期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

气-液-固自然循环流化床中的流动特性和压降 被引量:2

Flow Properties and Pressure Drop of Gas-Liquid-Solid Natural Circulating in Fluidized-Bed
下载PDF
导出
摘要 建立了气-液-固冷模多管自然循环流化床蒸发器,利用CCD图像采集和处理系统,研究了固体颗粒的种类、含率和通气量等操作参数对于固体颗粒的流化和运动形态、分布以及加热管束中液-固两相流压降的影响.结果表明:通气位置对于固体颗粒在加热管束中的分布影响较大.在上、下管箱中,固体颗粒的运动和流化形态不同.在上管箱中,固体颗粒形成中心上升、四周下降的循环运动,并且随着其密度的降低,固体颗粒在上管箱中的分布逐渐趋向均匀;在下管箱中,固体颗粒在中心轴的两侧形成两个大的旋涡,旋涡的旋转速度随着通气量的增加而增大.当气体从上管箱加入时,加热管束中液-固两相流的压降随着固体颗粒加入量和通气量的增加而增大.利用实验数据建立了加热管束中液-固两相流的压降模型,模型结果与实验数据吻合较好. A fluidized-bed evaporator for gas-liquid-solid natural circulation was set up to research the flow and distribution of solid particles and pressure drop of liquid-solid two-phase flow in a heating pipe bundle. With CCD image collecting and processing system ,the influences of the particle kinds ,particle holdup and additive air amount were studied. The experimental results show that air inlet positions have much effect on the distribution of solid particles in the heating pipe bundle. The form of moving and fluidization of solid particles in up-channel is different from that in down-channel. In up-channel ,solid particles make circulating movement with the central part rising and perimeter dropping. As the density decreases ,the distribution of solid particles in up-channel gradually becomes uniform. In down-channel, solid particles form two big whirls at both sides of the central axis. As additive air amount increases,the rotation rate of whirls increases. When the air is input from the up-channel,the pressure drop of liquid-solid two-phase flow in the heating pipe bundle increases with the increase of particles holdup and air amount. The pressure drop model of liquid-solid two-phase flow in the heating pipe bundle has been set up ,and the calculated data agree well with the experimental results.
作者 齐国鹏 姜峰 赵燕禹 赵国华 周震 李修伦
机构地区 天津大学化工学院 天津职业大学环境生物工程学院
出处 《天津大学学报》 EI CAS CSCD 北大核心 2009年第10期901-907,共7页 Journal of Tianjin University(Science and Technology)
关键词 气-液-固 自然循环 循环流化床 压降 gas-liquid-solid natural circulating circulatingfluidized-bed pressure drop
分类号 TQ021.1 [化学工程] TQ021.3 [化学工程]
  • 相关文献

参考文献10

  • 1Schmidthe H,Klaus G. Circulating particles in a forcedcirculation evaporator:A process for avoiding fouling [J]. Chemical Ingenieur Technic, 1990,62 (10) : 840-842.
  • 2陈健生,李修伦,刘姝红.汽液固三相流动沸腾传热计算与实验研究[J].化工学报,2002,53(2):139-143. 被引量:4
  • 3Wen J P,Zhou H,Li X L,et al. Performance of a new vapor-liquid-solid three-phase circulating fluidized bed evaporator [J]. Chemical Engineering and Processing, 2004,43 (1) :49-56.
  • 4姜峰,贾丽云,刘明言,李修伦.液固两相流动系统中固体颗粒浓度和速度的CCD测量[J].天津大学学报(自然科学与工程技术版),2004,37(1):1-5. 被引量:2
  • 5Wen J P,Jia X Q,Wang C Y, et al. Heat transfer and pressure drop of vapor-liquid-solid three-phase boiling flow of binary mixtures[J]. Chemical Engineering Communications ,2005,192 (7/8/9) :956-971.
  • 6Liu M Y ,Tang X P,Jiang F. Studies on the hydrodynamic and heat transfer in a vapor-liquid-solid flow boiling system with a CCD measuring technique [J]. Chemical Engineering Science ,2004,59 (4) :889-899.
  • 7Liu M Y,Yang Y,Li X L,et al. Concentration of Gengnian'an extract with a vapor-liquid-solid evaporator[J]. AIChE Journal, 2 005,51 (3):759- 765.
  • 8Michael A I, Sefiane K,Duursma G,et al. Investigation of flow boiling in circulating three-phase fluidized bed. (Part Ⅰ) :Experiments and results [J]. Chemical Engineering Science,2008,63 (4) :881-895.
  • 9李修伦,林瑞泰,张利斌.具有强化传热、防结垢性能的沸腾蒸发装置及操作方法:中国,ZL96120008.1[P].2000.08-01.
  • 10李修伦,刘振军,林瑞泰.“九五”国家重点科技攻关项目《盐化工业中万吨级新型卤水蒸发装置及设备研究》[R].天津:天津大学,2000.

