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本文针对微米及亚微米细颗粒物在煤粉自维持燃烧高温一维炉中的沿程演化特性进行了定量模拟.从高温火焰区到焦炭燃烧区,利用聚并机理和碳烟氧化模型计算了细颗粒物浓度的粒径分布(PSD)变化,表明碳烟氧化是焦炭燃烧区颗粒浓度分布变化的主要因素,仅聚并作用无法生成PM0.1以上颗粒.并通过预设碳烟份额得到与实验值吻合较好的焦炭燃烧区出口颗粒浓度分布曲线.

参考文献

[1] Lian Zhang;Yoshihiko Ninomiya;Tom Yamashita .Formation of submicron particulate matter (PM_1) during coal combustion and influence of reaction temperature[J].Fuel,2006(10/11):1446-1457.
[2] Gengda Li;Shuiqing Li;Ming Dong;Qiang Yao;Cliff Y. Guo;Richard L. Axelbaum .Comparison of particulate formation and ash deposition under oxy-fuel and conventional pulverized coal combustions[J].Fuel,2013(Apr.):544-551.
[3] Feng TACT;Sukhin SRINIVAS;Rolf D. REITZ;David E. FOSTER .Comparison of Three Soot Models Applied to Multi-Dimensional Diesel Combustion Simulations[J].JSME International Journal, Series B. Fluids and Thermal Engineering,2005(4):671-678.
[4] Lei Chen;Ahmed F. Ghoniem .Simulation of Oxy-Coal Combustion in a 100 kW_(th) Test Facility Using RANS and LES: A Validation Study[J].Energy & Fuels,2012(Jul./Aug.):4783-4798.
[5] Xiangpeng Gao;Yi Li;Manuel Garcia-Perez;Hongwei Wu .Roles of Inherent Fine Included Mineral Particles in the Emission of PM_(10) during Pulverized Coal Combustion[J].Energy & Fuels,2012(Nov./Dec.):6783-6791.
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