Lvquan Waste Liquid Incinerator, manufactured by a trusted Chinese manufacturer and supplier, offers competitive prices and outstanding quality, providing an effective solution for waste liquid disposal.
The LvQuan Waste Liquid Incinerator, hailing from China, stands as a top-tier product crafted and delivered by a trusted manufacturer in the waste management sector. Offering competitive pricing, this incinerator emerges as a cost-effective solution for facilities in need of efficient disposal methods for liquid waste. Its superior quality, attained through stringent manufacturing processes and rigorous quality checks, ensures long-lasting and dependable functionality. Employing advanced incineration technology, the Lvquan Waste Liquid Incinerator adeptly processes waste liquids, reducing their volume and toxicity while keeping environmental repercussions at bay. With its intuitive design and stellar performance, it proves to be an optimal choice for diverse industrial and commercial settings.
The Waste Liquid Incinerator is another application of the heat storage type thermal incinerator. Compressed waste liquid is atomized and sprayed into the combustion chamber through a nozzle, and high-temperature oxidation is applied to the waste liquid through the characteristics of RTO heat storage and energy efficiency, resulting in safe emission. This equipment effectively reduces heat energy loss, saves energy, has a high purification efficiency, and does not produce secondary pollution.
| Application Industries | Petrochemicals,solid waste treatment,pharmaceuticals,and chemical industries. |
| Concentration Range | 500~5000mg/m²(2~12%LEL) |
The Waste Liquid Incinerator heats the combustion chamber to above 800°C.The compressed waste liquid is atomized and sprayed into the combustion chamber and fully mixed with high-temperature air to oxidize and decompose into carbon dioxide and water. The high-temperature gas produced by oxidation flows through specially designed ceramic heat storage bodies,which raises the temperature and the "heat storage"of the ceramic is used to preheat the subsequent fresh air enter- ing the chamber, thus saving fuel consumed for gas heating. The ceramic heat stor- age bodies should be divided into three or more zones or chambers, and each heat storage chamber undergoes heating, releasing, and cleaning procedures,working continuously in cycles.
1.Low energy consumption:When the intake concentration is between 1500~2000mg/m3, the system can basically operate naturally without requiring any fuel supply.
2.High waste heat recovery efficiency:The use of new materials (heat storage ce- ramics) technology allows for waste heat recovery efficiency of up to 95%.
3.Easy operation:The system can be controlled by either traditional electronic con- trols or an industrial controller. After parameter calibration,the one-key start-stop function can be used to achieve unattended operation.
|
Valve selection |
Poppet valve | Butterfly valve |
| Purification rate | ≤98% | <99.3% |
| nstallation method | ntegral installation | Single installatie |
The Waste Liquid Incinerator is another application of the heat storage type thermal incinerator.Compressed waste liquid is atomized and sprayed into the combustion chamber through a nozzle, and high-temperature oxidation is applied to the waste liquid through the characteristics of RTO heat storage and energy efficiency, resulting in safe emission.This equipment effectively reduces heat energy loss,saves energy,has a high purification efficiency,and does not produce secondary pollution.
| Process 1 | Process 2 | Process 3 | |
|
Simple schematic diagram |
|
|
|
|
The first room |
Fresh air absorbs heat and heat storag ceramic body 1 exerts heat |
Heat storage ceramic body 1 untreated exhaust gas back-blowing furnace combusion |
The clean gas is discharged from the heat storage ceramic body 1 to absorb heat |
|
The second roon |
Clean gas out of the heat storage ceramic body 2 heat absorption |
Fresh air absorbs heat and heat storage ceramic body 2 exerts heat |
Heat storage ceramic body 2 untreated exhaust gas back- blowing furnace combustion |
|
The third chambe |
Heat storage ceramic body 3 untreate exhaust gas back-blowing furnace combustion |
Clean gas discharge heat storage ceramic body 3 absorbs heat |
Fresh air absorbs heat and heat storage ceramic body 3 exerts heat |
|
Combustion chamber |
After the temperature reaches 800°C,the nozzle sprays the waste liquid and thus decomposes by high temperature oxidation. | ||
1.If the exhaust gas contains corrosive components such as sulfur and chlorine, Waste Liquid Incinerator is necessary to inform the supplier during the selection process. Corrosion-resistant materials such as SUS2205 or higher grade materials must be used for manufactur-ing, and special treatment is required for such gases in the later stage.
2.The maximum temperature limit for a heat storage high-temperature incineration device is ≤960°C.High-heat materials and high-concentration gases require dilution treatment. If there are special requirements,please inform the supplier to make specific demands on insulation in the design stage.
3.The gas entering the heat storage high-temperature incineration device must not contain dust particles that will cause blockages or tempering, as well as oil mist to prevent tempering and blockage of the heat storage ceramics.
4.For areas where there are emission requirements for nitrogen oxides from high-temperature incineration devices, special attention must be given so that low-ammonia combustion systems are used when purchasing combustion equipment. If there are higher nitrogen contents in the exhaust gas,even with low-nitro-gen combustion systems, the emissions standards cannot be met, and further de-nitrification treatment is required.
