1) high-amperage aluminium cells
高电流铝电解槽<冶>
2) electrolyte head tank
电解液位高槽<冶>
3) drained style aluminum reduction cell
导流型铝电解槽
1.
In order to optimize the aluminum accumulation sump designs,the characteristics of thermo-stress distribution in the drained style aluminum reduction cells were studied.
为了优化导流型铝电解槽聚铝沟设计方案,对槽内热应力分布特征进行研究分析。
2.
A thermo-stress calculating model of 75 kA drained style aluminum reduction cell was developed with finite element software package ANSYS to calculate thermal stress distribution in the cathode.
使用ANSYS有限元计算软件建立了75kA导流型铝电解槽热应力分布的计算模型,对聚铝沟位于槽中部导流型铝电解槽阴极内部的热应力分布进行了计算研究,为了减小阴极内部应力的集中,对电解槽结构进行优化。
3.
Simulation and analysis of magnetic fields and flow fields of metal pad in 75 kA drained style aluminum reduction cell;
以商用有限元计算软件ANSYS为计算平台,对75kA导流型铝电解槽电磁场和电磁力场分布及其对铝液流动和波动的影响进行了模拟计算。
4) drained aluminum reduction cells
导流型铝电解槽
1.
As a sub-project, the basic design and research of drained aluminum reduction cells (G1999064903), the electrolyte flow field in the 156kA aluminum reduction cells with two end anode risers was studied in this paper.
无论是对于常规铝电解槽的正常运行,还是对于导流型铝电解槽的设计与开发,电解质运动的研究都显得十分重要。
2.
As a sub-project, the basic design and research of drained aluminum reduction cells (G1999064903 ) , the multi-field during gas preheating and baking process in the drained cells was researched by means of numerical simulation.
然而,导流型铝电解槽本身的结构特点决定了其预热焙烧过程存在着一定的难度。
5) electrolytic aluminum
电解铝<冶>
6) aluminum cell
铝电解槽
1.
Improvement on cathode lining material and structure of aluminum cell;
铝电解槽阴极内衬材料及结构的改进
2.
Discussion on the method to increase the life of aluminum cell;
浅谈提高铝电解槽寿命的方法
3.
Experament of reduce impulse voltage on scorched particles roasting of aluminum cell
降低铝电解槽焦粒焙烧冲击电压的试验研究
补充资料:铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条