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燃煤锅炉炉膛自清渣机理

SELFCLEARING OF SLAG IN FURNACE FOR THE COALFIRED BOILERS
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摘要 燃煤锅炉运行中 ,灰熔点、渣层重力和热应力都能起到抑制渣层增厚、自动除渣的作用。研究表明 ,当灰熔点 (流动温度 )小于炉内烟气温度 ,则灰熔点能起到控制渣层不断增厚的作用 ;重力能够引起厚渣大渣自发掉落 ,但易造成锅炉设备损坏 ;锅炉降负荷运行时热应力能使渣块因内应力过大而破裂掉落 ,有助于除去炉膛内小块灰渣和厚渣块的外部渣层 ,在炉膛自清洁中起着主要作用。 In operation of coalfired boilers, the ash fusion point, as well as gravity and thermal stress of the slag layer can act as restraining the slag layer to grow and selfclearing of slag in the furnace. Taking theoretic study and numeric calculation as main methods, the effect of three selfclearing mechanisms of slag, namely ash fusion point, gravity and thermal stress of slag crust, upon droppingoff of slag crust with different size has been studied. In the case of ash fusion point, i.e. fluidity temperature, is lower than the flue gas temperature in the furnace, the ash fusion point can restrain the slag infinitively to grow; and the gravity of slag can make huge and thick slag to dropoff, but this is easy to result in accident of boiler, and being not expected to happen during boiler operation; thermal stress occurred in loadreducing operation of the boiler can break slag layer with thickness from several milimeters to several centimiters, and make the slag layer to dropoff from the walltubes, being helpful to clear the small slag crust and the outer part of big slag crust, playing a main role of selfclearing of slag during safe operation of the boiler.
作者 沈又幸 杨卫娟 周俊虎 刘建忠 周志军 岑可法
机构地区 浙江省电力设计院 浙江大学
出处 《热力发电》 CAS 北大核心 2004年第9期48-51,共4页 Thermal Power Generation
关键词 燃煤锅炉 炉膛 结渣 水冷壁 热应力 自动除渣 slagging slagclearing thermal stress ash fusion point boiler selfclearing of slag furnace
分类号 TK229.6 [动力工程及工程热物理—动力机械及工程] TK227.3
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参考文献4

  • 1周俊虎,杨卫娟,刘建忠,周志军,曹欣玉,岑可法.锅炉变负荷引起的水冷壁渣层热应力[J].化工学报,2003,54(12):1678-1682. 被引量:9
  • 2岑可法等著..锅炉和热交换器的积灰、结渣、磨损和腐蚀的防止原理与计算[M].北京:科学出版社,1994:595.
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二级参考文献7

  • 1[1]Chen Lizhe(陈力哲),Wu Shaohua(吴少华).Method of Evaluating and Equipment Used for Measuring Slagging Characteristics of Coal During Combustion. Journal of Harbin Institute of Technology (哈尔滨工业大学学报),2001,33(2):197-199 被引量:1
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  • 3[6]Robinson Allen L, Buckley Steven G,Yang Nancy, Baxter Larry L. Experimental Measurements of the Thermal Conductivity of Ash Deposits*Part 2*Effects of Sintering and Deposit Microstructure. Energy and Fuels,2001,1:75-84 被引量:1
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  • 7[10]Chen Kai(陈楷).Physics Capability of Ceramics Material(陶瓷材料物理性能). Beijing: Architecture Industry Press of China,1980 被引量:1

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热力发电
2004年 第9期

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