湿法炼锌净化渣酸浸的动力学(英文) 被引量：6

Acid leaching kinetics of zinc plant purification residue

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摘要对湿法炼锌净化渣的浸出动力学进行了研究，并探讨了硫酸浓度、反应温度、粒度等对钴、锌浸出率的影响规律。从动力学的角度分析了整个浸出过程，得到优化条件：液固比50：1（mL/g），硫酸浓度100 g/L，反应温度70°C，粒度75-80μm，反应时间20 min。在此优化条件下钴的浸出率为99.8%，锌的浸出率为91.97%。结果表明：在硫酸体系中钴的浸出符合不生成固体产物层的“未反应收缩核”模型。通过 Arrhenius 经验公式求得钴和锌表观反应活化能分别为11.693 kJ/mol和6.6894 kJ/mol，这表明浸出过程受边界层扩散控制。 The leaching processes of zinc plant purification residue in sulfuric acid solution were investigated with respect to the effects of sulfuric acid concentration, reaction temperature, and particle size. A particle size of 75？80 μm was required to leach 99.8%cobalt and 91.97%zinc at 70 °C for 20 min when the sulfuric acid concentration was 100 g/L and the ratio of liquid to solid was 50？1 （mL/g）. The leaching kinetics of zinc plant purification residue in sulfuric acid solution system conformed well to the shrinking core model, and the dissolution rates of cobalt and zinc were found to be controlled by diffusion through a porous product layer. The apparent activation energy values of cobalt and zinc reaction were calculated to be 11.6931 kJ/mol and 6.6894 kJ/mol, respectively, according to the Arrhenius formula equation. The results show that diffusion through the inert particle pores is the leaching kinetics rate-controlling step.

作者李倩张宝闵小波申文前

机构地区中南大学冶金与环境学院武警工程大学理学院

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2013年第9期2786-2791,共6页 中国有色金属学报（英文版）

基金 Project(51072233)supported by the National Natural Science Foundation of China

关键词钻锌酸浸出浸出动力学 cobalt zinc acid leaching leaching kinetics

分类号 TF823 [冶金工程—有色金属冶金]

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参考文献18

1JANDOVA J, VU H, DVORAK P. Treatment of sulphate leach liquors to recover cobalt from waste dusts generated by the glass ndustry [J]. Hydrometallurgy, 2005 77(1-2): 67-73.
2HAGHSHENAS D F, DARVISHI D, SHABESTARIZ, MOS'HEFI, ALAMDARI E, KESHAVARZ, SADRNEZHAAD S K. Leaching recovery of zinc, cobalt and manganese from zinc purification residue [J]. International Journal of Engineering: Transaction B, 2007 20(2): 133-140.
3WANG Yan, ZHOU Chun-shan. Hydrometallurgical process for recovery of cobalt from zinc plant residue [J]. Hydrometallurgy, 2002, 63: 225-234.
4YOROKO I, SEIMIN T. Zinc production in Yandao limited [J]. Mineral and Row Material, 1993, 109(12): 1039-1104.
5SMITH A J, GARCIANO L O, TRAN T. Effect of chromate addition on the structure and kinetics of leaching for the formation of promoted skeletal (Raney) cobalt catalysts [J]. Industrial and Engineering Chemistry Research, 2008, 47(8): 2518-2522.
6EIVAZI HOLLAGH A R, KESHAVARZ-ALAMDARI E, MORADKHANI D. Dissolution kinetics of zinc from zinc plants residue [C]//Hydrometallurgy 2008: Proceedings of the 6th International Symposium. Arizona, USA, 2008: 196-200.
7STRBAC N, MIHAJLOVIC I, ANDRIC V, ZIVKOVIC Z, ROSIC A. Kinetic investigations of two processes for zinc recovery from zinc plant residue [J]. Canadian Metallurgical Quarterly, 2011, 50(1): 28-36.
8SAFARZADEH M S, MORADKHANI D, OJAGHI-ILKHCHI M. Kinetics of sulfuric acid leaching of cadmium from Cd-Ni zinc plant residues [J]. Journal of Hazardous Materials, 2009, 163(2-3): 880-890.
9SAFARZADEH M S, DHAWAN N, BIRINCI M, MORADKHANI D. Reductive leaching of cobalt from zinc plant purification residues [J]. Hydrometallurgy, 2011, 106(1-2): 51-57.
10HUBLI R C, MITTRA J, SURI A K. Reduction-dissolution of cobalt oxide in acid media: a kinetic study [J]. Hydrometallurgy, 1997, 44(1-2): 125-134.

二级参考文献2

1朱云,郭淑仙,胡汉.微生物从煤中浸出锗的动力学[J].有色金属,2001,53(4):22-25. 被引量：6
2朱云,胡汉,苏云生.微生物从煤中浸出锗的基础热力学[J].云南冶金,2002,31(3):106-108. 被引量：13

共引文献2

1边雪,陈建利,赵志华,尹少华,罗瑶,张丰云,吴文远.Kinetics of mixed rare earths minerals decomposed by CaO with NaCl-CaCl_2 melting salt[J].Journal of Rare Earths,2010,28(S1):86-90. 被引量：5
2侯晓川,杨润德,李贺,曾理,肖连生.Kinetics study of leaching arsenic from Ni-Mo ore roasting in dust mixture of hydrochloric and sulfuric acids[J].Journal of Central South University,2014,21(6):2176-2183.

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2卢国俭.钴渣的综合利用研究[J].金属矿山,2004,33(z1):501-505. 被引量：1
3JIANG Tao,ZHANG Yu zu,YANG Yong bin,HUANG Zhu cheng (Department of Mineral Engineering, Central South University, Changsha 410083, China).Influence of copper minerals on cyanide leaching of gold[J].Journal of Central South University of Technology,2001,8(1):24-28. 被引量：2
4郎书玲,张力,陈松,王力军.高纯钴制备工艺研究[J].稀有金属,2010,34(6):911-918. 被引量：10
5李林波,洪涛,贾青,王成刚.从湿法炼锌除钴渣的浸出液中分离钴的研究[J].有色金属（冶炼部分）,2004(3):13-15. 被引量：9
6陈海清,刘亚雄.从钴渣中综合回收有价金属的研究[J].湖南有色金属,2006,22(4):19-22. 被引量：9
7王成彦,王含渊,江培海,尹飞,陈永强.P204萃取分离钴锰铁试验研究[J].有色金属（冶炼部分）,2006(5):2-5. 被引量：22
8Barin I;Knacke O.Thermochemical Properties of Inorganic Substances,1973.
9Yang, Jian-Guang,Tang, Chao-Bo,Chen, Yong-Ming,Tang, Mo-Tang.Separation of antimony from a stibnite concentrate through a low-temperature smelting process to eliminate so 2 emission. Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science . 2011
10梁彦杰.铅锌冶炼渣硫化处理新方法研究[D].中南大学2012

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