Electrowinning of Tin from Acidic Chloride Effluents by Cyclone type Electrolytic Cell
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Cho, Yeon-Chul
(Department of Advanced Materials Sci. & Eng., Daejin University)
Kang, Myeong-Sik (Department of Advanced Materials Sci. & Eng., Daejin University) So, Hong-Il (Department of Advanced Materials Sci. & Eng., Daejin University) Lee, Joo-Eun (Department of Advanced Materials Sci. & Eng., Daejin University) Ahn, Jae-Woo (Department of Advanced Materials Sci. & Eng., Daejin University) |
1 | Sun, E. Y. L., 1991 : The recovery of metal from electronic scrap, JOM, 43(4), pp. 53-61 DOI |
2 | Ki-Woong Lee et al., 2014 : Separation and recovery of tin indium from spent ITO sludge, J. of Korean Inst. of Resources Recycling, 23(2), pp. 53-60 DOI |
3 | J. Y. Lee, 2004 : Method for Recycling Tin Oxide or Tin from Plating Tin Waste Liquid, Kor. Patent, 10-2004-0107786 |
4 | M. A. Barakat, 1998 : Recovery of lead, tin and indium from alloy wire scrap, Hydrometallurgy, 49, 63-73. DOI |
5 | T. Stefanowicz, T. Golik, S. Napieralska-Zagozda and M. Osinska, 1991 : Tin recovery from an electroplating sludge, Resources, Conservation and Recycling, 6, 61-69. DOI |
6 | Gi-Wung Shin, Yong-Ho Kang, Jae-Woo Ahn, and Seung-Gyun Hyeon, 2015 : Recovery of tin from waste tin plating solution by ion exchange resin, J. of Korean Inst. of Resources Recycling, 24(3), pp. 51-58. DOI |
7 | Jae-Woo Ahn, Seong-Hyung Ryu, and Tae-young Kim, 2015 : Recovery of Tin and Nitric Acid From Spent Solder Stripping Solutions, Korean J. Met. Mater. 53(6), pp. 426-431. DOI |
8 |
P. A. Treasure, Perfomance characterics of the |
9 | Soo-Kyung Kim, Chi-Won Kim, Jinki Jung, and Jae-Chun Lee, 2005 : Electrowinning of Platinum using a modified cyclone reactor, J. of the Korean Society for Geosystem Engineering, 42(1), pp. 35-44. |
10 | Soo-Kyung Kim, Chi-Won Kim, Jinki Jung, Min-Seuk, and Jae-Chun Lee, 2006 : Hydrodynamic analysis for Electrowinning of Palladium using a modified cyclone reactor, J. of the Korean Society for Geosystem Engineering, 43(3), pp. 250-257. |
11 |
Wei Jin, Paul I. Laforest, Alex Luyima, Weldon Read, Luis Navarro and Michael S. Moats, 2015 : Electrolytic recovery of bismuth and copper as a powder from acidic sulfate effluents using an |
12 | V. Escobar, T. Treasure and R. E. Dixon, 2003 : High current density emew copper electrowinning, Proceedings of the TMS Fall Extraction and Processing Conference, Chicago: The Minerals, Metals and Materials Society, pp. 1369-1380. |
13 |
Jeremy Robinson, Ian Ewart, Michael Moats and Shijie Wang, 2013 : High Current Density Electrowinning of Nickel in |
14 | GUO Xue-yi, SHI Wen-tang, LI Dong, TIAN Qing-hua, 2010 : Recovery of copper and nickel from electroplating sludge by cyclone electrowinning, The Chinese Journal of Nonferrous Metals, 20(12), pp. 2425-2430. |
15 | Myeong Sik Kang, Yeon Chul Cho, Jae Woo Ahn, Gi wong Shin, and Yong Ho Kang, 2016 : Electrowinnig of Tin form Acidic Sulfate Effluents Using a Cyclone Electrolytic Cell, J. of Korean Inst. of Resources Recycling, 25(2), pp. 25-32. DOI |
16 | Steven G. Bratsch, 1989 : Standard Electrode Potentials and Temperature Coefficients in Water at 298.15K, J. Phys. Chem. Ref. Data, 18(1), pp. 1-21. DOI |
17 |
Jiye Kim, Choonsoo Kim, Seonghwan Kim, and Jeyong Yoon, 2015 : A Review of Chlorine Evolution Mechanism on Dimensionally Stable Anode ( |
18 | Man Seung Lee, Young Joo Oh, and Jeong Kun Yoo, 2003 : Ionic Equilibria Analysis of Indium Chloride and Purification of Indium by Electrowinning, J. Korean Ind. Eng. Chem., 14(8), 1069-1075. |
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