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

铝电解槽磁流体稳定性研究 被引量:5

STUDY OF MAGNETOHYDRODYNAMICSSTABILITY OF AN ALUMINUM REDUCTION CELL
下载PDF
导出
摘要 工业铝电解槽稳定性是铝电解生产中最重要的关键问题之一.本文综述近20多年来国际铝电解槽稳定性研究的历史、现状和当前最新进展.主要内容包括铝电解槽稳定性的物理表观现象、磁流体(MHD)不稳定性机理、数学定义和判剧、三维和二维稳定性数学模型和数值求解方法(有限元法和谱方法),同时给出230 KA铝电解槽的稳定性分析算例. Stability of an aluminum reduction cell is one of the key technologies in the aluminumelectrolyte industry. This paper reviews its historical development, current status and new advancesin the past two decades. The physical phenomenon of reduction cell stability and the mechanismof magneto-hydrodynamics stability are explained. The mathematical definition and criteria ofstability are given. This paper also presents 2D and 3D mathematical models and numericalmethods for stability analysis(finite element method and spectral method). Finally, a stabilityanalysis of a 230KA reduction cell is carried out in this paper.
作者 吴建康 李光正
机构地区 武汉华中科技大学力学系
出处 《力学进展》 EI CSCD 北大核心 2002年第2期275-284,共10页 Advances in Mechanics
关键词 铝电解槽 磁流体 稳定性 有限元法 研究进展 aluminum reduction cell, magneto-hydrodynamics stability, FEM
分类号 TF821 [冶金工程—有色金属冶金] O361.3 [理学—流体力学]
  • 相关文献

参考文献1

二级参考文献18

  • 1[1]MORI K, SHIOTA K, URATA N, and IKEUCHI H. The surface oscillation of liquid metal in aluminum reduction cells[J]. Light Metal, 1976: 77-95.
  • 2[2]URATA N. Magnetics and metal pad instability[J]. Light Metal, 1985: 581-591.
  • 3[3]SEGATZ M and DROSTE C. Analysis of magnetohydrodynamics instabilities in aluminum reduction cells[J]. Light Metal, 1994: 313-322.
  • 4[4]EI-DEMERDASH M F, EI-RAGHY S M and BASSUNY Z. Estimation of aluminum cell stability for given bus design[J]. Light Metal, 1995: 289-294.
  • 5[5]PIGNY S and MOREAU R. Stability of fluid interfaces carrying a electric currents in the presence of a magnetic field[J]. European J. of Mech, B, 1992, 11: 1-20.
  • 6[6]DROSTE C, SEGATZ M and VOGELSANG D. Improved 2-dimensional model for magnetohydrodynamics stability analysis in reduction cells[J]. Light Metal, 1998: 419-428.
  • 7[7]DAVIDSON P A and BOIVIN R F. Hydrodynamics of aluminum reduction cells, Magnetohydrodynamics[J]. Light Metal, 1991: 1199-1211.
  • 8[8]DAVIDSON P A and LINDSAY R I. A new model of interfacial waves in aluminum reduction cells[J]. Light Metal, 1997: 437-442.
  • 9[9]LINDSAY R I and DAVIDSON P A. Application of new stability criteria to industrial cell design[J]. Light Metal, 1997, 423-428.
  • 10[10]DAVIDSON P A. An energy analysis of unstable aluminum reduction cells[J]. European J. of Mech, B, 1994, 13: 15-32.

共引文献2

同被引文献28

  • 1杨晓东,周东方,刘伟.节能电解槽技术的研发和进展[J].轻金属,2011(S1):165-169. 被引量:18
  • 2黄俊,吴建康,姚世焕.铝电解槽磁流体流动的数值计算[J].有色冶炼,2002,31(6):25-26. 被引量:4
  • 3朱自强,贾剑波.三角翼大迎角不可压粘流的数值模拟[J].力学学报,1996,28(6):736-740. 被引量:11
  • 4李维缇.液晶显示应用技术[M].北京:中国电子工业出版社,2000,4..
  • 5ANTILLE J,FLUCEK M,ROMERIO M V.Steady velocity field in Aluminum reductiong cells derived form measurements of the anodic current fluctuations.Litght Metal,1994:305-312.
  • 6J. P, AntiUe, R. Von Kaenel Busbar optimization using cell stability criteria and its impact on cell performance [J].Light Metals 1999,p165 - 170.
  • 7J. Deselout, M, Flueck and M. V. Romerio Stabity in aluminum reduct.ion cells: a spectral problem solved by an iterative procedure.[J]. Light Metals 1994. P275 - 280.
  • 8G. LoBmann Utilization of various combined measure ments in reduction cell for operational improvement [J]. Light Metals 1992 p441- 447.
  • 9M. V. Romerio, Lausanne and, Antille, Chippis, The numerical approach to Analyzing Flow Staility in the aluminum reduction cell[J].ALUMINIVM. 76. Jahrgnng 2000.12.
  • 10Jacques Amine, Rene yon Kennel Using magneto hydrodynarmic model to Analyze pot stability in order to identify an abnormal operating condition [J]. Light Metals 2002. P477- 481.

引证文献5

二级引证文献7

力学进展
2002年 第2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