锌焙砂一般采用中性-低酸-高酸三段浸出工序,该工艺在酸浸出中浸渣的过程中,铁也大量浸出进入到溶液中,加重了净化电积前除铁的负担。通过将传统锌湿法冶金工艺与氧压酸浸新工艺相结合,研究了氧压酸浸处理中浸渣的氧气压力、硫酸浓度、温度、浸出时间、粒度、液固比和分散剂等相关因素的影响。实验结果表明该工艺不仅提高了锌的浸出率(〉98%),降低了铁的浸出率(〈50%),缩短了生产周期,降低了生产成本,具有良好的经济效益;而且还具有环境友好和资源利用率高等优点,实现了简化工艺和节能减排的目的,为工业化生产提供了参考.
Zinc calcine leaching process by three-stage, there are neutral leaching-low acid leaching-high acid leaching. Iron would be leaching into the solution in the process of acid leaching which would increase the difficulty of removing iron before electro-deposition. In this paper, the traditional zinc hydrometallurgical and oxygen pressure leaching were combined, the effect of oxygen pressure, concentration of sulfuric acid, temperature, leaching time, mineral particles size, liquor/solid ratio and amount dispersing agentwere found out from the research on oxidizing pressure leaching the residues from the neutral leaching process. The results showed thatoxidizing pressure leaching have good economic benefit and social effect. It is not only improve Zn leaching rate( over 98% ) , reduce Fe leaching rate( low 50% ) , shorten pro- duction cycle and reduction in production costs, but also environment friendly and raising resource utilization. So as to simplify process and save energymeanwhile it can offered reference for industrial study in future.
参考文献
| [1] | 梅光贵.湿法炼锌学[M].长沙:中南工业大学出版社,1995 |
| [2] | 杨显万;邱定蕃.湿法冶金[M].Beijing:Metallurgical IndustryPress,1998 |
| [3] | ]ames S E;Watson .J L;Peter J.Zinc Production-a Survey of Existing Smelters and Refineries[M].Warrendale:Metals and Materials Society,2000:205-225. |
| [4] | Krauss C J.Effects of Minor Elements on the Production of Elec-trolytic Zinc from Zinc Sulphide Concentrates[A].Tokyo Japan,1985:467-481. |
| [5] | 袁铁锤,高亮,宁顺明,周科朝.黄钾铁矾法处理含铟高铁锌精矿[J].有色金属(冶炼部分),2008(01):11-14. |
| [6] | Elgersma F;Witkamp G J;Rosmalen G M van .Incorporation of Zinc in Continuous Jarosite Precipitation[J].Hydrometallurgy,1993,33(03):313-339. |
| [7] | Davey P T;Scott T R .Removal of Irora from Leach Liquors by the"Goethite"Process[J].Hydrometallurgy,1976,2(01):25-33. |
| [8] | Dutrizac J E.The Physical Chemistry of Iron Precipitation in the Zinc Industry[A].Las Yegas,Nevada:The Editorieal Committee of this Proceeding,1980:532-564. |
| [9] | 赵永,蒋开喜,王德全,郭亚会.用针铁矿法从锌焙烧烟尘的热酸浸出液中除铁[J].有色金属(冶炼部分),2005(05):13-15. |
| [10] | Romero M;Rinc6n J Ma .Microstructural Characterization of a Goethite Waste from Zinc Hydrornetallurgical Process[J].Mate-ri:tls Letters,1997,31:67-73. |
| [11] | 陈家镛;于淑秋;伍志春.湿法冶金中铁的分离与利用[M].Beijing:MetallurgicalIndustry Press,1991 |
| [12] | 殷俊良 .南斯拉夫的有色金属工业[J].有色金属(冶炼部分),1979,4:28-30. |
| [13] | 许绍权;李素清.湿法炼锌工艺中稀散金属的回收[J].稀有金属,1981(04):9-11. |
| [14] | Hae-Ryong Bae;Radu Barna;Jacques M:hu et al.Assess-ment of Chemical Sensitivity of Waelz Slaga[Jl[J].Studies in Envi-ronmental Science,1997,71:647-660. |
| [15] | D. Herrero;P.L Arias;B. Giiemez .Hydrometallurgical process development for the production of a zinc sulphate liquor suitable for electrowinning[J].Minerals Engineering,2010(6):511-517. |
| [16] | 黄柱成,郭宇峰,杨永斌,李光辉,姜涛,张元波,张亚平.浸锌渣回转窑烟化法及镓的富集回收[J].中国资源综合利用,2002(06):13-15. |
| [17] | 梁杰,王华.低品位氧化铅锌矿的烟化法富集工艺[J].有色金属(冶炼部分),2005(04):5-7. |
| [18] | J. Hoang;M.A. Reuter;R. Matusewicz .Top submerged lance direct zinc smelting[J].Minerals Engineering,2009(9/10):742-751. |
| [19] | 管国平.采用Ausmelt法改造会泽铅锌矿铅冶炼系统的设想[J].工程设计与研究,1997(04) |
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