Waste Incinerator Process

Waste Incinerator Process The typical waste incinerator process involves receiving and preparing waste within the facility, followed by combustion within the furnace to reduce volume and recover energy. The resulting high-temperature gases are cooled and treated to remove pollutants such as acid gases and particulate matter. Finally, the purified gases are discharged into the atmosphere through a chimney, while the remaining bottom ash is collected for further disposal or utilization. Modern waste incinerator design has completely changed. Fireprint's equipment in China utilizes low-temperature magnetic gas harmless thermal decomposition power generation technology, significantly reducing waste gas and hazardous emissions. Share Fireprint's technical process flow Waste Receiving and Preparation Transportation and Storage: Waste is transported to the facility and stored in a waste silo. Mixing: Waste is shredded, sorted, and mixed to ensure a consistent composition for continuous thermal decomposition. Feeding: A screw feeder is used to transport the waste to the combustion chamber, which has the advantage of preventing waste gas emissions. Pyrolysis: The waste undergoes sublimation, gasification, carbonization, and pyrolysis within the furnace at very low temperatures. Energy Recovery: Charcoal pyrolysis produces combustible gas, which can be used to power a generator. Gas Cooling and Treatment Cooling: Gases from high-temperature combustion of combustible gas are typically cooled through heat recovery to generate steam. Pollutant Removal: The low-temperature furnace produces no corrosive gases or particulate matter, and water gas combustion does not produce any harmful substances. Ash Treatment Ash Collection: The remaining bottom ash, with a negative ion content of 1/200 and alkalinity, does not produce any harmful substances.