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黑液水煤浆燃烧固硫特性及机理 被引量:2

Desulfuration characteristics and mechanism of black liquor coal slurry
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摘要 为了解黑液水煤浆自身固硫特性及机理,采用热天平、试验炉和工业炉燃烧运行实验,定性定量比较了黑液浆与制浆原煤燃烧烟气SO2排放特性,并通过对炉内典型燃烧灰样的能谱、电子探针和X射线衍射分析,对黑液浆燃烧固硫机理进行了深入研究。结果表明,与燃煤Ca基固硫机理不同的是,NaOH和Na2CO3是两种最主要的固硫剂,黑液浆燃烧产生的SO2绝大部分被NaOH所吸收而固定在灰渣中,Na2CO3在炉内高温环境下经历的硫酸盐化过程也能吸收烟气中部分硫氧化物,固硫物相在灰渣中主要以无水芒硝、硫酸钠、钾芒硝的形态存在。 For the purpose of investigating desulfuration characteristics and mechanism of black liquor coal slurry, three combustion experiments were performed in thermobalance, test furnace and industrial boiler, respectively, and sulfur dioxide emission in the combustion fume was compared between black liquor coal slurry and the raw coal, qualitatively and quantitatively. The desulfuration mechanism of black liquor coal slurry was investigated by means of energy spectroscopy, electron probe microanalyzer and X-ray diffraction analysis of typical combustion ash samples from test furnace and industrial boiler. The result indicated that most of sulfur dioxide was absorbed by sodium hydroxide and fixed in fly ash and slag during the combustion of black liquor coal slurry, and the sulpharization process of sodium carbonate in the high temperature environment could also absorb part of sulfur dioxide. Sodium hydroxide and sodium carbonate are two principal desulfuration agents with the mechanism different from coal's calcium-base desulfuration. The occurrence form of the desulfuration phase in fly ash and slag of black liquor coal slurry was mainly thenardite, sodium sulfate and aphthitalite.
出处 《化工学报》 EI CAS CSCD 北大核心 2008年第2期484-489,共6页 CIESC Journal
基金 国家重点基础研究发展计划项目(2004CB217701,2004CB217701-01) 河北省教育厅科研基金项目(2005-1)~~
关键词 黑液水煤浆 NA 固硫特性 固硫机理 black liquor coal slurry sodium desulfuration characteristic desulfuration mechanism
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  • 1王凤寅,张荣曾,徐志强,周俊虎,曹欣玉,杨家存.造纸黑液水煤浆制备及燃烧技术研究[J].中国造纸,2005,24(10):23-27. 被引量:13
  • 2OLESZKIEWICZ J A,MAVINIC D S.Wastewater biosolids:an overview of processing,treatment and management[J].Canadian J of Civil Engineering,2001,28:102-114.
  • 3DOGRU M,MIDILI A,HOWARTH C R,et al.Gasification of sewage sludge using a throated downdraft gasifier and uncertainty analysis[J].Fuel Processing Technology,2002,75:55-82.
  • 4GUPTA R,GARG V K.Stabilization of primary sewage sludge during vermicomposting[J].J of Hazardous Materials,2008,153(3):1023-1030.
  • 5CUI H,NINOMIYA Y,MASUI M,et al.Fundamental behaviors in combustion of raw sewage sludge[J].Energy Fuels,2006,20(1):77-83.
  • 6SHAO J,LEE D H,YAN R,et al.Agglomeration characteristics of sludge combustion in a bench-scale fluidized bed combustor[J].Energy Fuels,2007,21(5):2608-2614.
  • 7MILLER B B,KANDIYOTI R,DUGWELL D R,et al.Trace element behavior during co-combustion of sewage sludge with Polish coal[J].Energy Fuels,2009,18(4):1093-1103.
  • 8XU R F,HE Q H,CAI J,et al.Effects of chemicals and blending petroleum coke on the properties of low-rank Indonesian coal water mixtures[J].Fuel Processing Technology,2008,89:249-253.
  • 9吴成军,段钰锋,赵长遂,王运军,王乾,江贻满.循环流化床内污泥与煤混烧时汞的浓度和形态分布[J].动力工程,2008,28(2):308-313. 被引量:11
  • 10胡勤海,熊云龙,朱妙军,余伟,王丹,武丽丽,戴文华.城市污泥掺制水煤浆燃烧动力学特性[J].环境科学学报,2008,28(6):1149-1154. 被引量:19

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