-temperature incineration equipment is free from dust particles or oil mist to prevent potential blockage or flashback of the heat exchanger.
5. In areas necessitating controlled emissions of nitrogen oxides from high-temperature incineration equipment, advance notification is crucial. This enables the utilization of low-nitrogen combustion systems during the procurement of combustion engines and the inclusion of exhaust gas treatment equipment if emissions exceed regulatory standards.
