1.
A Web-based temperature analysis system of industrial aluminium reduction cells
基于Web的工业铝电解槽温度分析系统
2.
Study on Temperature Field in Rare Earth Electrolysis Cell by Finite Element Method;
稀土电解槽温度场有限元应用模拟研究
3.
Effect of PID Parameter Change on Electrolytic Tanks Temperature and Hydrogen-generator Control System
PID参数变化对电解槽温度及制氢控制系统的影响
4.
Design of Web-based Temperature Monitoring System for Aluminum Reduction Cells
基于Web的铝电解槽槽壳温度监测系统设计
5.
An analysis for temperature control of baking of coke particles for 350kA aluminium reduction cell
350kA铝电解槽焦床焙烧温度控制浅析
6.
Research and Design of Online Temperature-Monitoring of Aluminium Cell Shell and Diagnosis of Cell Status System;
铝电解槽槽壳温度在线检测及槽况诊断系统的研究与设计
7.
Research and Application on the On-line Temperature Detection of Aluminum Cell Shell and the Cell Status Diagnosis Expert System;
铝电解槽糟壳温度在线检测与槽况诊断专家系统的研究与应用
8.
The controller is applied to realize the control of pre-baked aluminium electrolytic cell temperature.
利用该控制器实现对预焙铝电解槽的温度控制。
9.
Lower temperature aluminium reduction practices of SY300kA pre-baked anode cell
SY300kA大型预焙电解槽在较低温度下电解生产的实践
10.
The Selection and Control of Heating System in the Process of High-temperature Prebaking of Aluminum Reduction Cell;
铝电解槽高温烟气焙烧过程中加热制度的选择与控制
11.
Study on waste heat power generation technology with low-temperature gas
铝电解槽低温烟气余热发电技术探讨
12.
Summary on the overhaul of natural circulation electrolyzers with high current density
高电流密度自然循环电解槽检修总结
13.
Design on Aluminum Electrolytic Cell at High Anodic Current Density
高阳极电流密度铝电解槽的设计思路
14.
4. The super heat of electrolysis influences the shape of profile ledge in the cell. .
4、电解质的过热度影响着电解槽槽膛内形的的形成。
15.
Theory and Realization of High Temperature Fume Bake-out Technology for Aluminum Reduction Cells;
铝电解槽高温烟气焙烧技术的理论与实践
16.
bath [electrolytic chromium process]
电解槽〔电解铬工序〕
17.
The Study on Current Efficiency of the Aluminium Reduction Cell Based on the Velocity Fields;
基于速度场的铝电解槽电流效率的研究
18.
production-scale cell
生产用电解槽,大型电解槽