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| Quantity: | |
|---|---|
| Parameter | Details |
|---|---|
| Primary Combustion Chamber | Used for the initial burning of waste. Starts with diesel oil and later uses sludge oil. |
| Secondary Combustion Chamber | Burns off unburned gases from the primary chamber at a higher temperature with post-burner. |
| Main Burner | Heats the incinerator and ignites waste. Can be manually or automatically turned off. |
| Auxiliary Burner | Located in the secondary combustion chamber, helps reduce harmful emissions. |
| Primary Air Fan | Supplies air to the primary combustion chamber to aid in drying and burning of waste. |
| Secondary Air Fan | Injects air into the secondary chamber to optimize combustion conditions. |
| Steam Boiler | Uses exhaust gases from burning to heat water and generate steam for power generation. |
| Steam Turbine/Generator | Converts steam heat into mechanical and electrical energy for energy recovery. |
| Flue Gas Purification System | Removes harmful substances from flue gases, including acid gases and heavy metals. |
| Emission Monitoring System | Monitors pollutants in flue gases to ensure compliance with environmental regulations. |
| Waste Hopper | Stores waste before it is fed into the incinerator. |
| Waste Crane | Transfers waste from the hopper to the incinerator feed inlet. |
| Waste Feeding Chute | Moves waste from the crane into the primary combustion chamber. |
| Bottom Ash Hopper | Collects bottom ash after the waste is incinerated. |
| Bottom Ash Crane | Removes bottom ash from the hopper for further treatment. |
| Control Panel and Thermocouples | Regulate operations and ensure proper heating of the combustion chamber before loading waste. |
XinRuiJi offers a complete range of high-quality incinerator parts designed for efficient waste management. Our components ensure optimal performance, reliability, and environmental safety.
Primary Combustion Chamber: Designed for the initial burning of waste, it receives diesel oil to start the fire and later uses sludge oil. This chamber helps dry waste and burns off most carbon content.
Secondary Combustion Chamber: It burns off unburned gases from the primary chamber at a higher temperature. The secondary chamber features a post-burner and maintains a 2-second retention time, ensuring complete oxidation of volatile gases.
Main Burner: Heats the incinerator and ignites the waste. It is used at the beginning of the burning process and can be manually or automatically turned off once combustion begins.
Auxiliary Burner: Installed in the secondary combustion chamber, it helps reduce harmful emissions by burning excess pollutants.
Primary Air Fan: Supplies air to the primary combustion chamber, aiding in waste drying and combustion.
Secondary Air Fan: Injects air into the secondary chamber, optimizing combustion conditions and ensuring complete burning of volatile gases.
Steam Boiler: Utilizes high-temperature exhaust gases from waste burning to heat water and generate steam. This steam can be used for power generation or heating.
Steam Turbine/Generator: Converts thermal energy from the steam into mechanical energy, then into electrical energy, facilitating energy recovery.
Flue Gas Purification System: Includes fuel gas reactors, calcium hydroxide, activated carbon, and large filters to remove harmful substances from flue gases, ensuring compliance with environmental standards.
Emission Monitoring System: Continuously monitors pollutants in flue gases, ensuring that emissions meet regulatory requirements.
Waste Hopper: Stores waste before it is incinerated.
Waste Crane: Transfers waste from the hopper to the incinerator feed inlet.
Waste Feeding Chute: Moves waste from the crane into the primary combustion chamber.
Bottom Ash Hopper: Collects bottom ash after incineration.
Bottom Ash Crane: Removes bottom ash from the hopper for further treatment.
Control Panel and Thermocouples: Regulate machine operations, ensuring the combustion chamber is heated to the proper temperature before waste loading and adjusting settings based on waste type.
These parts are engineered for long-lasting performance and are essential in maximizing the efficiency and safety of waste incineration plants.
Incinerator Parts for Waste Incineration Plant features the following characteristics:
Primary Combustion Chamber: Handles various types of waste, such as municipal solid waste and industrial by-products. Built with durable refractory lining, it withstands high temperatures and ensures complete combustion, reducing harmful by-products.
Secondary Combustion Chamber: Further processes partially combusted gases at temperatures above 1100°C. It optimizes gas mixing and oxidation to minimize NOx and VOC emissions.
Primary Air Fan: Supplies necessary air to the primary chamber, promoting complete combustion. It ensures enough oxygen is available to reduce pollutant formation.
Secondary Air Fan: Injects air into the secondary chamber, optimizing combustion and ensuring full burning of volatile gases to lower emissions.
Heat Exchange System: Transfers heat from combustion to water or other fluids, producing steam. The steam drives turbines linked to generators, recovering energy for electricity production. Modern designs improve energy efficiency with added equipment like superheaters.
Flue Gas Purification System: Includes fuel gas reactors, calcium hydroxide, activated carbon, and large filters to remove harmful substances like acid gases and heavy metals, ensuring compliance with environmental regulations.
