Effect of Iron Oxides on Glass Furnace Efficiency and Product Quality in Float-Glass Production

被引:0
|
作者
S. A. Agureev
L. Ya. Levitin
V. I. Litvin
V. D. Tokarev
I. V. Chertykova
机构
[1] Salavatsteklo,
[2] JSC,undefined
来源
Glass and Ceramics | 2015年 / 71卷
关键词
requirements of the quality parameters for raw materials; redox processes during melting of glass; effect of FeO on melting and working properties of glass; fluctuations of the content of iron oxides in raw material; corridor of upper and lower values of Fe; O; in glass; additional with the addition of crocus; Redox sensor for glass melt; Redox index;
D O I
暂无
中图分类号
学科分类号
摘要
It is noted that the efficiency of glassmaking furnaces can be increased by maintaining the content of iron oxides in glass within prescribed limits and the optimal ratio between bi- and trivalent iron oxides. More stringent requirements are formulated for the quality of raw materials used in the production of float-glass. The magnitude of the fluctuations of iron oxides in raw materials and its effect on the stability of the glass melting and working process is determined and analyzed. A method is described for introducing an iron-containing component (crocus) into the batch in order to smooth the sharp fluctuations of iron oxides in the raw material. It is shown that the changes in the temperatures of the gas space, the molten glass in the furnace, and the total consumption of the gas fuel are interrelated with the character of the changes in the amounts of FeO and Fe2O3.
引用
收藏
页码:341 / 349
页数:8
相关论文
共 50 条
  • [1] Effect of Iron Oxides on Glass Furnace Efficiency and Product Quality in Float-Glass Production
    Agureev, S. A.
    Levitin, L. Ya.
    Litvin, V. I.
    Tokarev, V. D.
    Chertykova, I. V.
    GLASS AND CERAMICS, 2015, 71 (9-10) : 341 - 349
  • [2] IRON OXIDES ROLE IN FLOAT-GLASS MANUFACTURE
    Khorosheva, E. R.
    Makarov, R. I.
    GLASS AND CERAMICS, 2023, 80 (3-4) : 91 - 93
  • [3] Fuzzy diagnosis of float-glass production furnace
    Spaanenburg, L
    TerHaseborg, H
    Nijhuis, JAG
    COMPUTATIONAL INTELLIGENCE: THEORY AND APPLICATIONS, 1997, 1226 : 197 - 206
  • [4] Iron Oxides Role in Float-Glass Manufacture
    E. R. Khorosheva
    R. I. Makarov
    Glass and Ceramics, 2023, 80 : 91 - 93
  • [5] FLOAT-GLASS PRODUCTION IS COMPUTERIZED
    TAELER, DH
    CERAMIC AGE, 1968, 84 (05): : 30 - &
  • [6] Increase of glass manufacturing efficiency using cullet in float-glass production
    Levitin, L. Ya.
    Litvin, V. I.
    Tokarev, V. D.
    Yachevskii, A. V.
    GLASS AND CERAMICS, 2012, 69 (5-6) : 143 - 145
  • [7] Increase of glass manufacturing efficiency using cullet in float-glass production
    L. Ya. Levitin
    V. I. Litvin
    V. D. Tokarev
    A. V. Yachevskii
    Glass and Ceramics, 2012, 69 : 143 - 145
  • [8] Raw materials with prescribed properties - additional resources for increasing glass-furnace efficiency and float-glass quality
    Levitin, L. Ya.
    Litvin, V. I.
    Tokarev, V. D.
    Yachevskii, A. V.
    GLASS AND CERAMICS, 2012, 69 (1-2) : 3 - 8
  • [9] Raw materials with prescribed properties — additional resources for increasing glass-furnace efficiency and float-glass quality
    L. Ya. Levitin
    V. I. Litvin
    V. D. Tokarev
    A. V. Yachevskii
    Glass and Ceramics, 2012, 69 : 3 - 8
  • [10] FLOAT-GLASS FORMING - PRODUCTION CONSIDERATIONS
    EDGE, CK
    AMERICAN CERAMIC SOCIETY BULLETIN, 1992, 71 (06): : 936 - 942
12345