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固定床燃煤方式中烟炱的形成及其消除方法 被引量:3

STUDY FOR THE FORMATION AND COMBUSTION OF THE SOOTS IN THE GAS FROM THE COAL GRATE-FIRING
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摘要 分析了固定床燃煤方式中烟炱的形成机理及烟炱在含氧烟气中的燃烧条件,从烟炱的温度、周围的氧浓度以及烟炱在炉内停留时间等方面提出了在煤的固定床燃烧中促使烟炱燃烧的方法,以消除该燃煤方式中产生的黑烟.根据理论分析,在设计试验燃煤倒焰窑时,采取一些改进措施。 The formation and combustion of soots in the gas from coal grate-firing bed have been analyzed and studied. According to the soot characteristics of combustion, it is important for the elimination of soots in gas from the coal grate-firing to control the surface temperature of the soot,oxygen content around the soot and staying time of the soot. Some measures have been taken in the design of structure for the test down-draft furnace,and so the soots in exhausted gas from the test furnace have been apparently reduced.
作者 张全 傅志华
机构地区 中南工业大学应用物理与热能工程系
出处 《中南工业大学学报》 CSCD 1996年第3期295-297,共3页 Journal of Central South University of Technology(Natural Science)
关键词 烟炱 固定床 燃烧 消除法 烟气 soot coal grate-firing
分类号 TQ534.9 [化学工程—煤化学工程]
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参考文献3

二级参考文献2

  • 1张海,硕士学位论文,1992年
  • 2维列斯基 T B,煤粉燃烧动力学,1986年

共引文献15

同被引文献12

  • 1蔡锐彬,卢振雄译.燃烧污染与环境保护[M].华南理工大学出版社,1998.4.
  • 2Palmer HB, Cullis CF. The formation of carbon from gases[J]. Chemistry and Physics of Carbon, 1965,(1) :265-325.
  • 3Beltrame A, Porshnev P, Merchan-merchan W, et al.Soot and no formation in methane-oxygen enriched diffusion flames[J]. Combustion and Flame, 2001,124:295-310.
  • 4MIller James A, Melius Carl F. Kinetic and thermodynamic issues in the formation of aromatic compounds in flames of aliphatic fuels[J]. Combustion and Flame,1992,91(8):21-39.
  • 5Krestinin AV. Detailed modeling of soot formation in hydrocarbon pyrolysis [J]. Combustion and Flame,2000,121: 513-524..
  • 6Richter H, Howard JB. Formation for polycyclic hydrocarbons and their growth to soot-a review of chemaical reaction pathways[J]. Progress in Energy and combustion science,2000,26: 565-608.
  • 7Ashwani K Gupta. Flame characteristics and challenges with high temperature air combustion[A]. 2nd International Seminar on High Temperature Combustion in Industrial Fumaces[C]. 2000.
  • 8Ryoichi R, Masayuki T, Hideo T. Optical analysis of highly preheated air combustion[A]. 2nd International Seminar on High Temperature Combustion in Industrial Furnaces[C], 2000.
  • 9Nishimura M, Suzuki T, Nakanishi R, Kitamura R.Low-NOx combustion under preheated air temperature condition in an industrial furnace[J]. Energy Conversion and Management, 1997,38(10~13): 1353- 1363.
  • 10Farias TL, Carvalho MG. Radiative heat transfer in soot-containing combustion systems with aggregation[J]. Energy Conversion and Management, 1998, 41(17): 2581-2587.

引证文献3

二级引证文献20

中南工业大学学报
1996年 第3期

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