研究了Sb3+?OH??Cl?体系中配位溶解?沉淀平衡的理论模拟和实验验证,包括SbOCl、Sb4O5Cl2和Sb2O3的水解沉淀过程。对不同配体浓度、不同pH值条件下的锑离子平衡浓度进行理论计算及实验验证,同时分别从溶解平衡和物质转变吉布斯自由能的角度对沉淀产物进行理论分析,并开展验证实验。结果表明,实际锑离子平衡浓度大于理论计算的浓度,其中理论计算的锑离子最小平衡浓度在pH值4.6时为10?10.92 mol/L,而实验验证结果表明在pH值5.1时最小平衡浓度为10?3.8 mol/L。在一定pH值条件下可以得到不同沉淀产物,无论是在理论计算或是验证实验中均不存在SbOCl,验证实验中得到了产物Sb8O11Cl2?H2O。
The theoretical simulation and verified experiments on metal separation in a Sb3+?OH??Cl?complexation?precipitation system involving hydrolysis?precipitation reactions of SbOCl, Sb4O5Cl2and Sb2O3were carried out. The equilibrium concentration of [Sb3+]Twas obtained by calculation and verified by experiments. The precipitates SbOCl,Sb4O5Cl2and Sb2O3were analyzed through the equilibrium concentration of Sb3+in the solution and the ΔrGΘmof transformation reactions of these materials. It is found that the concentration of [Sb3+]Tin verified experiments was larger than the theoretical value, where the theoretical minimum concentration of [Sb3+]Twas 10?10.92mol/L at pH value of 4.6 and the minimum concentration obtained from the verified experiment was about 10?3.8mol/L at pH value of 5.1. Different precipitates can be obtained atcertain pH. The SbOCl cannot be obtained both in theoretic calculations and in verified experiments, while the Sb8O11Cl2?H2O was generated in the experiment.
参考文献
| [1] | Liu KS;Zhai J;Jiang L.Fabrication and characterization of superhydrophobic Sb2O3 films[J].Nanotechnology,200816(16):165604-1-165604-6-0. |
| [2] | 李阔;徐瑞东;何世伟;陈汉森;朱云;华宏全;舒波.采用碱性加压氧化浸出从高铋铅阳极泥中脱除砷锑[J].中国有色金属学报,2015(5):1394-1402. |
| [3] | 肖发新;曹岛;毛建伟;申晓妮;任凤章.五价锑在脱除铜电解液中砷、锑、铋杂质中的作用[J].中国有色金属学报(英文版),2014(1):271-278. |
| [4] | 王成彦;邱定蕃;江培海.国内锑冶金技术现状及进展[J].有色金属(冶炼部分),2002(5):6-10. |
| [5] | Lei Liu;Zhaolin Hu;Yuming Cui.A facile route to the fabrication of morphology-controlled Sb_2O_3 nanostructures[J].Solid state sciences,20105(5):882-886. |
| [6] | 张传福;姚永林;湛菁.Fe2-Ni2-NH3-NH4-C2O42?-H2O体系的沉淀?配合平衡热力学[J].中国有色金属学报,2012(10):2938-2943. |
| [7] | CHEN Jin-zhong;CAO Hua-zhen;LI Bo;YUAN Hai-jun;ZHENG Guo-qu;YANG Tian-zu.Thermodynamic analysis of separating lead and antimony in chloride system[J].中国有色金属学报(英文版),2009(03):730-734. |
| [8] | Li wen Ma;Zuoren Nie;Xiaoli Xi.Theoretical simulation and experimental study on nickel, cobalt, manganese separation in complexation-precipitation system[J].Separation and Purification Technology,2013:124-132. |
| [9] | 杜新玲.Sb3+-Cl-H2O体系中三氯化锑水解平衡的研究[J].中国有色冶金,2012(05):75-79. |
| [10] | 杜新玲;汤长青.高纯锑白生产工艺述评[J].辽宁化工,2007(12):853-856. |
| [11] | 雷新有;刘新文;左国防;杜树荣.湿法锑白生产中还原液水解工艺控制[J].应用化工,2001(1):42-43. |
| [12] | Jun-Jun Tang;Yong Wang;Zheng Jiao;Minghong Wu.Self-assembly nanostructures of one-dimensional antimony oxide and oxychloride[J].Materials Letters,200917(17):1481-1484. |
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