Emission Monitoring System: Continuously monitors pollutants in flue gases and adjusts combustion parameters to ensure compliance with emission standards.
Control Panel and Thermocouples: Regulates machine operations, ensuring the combustion chamber reaches the correct temperature before loading waste. It allows for parameter adjustments based on waste type, offering automated control for precision and ease of operation.
Waste Hopper and Waste Crane: The hopper stores waste, while the crane transports it to the incinerator feed inlet. The system is designed to handle various waste types, including solid waste and sludge.
Waste Feeding Chute: Transfers waste from the crane to the primary combustion chamber, ensuring smooth feeding into the combustion zone.
Bottom Ash Hopper and Bottom Ash Crane: Collects and manages bottom ash after incineration. The crane removes ash for further processing, enabling efficient disposal and management of residuals.
The production of "Incinerator Parts for Waste Incineration Plant" follows a structured process to ensure high-quality, efficient, and environmentally friendly operation.
Define Key Parameters: Determine waste handling capacity, waste types, chemical composition, and chlorine content.
Energy Recovery Analysis: Assess appropriate energy recovery systems such as heat recovery and power generation.
Output Results: Include system layout, commercial plans, schedules, and preliminary construction drawings for investor communication.
Equipment Sizing: Design dimensions of equipment like rotary kilns and feed systems based on processing needs.
Instrument and Electrical Drawings: Prepare control panel and electrical schematics for installation.
PLC Software Setup: Develop PLC software for plant control and test the SCADA system.
Submit Mechanical Drawings: Provide mechanical blueprints for the workshop to start fabrication, including refractory-lined components.
Manufacturing Order: Determine the production sequence based on site construction and access restrictions, such as chimney or filter system needs.
Component Assembly: Transport and assemble all parts at the site, ensuring compliance with design specifications.
Piping and Electrical Connections: Complete all piping and electrical connections for system integrity and safety.
System Testing: Conduct comprehensive system tests to verify functionality of combustion, gas treatment, and energy recovery systems.
Performance Tuning: Adjust settings based on test results to optimize combustion efficiency and emissions compliance.
Warranty Period: Offer a warranty to address potential issues during initial operation.
Operation and Maintenance Service: Provide ongoing support to ensure long-term, stable operation.
Feedback and Improvement: Collect user feedback for continuous improvement in design and production processes.
These steps ensure that "Incinerator Parts for Waste Incineration Plant" are manufactured to the highest quality standards, delivering effective and sustainable performance.
| Parameter | Details |
|---|---|
| Primary Combustion Chamber | Used for the initial burning of waste. Starts with diesel oil and later uses sludge oil. |
| Secondary Combustion Chamber | Burns off unburned gases from the primary chamber at a higher temperature with post-burner. |
| Main Burner | Heats the incinerator and ignites waste. Can be manually or automatically turned off. |
| Auxiliary Burner | Located in the secondary combustion chamber, helps reduce harmful emissions. |
| Primary Air Fan | Supplies air to the primary combustion chamber to aid in drying and burning of waste. |
| Secondary Air Fan | Injects air into the secondary chamber to optimize combustion conditions. |
| Steam Boiler | Uses exhaust gases from burning to heat water and generate steam for power generation. |
| Steam Turbine/Generator | Converts steam heat into mechanical and electrical energy for energy recovery. |
| Flue Gas Purification System | Removes harmful substances from flue gases, including acid gases and heavy metals. |
| Emission Monitoring System | Monitors pollutants in flue gases to ensure compliance with environmental regulations. |
| Waste Hopper | Stores waste before it is fed into the incinerator. |
| Waste Crane | Transfers waste from the hopper to the incinerator feed inlet. |
| Waste Feeding Chute | Moves waste from the crane into the primary combustion chamber. |
| Bottom Ash Hopper | Collects bottom ash after the waste is incinerated. |
| Bottom Ash Crane | Removes bottom ash from the hopper for further treatment. |
| Control Panel and Thermocouples | Regulate operations and ensure proper heating of the combustion chamber before loading waste. |
XinRuiJi offers a complete range of high-quality incinerator parts designed for efficient waste management. Our components ensure optimal performance, reliability, and environmental safety.
Primary Combustion Chamber: Designed for the initial burning of waste, it receives diesel oil to start the fire and later uses sludge oil. This chamber helps dry waste and burns off most carbon content.
Secondary Combustion Chamber: It burns off unburned gases from the primary chamber at a higher temperature. The secondary chamber features a post-burner and maintains a 2-second retention time, ensuring complete oxidation of volatile gases.
Main Burner: Heats the incinerator and ignites the waste. It is used at the beginning of the burning process and can be manually or automatically turned off once combustion begins.
Auxiliary Burner: Installed in the secondary combustion chamber, it helps reduce harmful emissions by burning excess pollutants.
Primary Air Fan: Supplies air to the primary combustion chamber, aiding in waste drying and combustion.
