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中心筒底部缩口斜切对循环流化床锅炉旋风分离器性能的影响 被引量:6

Influence of Edge-sloped Bottom Contraction of Cyclone Separator's Vent-pipe on the Latter's Performance in Circulating Fluidized Bed Boilers
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摘要 旋风分离器是保证循环流化床锅炉具有一定颗粒循环倍率、燃烧效率、脱硫效率的关键设备。针对中心筒底部缩口斜切旋风分离器的分离效率问题进行了实验研究和数值模拟。结果发现,该种分离器的效率随分离器入口风速的提高而提高,这一结果与传统(直筒中心筒)旋风分离器类似;中心筒底端切口的朝向对分离效率有很大的影响:当切口朝向为90°时,分离效率达到最大值;当切口朝向为270°时,分离效率最小。另外,由于切口可以与分离器内部流场相协调,使得该分离器的分离效率基本上都高于传统旋风分离器,计算结果和实验结果吻合得较好。 Cyclone separators are the key equipment for warranting that circulating fluidized bed boilers have a certain particle circulation rate, with good combustion and desulfurization efficiency. Experimental investigation and numerical simulation were carried out to clarify the separation efficiency of cyclone separators which have vent pipes with edgesloped bottom contractions. Results show that the efficiency of these separators increase with the gas velocity at separators inlet, just like conventional separators (with cylindrical vent pipes), but the direction of the oblique cut at the cut at the vent pipe' s bottom has a remarkable effect on separation efficiency, which becomes maximal when the cut is 90° directed and minimal when 270° directed. Moreover, because the oblique cut can be made to harmonize with the flow field within the separator, the separation efficiency of such separators fundamentally exceeds that of conventional ones. Calculation results agree relatively well with experimental results. Figs 8, tables 3 and refs 14.
作者 陈继辉 杨成禹 卢啸风 刘汉周
机构地区 重庆大学动力工程学院
出处 《动力工程》 EI CSCD 北大核心 2007年第2期254-258,共5页 Power Engineering
关键词 动力机械工程 循环流化床锅炉 旋风分离器 分离效率 中心筒缩口斜切 power and mechanical engineering circulating fluidized bed boiler cyclone separator separation efficiency vent pipe with edge sloped bottom contraction
分类号 TK223 [动力工程及工程热物理—动力机械及工程]
  • 相关文献

参考文献14

  • 1刘静,王勤辉,骆仲泱,岑可法.600MWe超临界循环流化床锅炉的设计研究[J].动力工程,2003,23(1):2179-2184. 被引量:40
  • 2Jesse Zhu.Circulating fluidized beds-recent developments and research requirements in the near future[C].8th International Conference of CFB.HangZhou,China.May2005:41-55. 被引量:1
  • 3Semedard J-C,Gauville P,Morin J-X.Development of Ultra large CFB boilers.16th international conference on fluidized bed combustion[ C].Reno,Nevada:United States,May13-16,2001. 被引量:1
  • 4Ireneusz Lalak,Joachim Seeber,Frank Kluger,et al.Operational experiences with high efficiency cyclones:comparison between boiler A and B in the Zeran Power Plant-Warsaw,Poland.17th International Fluidized Bed Combustion Conference[C].Jacksonville:United States,May 2003:685-690. 被引量:1
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  • 7Kefa Cen,Xiaodong Li,Yangxin Li,et al.Experimental Study of a Finned Tubes Impact Gas-Solid Separator for CFB Boilers[J].Chemical Engineering Journal,1997(6):159-169. 被引量:1
  • 8刘守文,张衍国,闫涛,郭亮,吴占松.通道式分离器特性的研究[J].动力工程,2003,23(3):2461-2464. 被引量:2
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二级参考文献25

  • 1王树荣 等.炉内防磨用撞击式分离器的实验研究[A]..中国工程热物理学会燃烧学学术会议(编号:984028)[C].,1998.. 被引量:1
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  • 5Wu Yu-xin,Lu Jun-fu.Conceptual design of an 800 M we supercritical pressure circulating fluidized bed boiler and its performance prediction[C].the 8th International Confernece on Circulating Fluxized Beds May 10-13 2005. 被引量:1
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共引文献76

同被引文献38

引证文献6

二级引证文献25

动力工程
2007年 第2期

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