1) prebaked anode
预焙阳极
1.
Numerical simulation of prebaked anode current and temperature fields of aluminum reduction cell;
预焙阳极铝电解槽阳极电、热场的数值仿真与优化
2.
Influences of prebaked anode on electrolytic aluminun production;
预焙阳极对于铝电解生产的影响
3.
In this paper, the effects of the materials used for prebaked anode such as petroleum coke, coal tar pitch, stub and impurity elements, and all sorts of productio.
针对此问题,本文主要探讨铝用预焙阳极所用原料石油焦、煤沥青、残极以及杂质元素和各生产工艺对阳极质量的影响,旨在生产阳极的过程中要尽量克服杂质元素的带入,提高阳极质量,降低阳极消耗,延长阳极使用周期,以达到大型铝电解槽在强化电流后提产、降本、增效之目的。
2) pre-baked anode
预焙阳极
1.
Application of coke-oven gas in pre-baked anode system
焦炉煤气在铝用预焙阳极生产中的应用
2.
Concerning the common fuels,that is man-made coal gas,heavy oil and natural gas,normally used for anode pre-baking at aluminum smelter,comparable analyses are conducted on the respects of direct economic benefit,indirect benefit and social environmental benefit,it is concluded that natural gas is the best to be used as fuel for pre-baked anode in aluminum smelter.
针对目前国内铝用预焙阳极焙烧炉常用燃料(人工煤气、重油和天然气),从直接经济效益、间接效益和社会环保效益方面进行了对比分析,得出了"铝用预焙阳极焙烧采用天然气做为燃料是最为理想"的结论。
3.
The paper makes a systematic discussion on the influence that the ash content of pre-baked anode makes during the aluminium production.
本文系统探讨了预焙阳极灰分对电解铝生产的影响,并针对预焙阳极生产中灰分的来源及构成进行了较全面的量化分析,结合生产实际,提出了有效的控制措施。
3) anode pre-baking furnace
预焙阳极焙烧炉
1.
A fuzzy PID-based technique is elaborated which was adopted to control anode pre-baking furnace in the course of controlling the industry baker.
阐述一种基于模糊PID技术对工业焙烧炉控制过程中预焙阳极焙烧炉温度改进控制方案,并在计算机下建模仿真,仿真结果显示本方法在跟踪能力、自适应能力、抗干扰能力都明显优于常规PID控制和一般模糊控制。
4) pre-baked anode
预焙阳极块
1.
The structure and performance of the pre-baked anode based on impregnated and compressed petroleum coke;
浸渍压密石油焦基预焙阳极块结构与性能研究
2.
The influence of improved petroleum coke and coal pitch on the quality of pre-baked anode;
改变石油焦和煤沥青性质对预焙阳极块使用性能的影响
5) Prebaked-anode project
预焙阳极工程
6) height of prebaked anode
预焙阳极高度
1.
By comparing the results of two different height of prebaked anodes used,the paper describes the possibility and operability of appropriately increasing the .
指出铝电解用的预焙阳极高度的选择,直接影响到铝电解槽的阳极电压降、直流电耗、阳极消耗量等技术指标。
补充资料:135kA中间下料预焙阳极铝电解槽(抚顺铝厂)
135kA中间下料预焙阳极铝电解槽(抚顺铝厂)
赢 135kA中间下料预焙阳极铝电解槽(抚顺铝厂)
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