화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Applied Chemistry for Engineering, Vol.26, No.6, 631-639, December, 2015
DOI10.14478/ace.2015.1120  Export Citation
용매추출에 의한 코발트 분리 기술
Extraction/Separation of Cobalt by Solvent Extraction: A Review
Basudev Swain, 조성수, 이계호1, 이찬기, 엄성현
  • 고등기술연구원 신소재공정센터
  • 1충남대학교 화학과
Basudev Swain, Sung-Soo Cho, Gae Ho Lee1, Chan Gi Lee, and Sunghyun Uhm
  • Institute for Advanced Engineering, Advanced Materials & Processing Center, Yongin, 17180, Republic of Korea
  • 1Department of Chemistry, Chungnam National University, Daejeon, 34134, Republic of Korea
E-mail:,
초록
용매추출에 의한 코발트 분리 기술에 대해 리뷰하였고 특히 다양한 시약을 사용한 코발트의 분리 및 상용 추출용제를 사용하여 스크랩으로부터의 코발트 회수기술에 대하여 분석하였다. 코발트 분리 능력은 phosphinic > phosphonic > phosphoric acid 순으로 정리되며, 이것은 유기상내에 추출용제와 존재하는 코발트의 사면체 배위 화합물의 안정성이 증가하기 때문이다. 용매의 조성에 따라 달라지지만 주로 Cyanex 272, D2EPHA 및 PC 88A와 같은 상용 추출용제 등이 상용 추출 공정에서 우선적으로 사용되어야 하며, 다양한 조합을 효과적으로 관리한다면 코발트 함유 스크랩과 관련 한 다양한 분리기술 문제점들을 해결할 수 있을 것이다.
Extraction/separation of cobalt by solvent extraction is reviewed. Separation of cobalt using various reagents and also cobalt recovery from scrap using commercial extractant were analyzed. The separation ability for cobalt followed the order of phosphinic > phosphonic > phosphoric acid due to the increasing stabilization of tetrahedral coordination of cobalt complexes with the extractant in the organic phase. Depending upon the solution composition, commercial extractants like Cyanex 272, D2EPHA and PC 88A should primarily be used for commercial extraction processes and also the efficient management of their combination could address various separation issues associated with cobalt bearing scrap.
Keywords:solvent extraction;cobalt;hydrometallurgy;resources recycling;commercial extractant
  1. Swain B, Separation of Cobalt and Lithium from Lithium-ion Battery Industry Waste by Solvent Extraction and Supported Liquid Membrane: A Comparative Study, Thesis submitted to the committee of Department of chemistry, Graduate School Chungnam National University in partial fulfillment of the requirement for the degree of Doctor of Philosophy conferred in August (2007), Chapter 2, 10-18 (2007).
  2. Kholmogorov AG, Kononova ON, Patrushev VV, Mikhlina EV, Kononov YS, Pashkov GL, Hydrometallurgy, 45(3), 261 (1997)
  3. Mendes FD, Martins AH, Miner. Eng., 18(9), 945 (2005)
  4. Zainol Z, Nicol MJ, Hydrometallurgy, 96(4), 283 (2009)
  5. Coe CG, Kirner JF, Pierantozzi R, et. al., Divalent cation exchanged lithium X zeolite for nitrogen adsorption, U.S patent no 5,417,957, May 23 (1995), applied Oct 5 (1992).
  6. Sevenich GJ, Fritz JS, Anal. Chem., 55(1), 12 (1983)
  7. Zvezdov A, Ishigure K, Desalination, 154(2), 153 (2003)
  8. Swain B, Jeong J, Lee JC, Lee GH, Sep. Purif. Technol., 63(2), 360 (2008)
  9. Swain B, Jeong J, Lee JC, Lee GH, Sohn JS, J. Power Sources, 167(2), 536 (2007)
  10. Swain B, Jeong J, Lee JC, Lee GH, Hydrometallurgy, 84(3-4), 130 (2006)
  11. Swain B, Jeong J, Kim MS, Lee JC, Sohn JS, J. Korean Inst. Resources Recycling, 14(6), 28 (2005)
  12. Gerhartz W, Elvers B, Ravenscroft M, Rounsaville JF, Schulz G, Ullmann’s Encyclopedia of industrial chemistry, Volume B3, Fifth edition, pp. 6-44-6-50.
  13. Rydberg J, Cox M, Musikas C, Chopin GR, Solvent Extraction Principles and Practice, Second Edition, Marcel Dekker (2004).
