Monitoring of the Quality of a Soderberg Anode for Aluminum Electrolyzer with the Upper Current Lead

被引:0
|
作者
Frizorger, V. K. [1 ]
Gil'debrandt, E. M. [2 ]
Vershinina, E. P. [2 ]
机构
[1] Russian Engn Co, OOO Russkaya Inzhiniringovaya Kompaniya, Krasnoyarsk, Russia
[2] Siberian Fed Univ, Inst Nonferrous Met & Mat Sci, Krasnoyarsk 660025, Russia
来源
RUSSIAN JOURNAL OF NON-FERROUS METALS | 2010年 / 51卷 / 01期
关键词
Soderberg anode; cores; physical properties; quality of anode; carbon consumption;
D O I
10.3103/S1067821210010074
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
By sampling the cores from the Soderberg anodes of switched-off aluminum electrolyzers, the distribution of the physical properties over the anode height, including during a variation in temperature, is studied. An analysis is given for the dynamics of the variation in the quality of anodes from 1993 to 2006. It is shown that the physical properties of the Soderberg anode approach the requirements made for burnt anodes.
引用
收藏
页码:39 / 43
页数:5
相关论文
共 50 条
  • [21] CONTROL OF THE STATE OF THE ANODE CONTACT SURFACE BY THE VOLTAGE SPECTRUM OF THE ALUMINUM ELECTROLYZER
    ARALBAEV, TZ
    ARALBAEVA, GG
    NIKULIN, VN
    AVTOMATIKA, 1990, (02): : 74 - 76
  • [22] Individual Anode Current Monitoring During Aluminum Reduction Cell Power Reduction
    Yao, Yuchen
    Bao, Jie
    Skyllas-Kazacos, Maria
    Welch, Barry J.
    Jassim, Ali
    LIGHT METALS 2021, 50TH EDITION, 2021, : 377 - 383
  • [23] Laboratory and full scale experiments to improve quality of the VS Soderberg secondary anode
    Vidvei, T
    Pedersen, R
    LIGHT METALS 2004, 2004, : 523 - 526
  • [24] CURRENT EFFICIENCY MEASUREMENTS IN LABORATORY ALUMINUM CELLS - INFLUENCE OF BATH VOLUME, ANODE SIZE AND ANODE QUALITY
    BRATLAND, D
    DELCAMPO, JJ
    CHO, K
    GRJOTHEIM, K
    THONSTAD, J
    JOURNAL OF METALS, 1980, 32 (12): : 1 - 1
  • [25] Effect of Copper on the Microstructure and Properties of Phosphorus Cast Iron for the Anode of Aluminum Electrolyzer
    Han C.-F.
    Wen T.-X.
    Chen T.-C.
    Ma W.-W.
    Sun Y.-F.
    Metallography, Microstructure, and Analysis, 2018, 7 (6) : 692 - 702
  • [26] Study of the Liquid Phase of a Self-Baking Aluminum Electrolyzer Anode.
    Dmitriev, A.A.
    Tsvetnye Metally, 1983, (09): : 44 - 46
  • [27] TRANSFER OF BISMUTH AND LEAD FROM CATHODE TO ANODE IN ELECTROLYZER WITH SEPARATED ELECTRODE SPACES
    ZARUBITSKY, OG
    ZAKHARCHENKO, NF
    UKRAINSKII KHIMICHESKII ZHURNAL, 1980, 46 (07): : 691 - 696
  • [28] Modernization of a Soderberg electrolyzer cathode unit to a higher current strength (185 kA) and a lowered metal level (25 cm)
    I. Yu. Patrakhin
    A. V. Popov
    V. K. Frizorger
    D. V. Tkachenko
    G. V. Arkhipov
    Yu. A. Popov
    V. V. Pingin
    Refractories and Industrial Ceramics, 2009, 50 : 397 - 399
  • [29] MODERNIZATION OF A SODERBERG ELECTROLYZER CATHODE UNIT TO A HIGHER CURRENT STRENGTH (185 kA) AND A LOWERED METAL LEVEL (25 cm)
    Patrakhin, I. Yu.
    Popov, A. V.
    Frizorger, V. K.
    Tkachenko, D. V.
    Arkhipov, G. V.
    Popov, Yu. A.
    Pingin, V. V.
    REFRACTORIES AND INDUSTRIAL CERAMICS, 2009, 50 (06) : 397 - 399
  • [30] EFFICIENCY OF ELECTROGENERATION CURRENT OF LEAD TETRAACETATE ON ANODE
    AGASYAN, PK
    SIRAKANY.MA
    ZHURNAL ANALITICHESKOI KHIMII, 1971, 26 (05): : 992 - +
12345