Secondary Air Fan: Injects air into the secondary chamber, optimizing combustion conditions and ensuring complete burning of volatile gases.
Steam Boiler: Utilizes high-temperature exhaust gases from waste burning to heat water and generate steam. This steam can be used for power generation or heating.
Steam Turbine/Generator: Converts thermal energy from the steam into mechanical energy, then into electrical energy, facilitating energy recovery.
Flue Gas Purification System: Includes fuel gas reactors, calcium hydroxide, activated carbon, and large filters to remove harmful substances from flue gases, ensuring compliance with environmental standards.
Emission Monitoring System: Continuously monitors pollutants in flue gases, ensuring that emissions meet regulatory requirements.
Waste Hopper: Stores waste before it is incinerated.
Waste Crane: Transfers waste from the hopper to the incinerator feed inlet.
Waste Feeding Chute: Moves waste from the crane into the primary combustion chamber.
Bottom Ash Hopper: Collects bottom ash after incineration.
Bottom Ash Crane: Removes bottom ash from the hopper for further treatment.
Control Panel and Thermocouples: Regulate machine operations, ensuring the combustion chamber is heated to the proper temperature before waste loading and adjusting settings based on waste type.
These parts are engineered for long-lasting performance and are essential in maximizing the efficiency and safety of waste incineration plants.
Incinerator Parts for Waste Incineration Plant features the following characteristics:
Primary Combustion Chamber: Handles various types of waste, such as municipal solid waste and industrial by-products. Built with durable refractory lining, it withstands high temperatures and ensures complete combustion, reducing harmful by-products.
Secondary Combustion Chamber: Further processes partially combusted gases at temperatures above 1100°C. It optimizes gas mixing and oxidation to minimize NOx and VOC emissions.
Primary Air Fan: Supplies necessary air to the primary chamber, promoting complete combustion. It ensures enough oxygen is available to reduce pollutant formation.
Secondary Air Fan: Injects air into the secondary chamber, optimizing combustion and ensuring full burning of volatile gases to lower emissions.
Heat Exchange System: Transfers heat from combustion to water or other fluids, producing steam. The steam drives turbines linked to generators, recovering energy for electricity production. Modern designs improve energy efficiency with added equipment like superheaters.
Flue Gas Purification System: Includes fuel gas reactors, calcium hydroxide, activated carbon, and large filters to remove harmful substances like acid gases and heavy metals, ensuring compliance with environmental regulations.
Emission Monitoring System: Continuously monitors pollutants in flue gases and adjusts combustion parameters to ensure compliance with emission standards.
Control Panel and Thermocouples: Regulates machine operations, ensuring the combustion chamber reaches the correct temperature before loading waste. It allows for parameter adjustments based on waste type, offering automated control for precision and ease of operation.
Waste Hopper and Waste Crane: The hopper stores waste, while the crane transports it to the incinerator feed inlet. The system is designed to handle various waste types, including solid waste and sludge.
Waste Feeding Chute: Transfers waste from the crane to the primary combustion chamber, ensuring smooth feeding into the combustion zone.
Bottom Ash Hopper and Bottom Ash Crane: Collects and manages bottom ash after incineration. The crane removes ash for further processing, enabling efficient disposal and management of residuals.
The production of "Incinerator Parts for Waste Incineration Plant" follows a structured process to ensure high-quality, efficient, and environmentally friendly operation.
Define Key Parameters: Determine waste handling capacity, waste types, chemical composition, and chlorine content.
Energy Recovery Analysis: Assess appropriate energy recovery systems such as heat recovery and power generation.
Output Results: Include system layout, commercial plans, schedules, and preliminary construction drawings for investor communication.
Equipment Sizing: Design dimensions of equipment like rotary kilns and feed systems based on processing needs.
Instrument and Electrical Drawings: Prepare control panel and electrical schematics for installation.
PLC Software Setup: Develop PLC software for plant control and test the SCADA system.
Submit Mechanical Drawings: Provide mechanical blueprints for the workshop to start fabrication, including refractory-lined components.
Manufacturing Order: Determine the production sequence based on site construction and access restrictions, such as chimney or filter system needs.
Component Assembly: Transport and assemble all parts at the site, ensuring compliance with design specifications.
Piping and Electrical Connections: Complete all piping and electrical connections for system integrity and safety.
System Testing: Conduct comprehensive system tests to verify functionality of combustion, gas treatment, and energy recovery systems.
Performance Tuning: Adjust settings based on test results to optimize combustion efficiency and emissions compliance.
Warranty Period: Offer a warranty to address potential issues during initial operation.
Operation and Maintenance Service: Provide ongoing support to ensure long-term, stable operation.
Feedback and Improvement: Collect user feedback for continuous improvement in design and production processes.
These steps ensure that "Incinerator Parts for Waste Incineration Plant" are manufactured to the highest quality standards, delivering effective and sustainable performance.