  14. Kholmogorov AG, Kononova ON, Patrushev VV, Mikhlina EV, Kononov YS, Pashkov GL, Hydrometallurgy, 45(3), 261 (1997)
  15. Zvezdov A, Ishigure K, Desalination, 154(2), 153 (2003)
  16. Ahuja M, Rai AK, Carbohydr. Polym., 33(1), 57 (1997)
  17. Petranovic NA, Sisic MV, J. Inorg. Nucl. Chem., 31(2), 551 (1969)
  18. Coe CG, Kirner JF, Pierantozzi R, et. al., U.S patent no 5,417,957, May 23, 1995, Applied Oct 5, 1992, Divalent cation exchanged lithium X zeolite for nitrogen adsorption.
  19. Quinche JP, Quinche-Sax S, J. Chromatogr., 32, 162 (1968)
  20. Zhang P, Yokoyama T, Itabashi O, Suzuki TM, Inoue K, Hydrometallurgy, 47, 259 (1998)
  21. Huang TC, Tsai TH, Acta Chemica Scandinavica, 45, 383 (1991)
  22. Preston JS, Preez ACD, Solvent Extr. Ion Exch., 13(3), 465 (1995)
  23. Yoshizuka K, Sakomoto Y, Baba Y, Inoue K, Hydrometallurgy, 23, 309 (1990)
  24. Devi NB, Nathsarma KC, Chakravortty V, Hydrometallurgy, 49, 47 (1998)
  25. Zhang P, Yokoyama T, Suzuki TM, Inoue K, Hydrometallurgy, 61, 223 (2001)
  26. Akita S, Castillo LP, Nii S, Takahashi K, Takeuchi H, J. Membr. Sci., 162(1-2), 111 (1999)
  27. Thakur NV, Hydrometallurgy, 48, 125 (1998)
  28. Grimm R, Kolarrik Z, J. Inorg. Nucl. Chem., 36, 189 (1974)
  29. Barnes JE, Setchfield JH, Williams GOR, J. Inorg. Nucl. Chem., 38, 1065 (1976)
  30. Ide S, Takagi M, Anal. Sci., 6(4), 599 (1990)
  31. Oshima S, Hirayama N, Kubono K, Kokusen H, Honjo T, Anal. Chim. Acta, 441, 157 (2001)
  32. Hirayama N, Ichitani N, Kubono K, Matsuoka Y, Kokusen H, Honjo T, Talanta, 44, 2019 (1997)
  33. Merdivan M, Gungor A, Savasci S, Aygun RS, Talanta, 53, 141 (2000)
  34. Tsakiridis PE, Agatzini-Leonardou S, Miner. Eng., 17(7-8), 913 (2004)
  35. Tsakiridis PE, Agatzini SL, Miner. Eng., 17(4), 535 (2004)
  36. Tait K, Hydrometallurgy, 32(3), 365 (1993)
  37. Darvishi D, Haghshenas DF, Alamdari E, Sadrnezhaad SK, Halali M, Hydrometallurgy, 77(3-4), 227 (2005)
  38. Park KH, Jung SH, Nam CW, Shin SM, Kim DS, J. Kor. Inst. Met. Mater., 42(11), 947 (2004)
  39. Sarangi K, Reddy RB, Das RP, Hydrometallurgy, 52(3), 253 (1999)
  40. Koladkar DV, Dhadke PM, Solvent Extr. Ion Exch., 19(6), 1059 (2001)
  41. Gupta B, Deep A, Tandon SN, Theor. Anal. Chem., 42A(12), 2954 (2003)
  42. Gupta B, Deep A, Tandon SN, Solvent Extr. Ion Exch., 20(1), 81 (2002)
  43. Bourget C, Jakovljevic B, Nucciarone D, Hydrometallurgy, 77(3-4), 203 (2005)
  44. Jakovljevic B, Bourget C, Nucciarone D, Hydrometallurgy, 75(1-4), 25 (2004)
  45. Tsakiridis, Agatzini SL, Hydrometallurgy, 72(3-4), 269 (2004)
  46. Devi NB, Nathsarma KC, Chakravortty V, Hydrometallurgy, 49(1-2), 47 (1998)
  47. Devi NB, Nathsarma KC, Chakravortty V, Hydrometallurgy, 34(3), 331 (1994)
  48. Nathsarma KC, Sarma PVRB, Recovery of cobalt from ammoniacal solution using Di(2-ethylhexyl)phosphoric acid, Publications of the Australasian Institute of Mining and Metallurgy, (9/92) Extractive Metallurgy of Gold and Base Metals, 271-275 (1992).
