Processing charcoal, the first face is environmental protection, how to solve the problem of flue gas emissions in charcoal production
The first is to completely solve the smoke exhaust problem of the charcoal kiln. This method is very thorough, without any flue gas exhaust. The disadvantage is that the investment is large, and the supporting equipment needs to be installed when the plant is built, but everyone also knows that anyway, thorough Flue gas recovery, the smell of burning wood is still there, basically can be smelled about 20 meters away from the charcoal kiln, but the smoke is no longer visible, so the most effective is to have an independent courtyard far away from the residential area, the effect is better, And the current Environmental Protection Agency also recognizes this method of flue gas recovery, can be described as once and for all.
The second method is to use biomass pyrolysis technology to produce charcoal. The flue gas produced by this method is more than 50% lower than that of traditional charcoal kilns. It is suitable for charcoal plants with independent courtyards far away from residential areas. Only a small amount of smoke is generated when the charcoal production equipment is ignited, and the smoke is very little after 2 hours, so this method can also effectively solve the current smoke problem in charcoal production.
The third method is how to solve the problem of flue gas emissions in the process of charcoal production. Because its solid wood charcoal has a certain difference between raw materials and production processes and traditional raw charcoal, we can optimize and carbonize the process according to the charcoal production characteristics and raw material characteristics Engineering reorganization to effectively solve the flue gas emissions of charcoal in the process of rod making and firing. At present, all charcoal production has undergone process reorganization and process optimization. The flue gas generated in the charcoal production process is lower than that of traditional charcoal production. More than 40%, and the production cycle of charcoal is shortened, and the yield and quality of charcoal have also been significantly improved.