二级参考文献23

  • 1李修伦,谷俊杰,黄鸿鼎,刘绍从.汽液固三相流化床沸腾传热的研究[J].化工学报,1993,44(2):224-229. 被引量:30
  • 2蔡文贵 李永远 许振华.CCD应用及技术[M].北京:电子工业出版社,1993..
  • 3Chen R C, Fan L S. Particle image velocimetry for characterizing the flow structure in three-dimensional gas-liquidsolid fluidized beds [ J ]. Chemical Engineering Science,1992, 47(13/14) : 3615-3622.
  • 4Wang H,Zhang Y Y,He G H, et al. A contactless CCD dilatometer for foil materials [ J]. International Journal of Thermophysics, 2001, 20( 2 ) :743-754.
  • 5Taira T, Iseki H, Kawamura H, et al. 3-D neuroendoseope and CM-cube system in neurosurgery [ J ]. Clinical Neurology and Neurosurgery, 1997, 99( Supplement 1 ) :40.
  • 6Rohsenow W M. ASME Trans.,1952,74:969-976
  • 7Chen J C. Ind.Eng.Chem.Process Design Development, 1966,5(3):322-329
  • 8Shah M M. ASHRAE Trans., 1976,82(2):66-86
  • 9Liu Z, Winterton R H S. In:5th Miami Int.Symp.Multiphase Transport and ParticulatePhenomena,Miami,1988
  • 10Steiner D. Cryogenics,1986,26:309-318

共引文献4

同被引文献29

  • 1王一平,刘俊杰,吴晨曦,朱丽.固液分布器中主分布器的实验研究[J].化工进展,2005,24(12):1396-1400. 被引量:4
  • 2王一平,刘俊杰,吴晨曦,朱丽.气液固循环流化床换热器中预分布器结构的优化[J].化工学报,2006,57(1):31-35. 被引量:8
  • 3张少峰,孙姣.气液固循环流化床颗粒分布板实验研究[J].化学工程,2006,34(3):20-23. 被引量:16
  • 4Zhang L B, Li X L. A study on boiling heat transfer in three-phase circulating fluidized bed [J]. Chemical Engineering Journal, 2000, 78: 217-223.
  • 5Wen J P, Zhou H, Li X L. Performance of a new vaporliquid-solid three-phase circulating fluidized bed evaporator[J]. Chemical Engineering and Processing, 2004, 43 : 49-56.
  • 6Pronk P, Infante Ferreira C A, Witkamp G J. Mitigation of ice crystallization fouling in stationary and circulating liquid-solid-fluidized bed heat exchangers [J]. International Journal of Heat and Mass Transfer, 2010, 53 (1/2/3) : 403-411.
  • 7Liu M Y, Wang H, Lin R T. Visual investigations on radial solid holdup in vapor-liquid-solid fluidized bed evaporator with a CCD measuring system [J]. Chemical Engineering Science, 2006, 61(2): 802-813.
  • 8Liu M Y, Qiang A H, Sun Y L. Characteristics of flow and heat transfer in a tube bundle evaporator with a vapor-liquid-solid flow [J]. Chemical Engineering Research andDesign, 2007, 85(2): 256-262.
  • 9Hashizume K, Kimura Y. Heat transfer characteristics of liquid-solid circulating fluidized beds [J]. Heat Transfer- Asian Research, 2008, 37(3) : 127-137.
  • 10Arurnemi I M, Sefiane K, Duursma G, et al. Investigation of flow boiling in circulating three-phase fluidised bed (Part Ⅰ) : Experiments and results [J]. Chemical En- gineeringScience, 2008, 63(4): 881-895.

引证文献2

二级引证文献13

天津大学学报
2009年 第10期

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