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机构地区:[1]中南大学能源科学与工程学院,长沙410083 [2]中国铝业郑州研究院绿色冶金研究所,郑州450041
出 处:《沈阳工业大学学报》2011年第6期655-660,共6页Journal of Shenyang University of Technology
基 金:国家自然科学基金资助项目(50974127);国家科技支撑计划项目(2009BAB45B03)
摘 要:为了对铝电解槽内磁流体的两相流动和界面波动进行深入了解,通过ANSYS和CFX相结合的方法,把洛伦兹力作为动量源相,对160 kA铝电解槽内的磁流体流动进行了两相流数值仿真.仿真结果表明:铝液和电解质的流动均呈两个漩涡;铝液的平均流速为0.147 6 m/s,最大流速为0.287 9 m/s;电解质的流速偏小,平均流速为0.116 5 m/s,最大流速为0.286 6 m/s;电解质和铝液的界面变形范围为-0.029~0.035 m.将流速计算结果与实测值进行了对比,表明对基于两相流动的铝电解槽内磁流体进行数值仿真可以帮助了解铝电解槽内的流场,为进一步优化研究提供了依据.In order to understand both two-phase flow and interfacial fluctuation of magnetic fluid in an aluminum electrolysis cell,the two-phase flow numerical simulation for magnet fluid flow in a 160 kA aluminum electrolysis cell was performed through combing ANSYS with CFX software and taking Lorentz force as momentum source phase.The simulation results show that the flow of both aluminum liquid and electrolyte exhibits two vortexes.The average and maximum flow velocities of the aluminum liquid are 0.147 6 m/s and 0.287 9 m/s,respectively.The flow velocities of the electrolyte are slightly smaller,and the average and maximum flow velocities are 0.116 5 m/s and 0.286 6 m/s,respectively.The interfacial deformation range between the electrolyte and aluminum liquid is from-0.029 m to 0.035 m.The calculated results of flow velocities were compared with the measured values.The comparison results show that the two-phase flow based numerical simulation of magnet fluid in the aluminum electrolysis cell can be helpful for the understanding of flow field in the aluminum electrolysis cell,and can also provide the basis for further optimization research.
关 键 词:铝电解 ANSYS软件 CFX软件 磁流体 洛伦兹力 两相流 界面波动 数值仿真
分 类 号:TF821[冶金工程—有色金属冶金] TF804.4
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