期刊文献+

钙基类吸附剂脱除烟气中气态汞的试验研究 被引量:52

Ca-based sorbents for mercury vapor removal from flue gas
下载PDF
导出
摘要 用恒温水浴中汞渗透管的汞蒸气发生装置和其他烟气主要气体成分模拟烟气条件,在小型固定床试验台上开展钙基类物质作为吸附剂脱除单质汞的试验研究。结果表明,无SO2时,两种钙基吸附剂以及飞灰和熟石灰混合物对单质汞的吸附效率不高;当SO2存在时,对单质汞的脱除效率可增加15%-20%,30min时吸附量可增加50%以上,且吸附在较高温度下更有利。其原因在于SO2同钙基吸附剂之间的化学反应,在钙基物质表面产生了活性区域,有利于提高对Hg^0的捕捉效率,化学吸附起到了促进吸附的作用。 The characteristics of mercury adsorption by Ca-based sorbents were experimentally measured in a bench-scale fixed-bed mercury adsorption facility with a mercury permeation tube embedded in an isothermal water bath and simulated flue gas compositions. The adsorption performance of calcium-based sorbents including lime, hydrated lime and a mixture of fly ash and hydrated lime is better in the presence of SO2. The presence of SO2 in the simulated flue gas can enhance the Hg^0 capture efficiency from about 15% to 20%, and the adsorption capacity is increased more than 50% at 30 rain of exposure of sorbents to flue gas. It is found that there is a higher capture effect at higher temperature. It is supposed that heterogeneous reactions of Ca-based sorbents and SO2 can increase Hg^0 capture , the sites for Hg^0 capture are influenced positively by the presence of SO2. The behavior can be correlated with the chemisorption mechanism. The potential of Ca-based sorbents used to control Hg and SO2 emissions cost-effectively is great.
出处 《燃料化学学报》 EI CAS CSCD 北大核心 2006年第5期557-561,共5页 Journal of Fuel Chemistry and Technology
基金 国家自然科学基金(5060806550476056) 国家高技术研究发展计划(863计划 2005AA520080)
关键词 汞控制 燃煤 钙基吸附剂 烟气 SO2 mercury removal coal-fired Ca-based sorbents flue gas SO2
  • 相关文献

参考文献13

  • 1PACYNA E G, PACYNA J M. Global emissions of mercury from anthropogenic sources in 1995 [ J ]. Water, Air Soil Pollut, 2002, 137 ( 1 -4) : 149-165.
  • 2PELTIER R. Mercury removal standards are coming. Where's the technology [ J ]. Power, 2003, 147 (4) : 40-47.
  • 3PAVLISH J H, SONDREAL E A, MANN M D, OLSON E S, GALBREATH K C, LAUDAL D L, BENSON S A. Status review of mercury control option for coal-fired power plants[ J]. Fuel Process Technol, 2003, 82(2-3) : 89-165.
  • 4王宝凤,王刚,李文,陈皓侃,李保庆.亚临界水条件下煤中汞的脱除[J].燃料化学学报,2004,32(5):513-516. 被引量:8
  • 5ZENG H, JIN F, GUO J. Removal of elemental mercury from coal combustion flue gas by chloride-impregnated activated carbon [ J ]. Fuel,2004, 83(1 ) : 143-146.
  • 6GHORISHI S B, SEDMAN C B. Low concentration mercury sorption mechanisms and control by calcium-based sorbents : Application in coalfired processes[ J]. J Air Pollut Control Assoc, 1998, 48(12) : 1191-1198.
  • 7GHORISHI S B, SINGER C F, SEDMAN C B. Preparation and evaluation of modified lime and silica-lime sorbents for mercury vapor emission control[ A] EPRI-DOE-EPA Combined Utility Air Pollution Control Symposium [ C ] Atlanta Georgia:[ s. n. ], 1999.
  • 8STOUFFER M R, ROSENHOVER W A, BURKE F P. Investigatin of flue gas mercury measurement and control for coal-fired sources[R].The 89th Annual Air & Waste Management association Meeting[ C], Nashville:[ s. n. ] , 1996.
  • 9郭欣,郑楚光,吕乃霞.簇模型CaO(001)面上吸附汞与氯化汞的密度泛函理论研究[J].中国电机工程学报,2005,25(13):101-104. 被引量:26
  • 10王乃华,骆仲泱,岑可法.半干法烟气脱硫喷嘴的雾化特性研究[J].燃料化学学报,2003,31(4):333-337. 被引量:16

二级参考文献34

  • 1谢端绶.化工工艺算图,第三册,物性数据计算[M].北京:化学工业出版社,1992.120-122.
  • 2高尚愚 陈维(Gao Shangyu Chen Wei).活性炭基础与应用(Basic principle and application of activated carbon)[M].北京:中国林业出版社(Beijing:Forestry Press),1984..
  • 3朱珍锦 薛来 谈仪(Zhu Zhenjin Xue Lai Tan Yi).负荷改变对煤粉锅炉燃烧产物中汞的分布特征影响研究(Studies on characteristic of mercury distribution in combustion products at various loads of A P.C.-fired utility boiler)[J]..
  • 4Masters K. Spray Drying Handbook[M]. New York: Hemisphere Publishing Corp, 1986.358-360.
  • 5Walzel P. Liquid atomization[J]. Int Chem Eng, 1993, 33(1): 46-60.
  • 6Lefebvre A H. Energy consideration in twin-fluid atomization[J]. J Eng Gas Turbines Power, 1992, 114(2): 89-96.
  • 7Peck J E, Lefebvre A H, Koblish T R. Liquid sheet disintegration by impinging air streams[J]. Atomization sprays, 1991, 1(2):155-170.
  • 8Tsail S C, Ghazimorad K, Viers B. Airblast atomization of viscoius liquids[J]. Fuel, 1990, 69(6): 1412-1419.
  • 9Frisch M J, Trucks G W, Schlegel H B. Gaussian 98(Revision A.9)[M].Gaussian Inc., Pittsburgh PA, 1998.
  • 10Madden D A, M J Holmes. B&W's E-LIDS TM process- advanced SOx, particulate, and air toxics control for the year 2000[R]. Presented at the 1998 EPRI-DOE EPA Combined Utility Air Pollutant Control Symposium, Washington,D.C, August25-29,1997.

共引文献109

同被引文献690

引证文献52

二级引证文献395

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部