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京唐公司转炉双联冶炼工艺及技术指标 被引量:7

Duplux Melting Processof Converter and Its Analysis of Technical Index in Jingtang Company
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摘要 阐述了京唐公司转炉双联工艺及其优势,重点就转炉双联法与常规冶炼主要技术指标进行了对比分析,分析结果显示:采用转炉双联冶炼法时脱磷率为92.86%,采用常规冶炼法转炉脱磷率为88.4%,转炉双联工艺脱磷效果明显。脱磷炉终渣中平均TFe含量是8.27%,脱碳炉终渣中平均TFe含量是18.92%,常规转炉终渣中平均TFe含量是18.98%,转炉双联冶炼过程不仅铁损低,而且金属料消耗少。辅原料消耗上转炉双联法白灰和轻烧白云石的用量比传统冶炼法分别减少9.7 g/t钢、9.3 g/t钢。转炉双联法和常规冶炼法终点钢水平均碳氧积分别为0.0023和0.0024,控制水平较好。 Advantage of duplux melting process of converter in Jingtang company is described. Main technical index of duplux melting process of converter and conventional smelting is compaired and analysised. The results show that dephosphorization rate respectively are 92. 86% and 88.4% with the method of duplux melting process of converter and conventional smelting, dephosphorization rate of duplux melting process of converter is obvious. Average TFe content of final slag in dephosphorization converter, decarburization converter and conventional converter respective- ly are 8.27% ,18.92% and 18.98%. Duplux Melting Process of Converter not only has little iron loss,but also a small amount of metal material is consumed. By comparison with the conventional smelting the usage amount of lime and dolomite in duplux melting process of converter respectively reduce 9.7kg/t and 9.3kg/t. The average carbon oxygen product in steel of smelting endpoint in duplux melting process of converter and conventional smelting re-spectively are 0. 0023and 0. 0024, Control level are better.
出处 《河北联合大学学报(自然科学版)》 CAS 2012年第3期23-26,共4页 Journal of Hebei Polytechnic University:Social Science Edition
关键词 双联法冶炼 脱磷 脱碳炉 duplux melting process dephosphorization decarburization converter
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  • 1孙礼明.转炉双联法冶炼工艺及其特点[J].上海金属,2005,27(2):44-46. 被引量:41
  • 2康复,陆志新,蒋晓放,钟志敏.宝钢BRP技术的研究与开发[J].钢铁,2005,40(3):25-28. 被引量:36
  • 3黄希祜.钢铁冶金原理[M].北京:冶金工业出版社,2006.
  • 4黄希枯.钢铁冶金原理[M],北京:冶金工业出版社,1981.
  • 5董元篪,王海川.冶金物理化学[M].合肥:合肥工业大学出版社,2011:293-299.
  • 6潘秀兰,王艳红,梁慧智,冯士超.转炉双联法炼钢工艺的新进展[J].鞍钢技术,2007(5):5-10. 被引量:20
  • 7王世俊,董元篪,周云,等.铁水预处理脱磷渣低氟化研究[J].中国稀土学报,2010,2a(专辑):500-503.
  • 8Yindong Yang, Alex Mclean, Lain D. Sommerville. Study on phosphate and sulphide capacities of CaO-CaClz slags[J]. Steal research, 1995,66(3) : 103-109.
  • 9Ogawa Y, Yano M, Kitamura S, et al. Development of the Continuous Dephosphorization and Decarbonization Process Using BOF [J]. J. Iron Steel Inst. Jpn., 2001, 87(1): 21-28.
  • 10Kitamura S Y, Yonezawa. K, Ogawa Y. Improvement of Reaction Efficiency in Hot Metal Dephosphorization [J]. Ironmaking Steelmaking, 2002, 29(2): 121-124.

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