Simulation of Flow Field of Molten Salt in Neodymium Metal Electrolytic Cell Using Vortex-Flow Function Method

Simulation of Flow Field of Molten Salt in Neodymium Metal Electrolytic Cell Using Vortex-Flow Function Method

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摘要 With the applications of Nd-Fe-B material extending in recent years, the materials of neodymium metal and other rare earth metal alloy confront the increased demand and the high quality request at the same time.These factors stimulated greatly to perfect the producing craft of RE metals and improve the equipments.The rare earth electrolysis cell is developing towards large-scale way.Notwithstanding the present electrolysis cell of Nd metal, include 6 kA and 10 kA cell, exists some insurmountable problems during operation and these problems lead to lower electric efficiency and higher operating costs.So it is significant to study the physical fields of rare earth electrolysis cell.In this paper,a numerical flow mode is established using vortex- flowing function method and the fluid flow field of 3000A Nd electrolysis cell is computed using MATLAB.The results of the study will be important reference in theory for improving and enlarging rare earth fluoride system cell.

作者 Ren Yonghong Kong Xiangmin Xie Liying

机构地区 China Metallurgical Import &Export Baogang Company

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2004年第z1期252-256,共5页 稀土学报（英文版）

关键词 NEODYMIUM electrolytic cell FLUID flow field vortex-flowing function METHOD numerical SIMULATION RARE earths

分类号 O614.33 [理学—无机化学]

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1[1]Chen Jingren, Hydromechanics and Caloric Transmittal[M]. National Defence Industry Press, 1982. 85.
2[2]Yan Xiaolin. The Theroy of Metallurgical Transmission[M]. Metallurgical Industry Press, 2002.182.
3[3]Zhuang Lixian. The Hydrodynamics[M]. China Science and Technology University Press, 1991. 250.
4[4]Lu Jinfu. Guan Zhi. The Numerical Solution for Partial Differential Equation[M]. Qinghua University Press, 1987. 240.
5[5]Serkale J. Hydro-Flowage Phenomena in Metallurgy[M]. Metallurgical Industry Press, 1985,168.
6[6]Li Baokuan, Hao Yicheng. Calculating Hydrodynamics in Steel-Making[M]. Metallurgical Industry Press,1998. 143.
7[7]Li Yanpeng, Xu Jinyuan. Numerical Simulation of Vorticity-turning Method and Research on the Flow Field inPlatenZone[J]. J. Xi'an Univ. of Arch. & Tech. , 1999, (6): 123.
8[8]Ren Yonghong. The computer simulation and design for bottom-cathode-type electrolytic cell of rare earth[D]. Master's Paper of Inner Mongolia Univ. of Science and Technology, 2004.
9[9]Physics Dep. Zhongshan Univ. Physical & Chemical Constants of RE[M]. Metallurgical Industry Press,1978.
10[10]Study on Physical ,Chemical &Electrochemical Properties in NdF3-LiF Binary Flux System[D]. North-East University, 2001, 11.

1Xiao Hong FANG,Tao ZHU,Dong Mei,QIANG and Yi Liang SUN(Department of Chemistry. Peking University. Beijing 100871,P.R.China).MONITORING　ELECTROLYTIC　REACTION　OF　NUCLEAR　FAST　RED　BY　HIGH　PERFORMANCE　CAPILLARY　ELECTROPHORESIS[J].Chinese Chemical Letters,1994,5(7):597-600.
2朱智,周清.Determination of Lanthanu m in Lu minol- H_2 O_2- Cr( Ⅲ) Syste m by Flow Injection Chemilu minescence[J].Rare Metals,1999,18(3):225-228.
3Guo Qing WU,Zhong Jia TANG,Jun GUAN (Department of Chemistry, Beijing Normal University, Beijing, 100875).A NEW MIXED VALENT RARE EARTH FLUORIDE KEuNdF_6[J].Chinese Chemical Letters,1994,5(2):153-154.
4YAN Yu-xi,MU Ying,FENG Guo-dong,ZHANG Lei,ZHU Lin-lin,XU Ling,YANG Rui,JIN Qin-han.Novel Strategy for Synthesis of High Quality CdTe Nanocrystals in Aqueous Solution[J].Chemical Research in Chinese Universities,2008,24(1):8-14. 被引量：21
5张金菊,贝浼智.Reaction of Active Praseodymium Metal on Carbonyl Compounds[J].Chinese Science Bulletin,1994,39(14):1192-1194.
6Ying Sing Fung, Ruqi Zhou ( Department of Chemistry, The University of Hong Kong, Hong Kong, China Department of Inorganic and Non-metal Materials, University of Science and Technology Beijing, Beijing 100083, China).Physical and Electrochemical Properties of Acid 1-Methyl-3-Ethylimidazolium Chloride/AlCl_3/LiAlCl_4 Molten Salt[J].International Journal of Minerals,Metallurgy and Materials,2000,14(4):286-291.
7Ping Da REN,Shi Feng PAN,Ting Wei DONG,Shi Hui WU(Department of Chemistry,Fudan University,Shanghai 200433).Selective Reduction of α,β-Unsaturated Amides with NaBH_4/BiCl_3 System[J].Chinese Chemical Letters,1996,7(9):788-789. 被引量：1
8姜斌,梁红英,黄国强,李鑫钢.Study on NO_x Formation in CH_4/Air Jet Combustion[J].Chinese Journal of Chemical Engineering,2006,14(6X):723-728.
9黄燕,叶红齐,庄卫东,胡运生,赵春雷,李萃,郭松霞.Preparation of Y_2O_3:Eu^(3+) phosphor by molten salt assisted method[J].中国有色金属学会会刊：英文版,2007,17(3):644-648. 被引量：6
10Lin ZHANG,Liang Zhong ZHAO,Jin Biao ZHANG,Cui Ying XU,Shi Hong LIU (Institute of Chemistry, Chinese Academy of Sciences, Beijing, 100080).Synthesis of Monoclinic Form of Gd_(2-x)Na_xCuO_4 by Direct Precipitation from Molten Salt[J].Chinese Chemical Letters,2000,11(2):185-188.

Journal of Rare Earths

2004年第z1期

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Simulation of Flow Field of Molten Salt in Neodymium Metal Electrolytic Cell Using Vortex-Flow Function Method

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