Study on the Pyro-metallurgical Process for Recovery of Valuable Metal in the Sludge Originated from PCB Manufacturing Process
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Han, Chulwoong
(Korea Institute of Industrial Technology)
Son, Seong Ho (Korea Institute of Industrial Technology) Lee, Man-Seung (Department of Advanced Material Science and Engineering, Institute of Rare Metal, Mokpo National University) Kim, Yong Hwan (Korea Institute of Industrial Technology) |
| 1 | Jin-Yeon Lee, Seong Ho Son, Sung Cheol Park, Yeon Jae Jung, and Yong Hwan Kim, 2017 : Study on the Copper Electro-refining from Copper Containing Sludge, J. of. Kor. Inst. Resources Recycling, 26(6), pp.84-90. |
| 2 | Jin-Yeon Lee, Seong Ho Son, Sung Cheol Park, Yeon Jae Jung, and Yong Hwan Kim, 2017 : Study on the Copper Electro-refining from Copper Containing Sludge, J. of. Kor. Inst. Resources Recycling, 26(6), pp.84-90. |
| 3 | Fernando Gomez, Juan Ignacio Guzman, and John E. Tilton, 2007 : Copper recycling and scrap availability, Resources Policy, 32, pp.183-190. DOI |
| 4 | Huang, K., Guo, J., and Xu, Z. 2009, Recycling of waste printed circuit boards: A review of current technologies and treatment status in China. J. Hazard. Mater., 164(2), pp.399-408. DOI |
| 5 | Younghee Kim, Do Hyung Riu, Soo Ryong Kim, and Young Sun Uh, 2001 : A study of the recovery of shape-controlled copper oxide from the waste etchant of PCB industry, J. of. Kor. Inst. Resources Recycling, 10(6), pp.15-21. |
| 6 | Byung-Su Kim, Lee, Jae-Chun Lee, and Kwang-Ho Lee, 2007 : A novel process for extracting valuable metals from waste electric and electronic scrap using waste copper slag by a high temperature melting method, Journal of the Korean Institute of Resources Recycling, 16(3), pp.27-33. |
| 7 | Ban, B. C., et al., 2002 : Recovery of Precious Metals from Waste PCB and Auto Catalyst Using Arc Furnace, J. of Korean Inst. of Resources Recycling, 11(6), pp.3-11. |
| 8 | Petkoca, E. N., 1997 : Mechanisms of floating slime formation and its removal with the help of sulphur dioxide during the electrorefining of anode copper, Hydrometallurgy, 46(3), pp.277-286. DOI |
| 9 | Leclerc, N., Meux, E., and Lecuire, L. M., 2001 : Hydrometallurgical recovery of zinc and lead from electric arc furnace dust using mononitrilotriacetate anion and hexahydrated ferric chloride, Journal of Hazardous Materials, 91(1-3), pp.257-270. DOI |
| 10 | Chang, C. J. and Liu, J. C., 1998 : Feasibility of copper leaching from an industrial sludge using ammonia solutions, Journal of Hazardous Materials, 58(1-3), pp.121-132. DOI |
| 11 | T. Oishi et al., 2007 : Recovery o high purity copper cathode from printed circuit boards using ammoniacal sulfate or chloride sloutions, Hydrometallurgy, 89, pp.82-88. DOI |
| 12 | J. E. Hoffmann, 1992 : Recovering precious metals from electronic scrap, Jom-J. Miner. Met. Mater. Soc. 44(7), pp.43-48. DOI |
| 13 | B. S. Kim, J. C. Lee, and K. H. Lee, 2007 : A novel process for extracting valuable metals from waste electric and electronic scrap using waste copper slag by a high temperature melting method, J. of Korean Inst. of Resources Recycling, 16(3), pp.27-33. |
| 14 | Han, C. W., et al., 2017 : Phase Analysis and Thermodynamic Simulation for Recovery of Copper Metal in Sludge Originated from Printed Circuit Board Manufacturing Process by Pyro-metallurgical Process, J. of Korean Inst. of Resources Recycling, 26(5), pp.85-96. DOI |
| 15 | Chulwoong Han, Young-Min Kim, Yong Hwan Kim, Seong Ho Son, Man Seung Lee ,and Ki Woong Lee, 2017 : Phase Analysis and Thermodynamic Simulation for Recovery of Copper Metal in Sludge Originated from Printed Circuit Board Manufacturing Process by Pyro-metallurgical Process, J. of Korean Inst. of Resources Recycling, 26(5), pp.85-96. DOI |
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