The Role of Low-Temperature Magnetic Waste Pyrolysis Combustion Chambers

The Role of Low-Temperature Magnetic Waste Pyrolysis Combustion Chambers

 

All Fireprint waste-to-energy and pyrolysis systems incorporate afterburner technology, i.e., secondary combustion chambers. This is a comprehensive pollution control method that helps eliminate dioxins, furans, volatile organic compounds (VOCs), and carbon monoxide (CO), enabling more sustainable operation. The released gases are decomposed in a temperature-controlled environment.

 

When waste undergoes carbonization and pyrolysis, the equipment design avoids the dioxin formation temperature, produces no heavy metals, and eliminates fly ash from the chimney. However, processing waste at low temperatures results in the production of combustible gases such as carbon monoxide. These gaseous components are transported to the secondary combustion chamber and maintained at temperatures above 850°C for complete combustion. The process heat is used to generate electricity or heat water. In many cases, this allows operators to achieve smokeless and odorless clean combustion.