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Incinerator parts play a crucial role in waste incineration plants, ensuring efficient combustion and emission control. These components optimize performance, enhance safety, and meet strict environmental standards. High-quality materials and precise engineering contribute to their durability and effectiveness.
Parameter | Value |
Primary Combustion Chamber | Used for initial waste burning. Starts with diesel, then sludge oil. |
Secondary Combustion Chamber | Burns unburned gases at high temperatures with a post-burner. |
Main Burner | Heats the incinerator and ignites waste. Can be turned off manually or automatically. |
Auxiliary Burner | Located in the secondary chamber, helps reduce emissions. |
Primary Air Fan | Supplies air to the primary chamber for drying and burning waste. |
Secondary Air Fan | Injects air into the secondary chamber for better combustion. |
Steam Boiler | Uses exhaust gases to heat water and produce steam. |
Steam Turbine/Generator | Converts steam into mechanical and electrical energy. |
Flue Gas Purification System | Removes harmful substances, including acid gases and heavy metals. |
Emission Monitoring System | Tracks pollutants to ensure regulatory compliance. |
Waste Hopper | Stores waste before incineration. |
Waste Crane | Moves waste from the hopper to the feed inlet. |
Waste Feeding Chute | Transfers waste from the crane into the primary chamber. |
Bottom Ash Hopper | Collects ash after incineration. |
Bottom Ash Crane | Removes bottom ash for further processing. |
Control Panel and Thermocouples | Regulate operations and control combustion temperature. |
These parts are essential for maintaining the efficiency and safety of waste incineration plants. They help optimize combustion and reduce emissions.
- The primary combustion chamber handles different waste types. It uses high-temperature refractory lining for complete burning.
- The secondary combustion chamber processes gases at over 1100°C. It improves gas mixing and reduces NOx and VOC emissions.
- The primary air fan supplies air to the main chamber. It supports full combustion and minimizes pollutant formation.
- The secondary air fan injects air into the secondary chamber. It enhances combustion and reduces emissions.
- The heat exchange system transfers combustion heat to water or fluids, producing steam.
- The steam drives a turbine connected to a generator. This system improves energy efficiency and power generation.
- The flue gas purification system includes gas reactors, calcium hydroxide, and activated carbon. It removes harmful substances.
- The emission monitoring system continuously tracks pollutants. It adjusts combustion settings to meet environmental standards.
- The control panel and thermocouples regulate operations. They ensure the chamber reaches the required temperature before waste loading.
- Automated controls adjust parameters based on waste type. This improves efficiency and simplifies operation.
- The waste hopper and crane store and transport waste. The system can handle solid waste and sludge.
- The waste feeding chute ensures a smooth transfer into the combustion zone.
- The bottom ash hopper and crane collect and transport ash. They support efficient disposal and further processing.
- The system features sandblasted and powder-coated surfaces. It offers durability and resistance to wear.
- High automation levels allow integration with international brand components like Siemens and Schneider.
A: It burns waste at high temperatures, starting with diesel and switching to sludge oil. It reduces carbon content and prepares gases for secondary combustion.
A: It processes unburned gases from the primary chamber at over 1100°C. This reduces pollutants like NOx and VOCs, ensuring cleaner emissions.
A: The flue gas purification system removes harmful substances using filters, activated carbon, and chemical treatments. The emission monitoring system ensures compliance.
A: The bottom ash hopper collects residual ash. The bottom ash crane removes and transports it for further treatment or disposal.
A: High-temperature refractory materials, corrosion-resistant coatings, and precise engineering ensure long-term performance and reliability.
Incinerator parts play a crucial role in waste incineration plants, ensuring efficient combustion and emission control. These components optimize performance, enhance safety, and meet strict environmental standards. High-quality materials and precise engineering contribute to their durability and effectiveness.
Parameter | Value |
Primary Combustion Chamber | Used for initial waste burning. Starts with diesel, then sludge oil. |
Secondary Combustion Chamber | Burns unburned gases at high temperatures with a post-burner. |
Main Burner | Heats the incinerator and ignites waste. Can be turned off manually or automatically. |
Auxiliary Burner | Located in the secondary chamber, helps reduce emissions. |
Primary Air Fan | Supplies air to the primary chamber for drying and burning waste. |
Secondary Air Fan | Injects air into the secondary chamber for better combustion. |
Steam Boiler | Uses exhaust gases to heat water and produce steam. |
Steam Turbine/Generator | Converts steam into mechanical and electrical energy. |
Flue Gas Purification System | Removes harmful substances, including acid gases and heavy metals. |
Emission Monitoring System | Tracks pollutants to ensure regulatory compliance. |
Waste Hopper | Stores waste before incineration. |
Waste Crane | Moves waste from the hopper to the feed inlet. |
Waste Feeding Chute | Transfers waste from the crane into the primary chamber. |
Bottom Ash Hopper | Collects ash after incineration. |
Bottom Ash Crane | Removes bottom ash for further processing. |
Control Panel and Thermocouples | Regulate operations and control combustion temperature. |
These parts are essential for maintaining the efficiency and safety of waste incineration plants. They help optimize combustion and reduce emissions.
- The primary combustion chamber handles different waste types. It uses high-temperature refractory lining for complete burning.
- The secondary combustion chamber processes gases at over 1100°C. It improves gas mixing and reduces NOx and VOC emissions.
- The primary air fan supplies air to the main chamber. It supports full combustion and minimizes pollutant formation.
- The secondary air fan injects air into the secondary chamber. It enhances combustion and reduces emissions.
- The heat exchange system transfers combustion heat to water or fluids, producing steam.
- The steam drives a turbine connected to a generator. This system improves energy efficiency and power generation.
- The flue gas purification system includes gas reactors, calcium hydroxide, and activated carbon. It removes harmful substances.
- The emission monitoring system continuously tracks pollutants. It adjusts combustion settings to meet environmental standards.
- The control panel and thermocouples regulate operations. They ensure the chamber reaches the required temperature before waste loading.
- Automated controls adjust parameters based on waste type. This improves efficiency and simplifies operation.
- The waste hopper and crane store and transport waste. The system can handle solid waste and sludge.
- The waste feeding chute ensures a smooth transfer into the combustion zone.
- The bottom ash hopper and crane collect and transport ash. They support efficient disposal and further processing.
- The system features sandblasted and powder-coated surfaces. It offers durability and resistance to wear.
- High automation levels allow integration with international brand components like Siemens and Schneider.
A: It burns waste at high temperatures, starting with diesel and switching to sludge oil. It reduces carbon content and prepares gases for secondary combustion.
A: It processes unburned gases from the primary chamber at over 1100°C. This reduces pollutants like NOx and VOCs, ensuring cleaner emissions.
A: The flue gas purification system removes harmful substances using filters, activated carbon, and chemical treatments. The emission monitoring system ensures compliance.
A: The bottom ash hopper collects residual ash. The bottom ash crane removes and transports it for further treatment or disposal.
A: High-temperature refractory materials, corrosion-resistant coatings, and precise engineering ensure long-term performance and reliability.
