The influence of CaO additive on the emission characteristics of PM2.5 (particulates with aerodynamic diameter less than 2.5µm) was studied with a tube furnace. The combustion tests were carried out at 1123K under O2/CO2 atmosphere. The PM2.5 generated from coal combustion was collected and analyzed with an Electrical Low Pressure Impactor (ELPI). The results indicate that CaO is an important factor for the formation of PM2.5 during coal combustion under O2/CO2 atmosphere. The number and mass concentrations of PM1 diminish, but the number and mass concentrations of PM1–2.5 enhance slightly after CaO is added. The size distributions of PM2.5 are similar, which display two peaks around 0.2µm and 2.0µm, respectively. With increasing the additive weight ratio of CaO, the concentrations of S, Pb, Cu, Na and K decrease. The submicron-size ash particles smaller than 0.317µm are formed via nucleation of vaporized ash components, and the supermicron-size ash particles are formed by coagulation and coalescence of the submicron-size ash, and fragmentation and coalescence of mineral matter.
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机译:用管炉研究了CaO添加剂对PM 2.5 (空气动力直径小于2.5μm的颗粒)的影响。燃烧试验在1123K下在O 2 / CO 气氛中进行。从煤燃烧产生的PM 2.5 用电气低压撞击器(ELPI)分析。结果表明,CAO是在煤燃烧期间形成PM 2.5 在O 2 CO 的气氛中形成的重要因素。 PM1的数量和质量浓度减小,但在加入CAO后,PM 1-2.5的数量和质量浓度略微增强。 PM 2.5 的尺寸分布类似,其分别显示两个峰值约为0.2μm和2.0μm。随着CaO的添加剂重量比增加,S,Pb,Cu,Na和K的浓度降低。通过汽化灰分成核成核形成小于0.317μm的亚微米尺寸的灰分颗粒,并且通过亚微米尺寸灰分的凝固和聚结形成超晶粒粒子,以及矿物质的碎片和聚结。
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