What are the conditions for using the low-temperature flash mineralization furnace?
Low-temperature flash mineralization equipment is a domestic waste pyrolysis incinerator built with scientific and technological concepts that has grown in recent years. Its main purpose is to distinguish it from high-temperature incineration. To reduce energy consumption, the treatment method is similar to that of imitating the natural form, which reduces the amount of white waste in a harmless state. It causes less environmental pollution and is slightly slower, but its disadvantages can be avoided by using large volumes.
Low-temperature flash mineralization furnace
The structure of traditional low-temperature waste pyrolysis furnace is relatively fixed, the treatment effect is not ideal, and it is easy to cause secondary pollution. Huoyin Environmental Solid Waste Pyrolysis Furnace is an in-roll degradation equipment that integrates pyrolysis and melting and gasification. By controlling the temperature and oxygen supply conditions of the equipment, the garbage can be dried, melted and pyrolyzed in the same furnace. ?
Seaside domestic waste
The carbon black, the solid phase product of pyrolysis, reacts with the trace amount of oxygen-rich air introduced from the lower part of the furnace in the smoldering zone and falls into the anaerobic zone at the bottom. Negative ion ash is slowly formed in the anaerobic state over time. Most rural domestic waste has not been sorted and contains a large amount of high-moisture components such as food waste. In different places, due to differences in economic development and people's living standards, the composition and characteristics of domestic waste also show great differences.
The processed negative ion ash
After carbonization of domestic waste in a closed space, the hemicellulose structure has branched chains, which are unstable components in wood. The temperature ranges from 225 to 325 ℃ decomposes, carbide is more easily decomposed thermally than cellulose, and its pyrolysis mechanism is similar to that of cellulose.