The effect of preheating temperature and combustion temperature on the formation characteristics of PM_0.4 from preheating combustion of high-alkali lignite

Preheating combustion is getting popular because it can reduce NOx formation, but its effect on particulate matter (PM) formation is still unclear. This study focuses on the effect of preheating temperature (T_p) and combustion temperature (T_c) on the formation characteristics of fine mode particles (PM_0.4) in preheating combustion. The mass-based particle size distribution, elemental compositions and morphologies of PM and number-based particle size distribution were analyzed to reveal the mechanisms of reducing PM_0.4 formation during preheating combustion. The results showed that compared with conventional combustion, preheating combustion with optimized T_p and T_c can effectively decrease the mass yield of PM_0.4 and NOx concentration by 77.9% − 82.2% and 70.9% − 77.8%, respectively. In preheating combustion, the mass yield of PM_0.4 basically didn't change with T_p. When T_c was lower than T_p, the mass yield of PM_0.4 was basically unchanged with T_c. The precursors of PM_0.4 mainly vaporized in the preheating furnace. The vaporization of inorganic elements, gas-to-particle transformation, and coagulation occurring in the combustion furnace had a negligible effect on the mass yield of PM_0.4. When T_c was higher than T_p, increasing T_c can significantly increase the vaporization of inorganic elements from unburned char/coal particles in the combustion furnace. As a result, the mass yield of PM_0.4 increased. To effectively reduce the formation of PM_0.4 and NOx, a higher T_p and a lower T_c is suggested. The volatility of inorganic elements in preheating combustion has an order as S > Na > Mg > Fe≈Ca > Si. Refractory elements including Fe, Mg, and Ca contributed the most to decrease of PM_0.4 in preheating combustion compared with conventional combustion. Preheating combustion has a stronger reductive atmosphere and a lower particle temperature. The vaporization of inorganic elements from coal particles in preheating combustion is probably determined by particle temperature rather than reductive atmosphere.