500kA石墨化阴极电解槽数学管控模型研究及生产实践  被引量:2

Research on Mathematical Control Model and Production Practice of 500 kA Graphitized Cathode Electrolytic Cell

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作  者:曾振双 贺昕兴 ZENG Zhenshuang;HE Xinxing(Guangxi Hualei New Materials Co.,Ltd.,Pingguo 531400,China;Central South University,Changsha 410083,China)

机构地区:[1]广西华磊新材料有限公司,广西平果531400 [2]中南大学,湖南长沙410083

出  处:《金属材料与冶金工程》2023年第4期33-37,共5页Metal Materials and Metallurgy Engineering

摘  要:本文基于对电解槽的物料平衡和能量平衡的研究,结合500kA石墨化阴极电解槽历史运行关键工艺技术参数进行模拟分析,分别从铝电解温度、分子比、铝水平、平均电压对铝电解直流电耗的影响进行阐述,把铝电解关键工艺技术参数进行耦合,寻找最优的铝电解直流电耗值下的范围,组合成一套关键工艺技术参数的管控模型,用这个最优管控模型指导生产实践。在管控模型的指导下,提升铝电解电流效率,降低直流电耗。Based on the research on the material balance and energy balance of the electrolytic cell,and combined with the simulation analysis of the key technological parameters of the historical operation of the 500 kA graphitized cathode electrolytic cell,the influences of aluminum electrolysis temperature,molecular ratio,aluminum level and average voltage on the direct current power consumption of aluminum electrolysis were described,and the key technological parameters of aluminum electrolysis were coupled.The range of the optimal DC power consumption of the key technical parameters of aluminum electrolysis was found and combined into a control model of the key technical parameters of the key process.The optimal control model was used to guide the production practice.Under the guidance of the control model,the current efficiency of aluminum electrolysis increased,the DC power consumption decreased significantly,and god economic results were achieved.

关 键 词:500kA铝电解槽 全石墨化阴极 工艺参数 直流电耗 

分 类 号:TF8221[冶金工程—有色金属冶金]

 

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