期刊文献+

氧化锌烟尘浸出脱砷技术研究与应用

A Study of Leaching and Arsenic Removal Technology for Zinc Oxide Dust and Application
在线阅读 下载PDF
导出
摘要 目前湿法炼锌工艺采用的原料主要是氧化锌烟尘、焙烧矿,氧化锌烟尘是由湿法炼锌产出的酸浸渣和火法炼铅产出的熔渣经烟化炉还原挥发产出的二次资源,焙烧矿是由沸腾炉将硫化锌精矿焙烧制得,文章主要从氧化锌烟尘浸出过程分析,在浸出后的溶液中利用臭氧、高锰酸钾的强氧化性将亚铁离子氧化,控制溶液终点pH值,利用铁盐水解吸附除杂,有效将溶液中的砷杂质去除。 Currently,the raw materials used in hydrometallurgical zinc production are mainly zinc oxide dust and calcine.Zinc oxide dust,a secondary resource from the acid leaching residue in previous hydrometallurgical zinc production and the smelting slag in pyrometallurgical lead production,is generated by reduction and volatilization in a fuming furnace.Calcine,on the other hand,is generated by roasting zinc sulfide concentrate in a fluidized bed furnace.This paper mainly focused on the leaching process of zinc oxide dust.Following leaching,ozone and potassium permanganate,both potent oxidizers,were utilized to oxidize the ferrous ions in the resultant solution,with the endpoint pH carefully controlled.The removal of arsenic impurities from the solution was then efficiently achieved through ferric salt hydrolysis and adsorption.
作者 李华楷 李云 张成根 杨阳 尹为波 LI Huakai;LI Yun;ZHANG Chenggen;YANG Yang;YIN Weibo(Yunnan Chihong Zn&Ge Co.,Ltd.,Huize Yunnan 654200,China)
出处 《有色金属设计》 2024年第2期41-45,共5页 Nonferrous Metals Design
关键词 湿法炼锌 氧化锌烟尘 臭氧 高锰酸钾 铁盐 脱砷 Hydrometallurgical zinc production Zinc oxide dust Ozone Potassium permanganate Ferric salt Arsenic removal
作者简介 李华楷(1992-),男,云南曲靖人,助理工程师。主要研究方向:锌湿法冶炼;通讯作者:李云(1986-),男,云南曲靖人,工程师。主要研究方向:锌湿法冶炼。
  • 相关文献

参考文献6

二级参考文献31

  • 1谭永仁,李旭光,朱志勇,申济鼎,陆宏标,李超.氧化-控pH中和法处理南丹县吉朗铟业有限公司锌冶炼高酸含砷废水[J].有色金属,2010,62(1):96-98. 被引量:1
  • 2兰兴华.硫化锌精矿流化床焙烧过程中的矿物形态变化[J].世界有色金属,2005(12):20-22. 被引量:1
  • 3杨钢,王吉坤.高铁硫化锌精矿加压浸出技术应用[J].云南冶金,2006,35(1):83-84. 被引量:4
  • 4Sylvaln Seyer, Chen T T, Dutrizac J E. Jarofix: Addressing iron disposal in the zinc industry [ J ]. Mineralogy, 2001, (12) :32 -34.
  • 5Ismael M R C. Iron removal by liquid -liquid extraction [ D ]. Portugal,Technical University of Lisbon, 1999.
  • 6Hoh Y, Wang J. Solvent extraction separation study of Fe (Ⅲ )and Zn(Ⅲ) from ' solutions with D2EPHA and aqueous D2EHPA mixed with TBP in hydrocarbon diluents[ C]. Proceedings of the International Solvent Extraction Conference ISEC, 1983:403 - 404.
  • 7Asano H,Itabshi H,Kawamoto H. Separation of Fe( Ⅲ) by di( 2 - ethylhexyl )/phosphate/4 - methyl - 2pentanone extraction[ J]. Journal of the Iron and Steel Institute of Japan, 2001,87(9) :623 - 625.
  • 8Suarez C, Ahumada E,Orellana F. Extraction of iron( Ⅲ )acidic sulfate solutions with bis (2 - eth - ylhexyl) phosphoric acid in PENRECO 170 ES, a new friendly diluent [ J ]. Journal of Chemical Technology and Biotechnology ,2002,77 (2) :183 -189.
  • 9Lupi C,Piloue D. Reductive stripping in vacuum of Fe( Ⅲ ) from D2EHPA [ J ]. Hydrometallurgy, 2000,57 ( 3 ) : 201 - 207.
  • 10Sun J,O'Keefe T J. An evaluation of steel scrap as a reducing agent in the galvanic stripping of iron from D2EHPA [ J ]. Miner. 2002,15 ( 3 ) : 177 - 185.

共引文献78

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部