摘要
提出了两种5 kA级惰性阳极铝电解槽结构,使用有限元仿真方法计算了不同槽型电解槽在分别采用普通阴极、石墨化阴极下的电热场分布情况。计算结果表明:不同槽型电解槽在初始条件下热量不平衡,但在强化电流、增加极距、加强保温后,均能实现热平衡;采用石墨化阴极需要输入更多的热量才能实现热平衡,但能够使阴极底部等温线分布更合理;在同样达到热平衡时,槽型2结构略优于槽型1。
Two cell structures of 5kA scale inert-anode aluminum reduction cell were put forward and the thermoelectric field was calculated using finite element method with common cathodes and graphitized cathodes,respectively.The results indicate that the heat is not balanced for both cell structures under initial conditions but it can be balanced by intensifying current,the anode-cathode distance and heat preservation.The cell with graphitized cathodes needs more energy to achieve heat balance but it can assure more reasonable temperature distribution in the cathodes.The cell structure 2 is a little better than the cell structure 1 considering the thermoelectric field distribution only.
出处
《有色冶金设计与研究》
2010年第6期1-4,共4页
Nonferrous Metals Engineering & Research
基金
国家高技术发展研究计划(2008AA30504)
关键词
铝电解
惰性阳极
电解槽
电热场
数值模拟
aluminum electrolysis
inert anode
reduction cell
thermoelectric field
numerical simulation
作者简介
作者简介:王志刚(1981-)男,博士从事有色冶金过程仿真研究工作。