  49. Inoue K, Imura H, Hydrometallurgy, 17(22), 215 (2003)
  50. Luo L, Wei J, Wu G, Toyohisa F, Atsushi S, Trans. Nonferrous Met. Soc. China, 16(3), 687 (2006)
  51. Ahn JW, Park KH, Shon JS, J. Kor. Inst. Met. Mater., 41(6), 383 (2003)
  52. Gupta A, Khopkar SM, Talanta, 42(10), 1493 (1995)
  53. Preez D, Preston AC, Mintek JS, Afr RS, J. South African Inst. Mining Metallurgy, 104(6), 333 (2004)
  54. Zhou X, Wang H, Xia Y, Zhu T, Zhongguo Youse Jinshu Xuebao, 10(5), 723 (2000)
  55. Rickelton WA, Recovery of cobalt from ammoniacal solutions containing cobalt and nickel. American Cyanamid Co., USA). U.S. (1986), 5 pp. CODEN: USXXAM US 4619816 A 19861028 Patent written in English. Application: US 85-799230 19851121.
  56. Liu P, Wang Y, Sun S, Jinglan Y, Yu X, Shandong Daxue Xuebao Ziran Kexueban, 29(3), 320 (1994)
  57. Zhu T, Huagong Xuebao (Chinese Edition), 44(3), 343 (1993)
  58. Orive MM, Azabal MA, Fernandez LA, Madariaga, Kim JM, Solvent Extr. Ion Exch., 10(5), 787 (1992)
  59. Xun F, Golding JA, Solvent Extr. Ion Exch., 5(2), 205 (1987)
  60. Rickelton WA, Flett DS, West DW, Solvent Extr. Ion Exch., 2(6), 815 (1984)
  61. Chen S, Luo Y, Wang L, Zhang L, Wang R, Separation of copper and cobalt from nickel sulphate solution by oranophosphorus mixed extractant, EPD Congress 2005, Proceedings of Sessions and Symposia held during the TMS Annual Meeting, San Francisco, CA, United States, Feb. 13-17 (2005), 437-441 (2005).
  62. Maljkovic D, Lenhard Z, The effect of organophosphoric extractant concentration and initial phase volume ratio on cobalt(II) and nickel(II) extraction, International Solvent Extraction Conference, Cape Town, South Africa, Mar. 17-21, 982-987 (2002).
  63. Kongolo K, Mwema MD, Banza AN, Gock E, Miner. Eng., 16(12), 1371 (2003)
  64. Flett DS, Chem. Sust. Dev., 12, 81 (2004)
  65. Brochure cyanex 272, 2008 Cytec Industries Inc., https://www.cytec.com/sites/default/files/datasheets/CYANEX%20272%20Brochure.pdf.
  66. Pranolo Y, Cheng CY, The Recovery of Cobalt and Lithium from Spent Battery Leach Solutions by Solvent Extraction, AJ Parker CRC for Hydrometallurgy (CSIRO Minerals) report DMR-2624 (2005).
  67. http://pubs.usgs.gov/of/2002/of02-299/of02-299.pdf, Accessed date 09/11/2015.
  68. Qin Y, Man R, Yin X, Mod. Chem. Ind., 33(8), 49 (2013)
  69. Awual M, Ismael M, Yaita T, Sens. Actuators B-Chem., 49, 190 (2014)
  70. Joulie M, Laucournet R, Billy E, J. Power Sources, 35, 22 (2013)
  71. Zeng GS, Luo SL, Deng XR, Li L, Au CT, Miner. Eng., 49, 40 (2013)
  72. Jha M, Jha AK, Waste Manage., 33(9), 1890 (2013)
  73. Li L, Dunn JB, Zhang XX, Gaines L, Chen RJ, Wu F, Amine K, J. Power Sources, 233, 180 (2013)
  74. Jha AK, Jha MK, Kumari A, Sahu SK, Kumar V, Pandey BD, Sep. Purif. Technol., 104, 160 (2013)
  75. Zou H, Gratz E, Apelian DA, Green Chem., 15(5), 1183 (2013)
  76. Fernandes A, Afonso JC, Dutra AJB, J. Power Sources, 220, 286 (2012)
  77. Bertuol DA, Amado FDR, Veit H, Ferreira JZ, Bernardes AM, Chem. Eng. Technol., 35(12), 2084 (2012)
  78. Santos VEO, Celante VG, Lelis MFF, Freitas MBJG, J. Power Sources, 218, 435 (2012)
  79. Xiao Y, Zhou X, Cao L, Adv. Mater. Res., 476-478(1), 357 (2012)
  80. Mohapatra D, Park K, J. Environ. Sci. Health Part A-Toxic/Hazard. Subst. Environ. Eng., 42(4), 507 (2007)
  81. Liang Y, Rare Metals Cemented Carbides, 37(4), 179 (2009)
  82. Zhang P, Yokoyama T, Itabashi O, Suzuki TM, Inoue K, Hydrometallurgy, 47, 259 (1998)
  83. Wu F, Zhongguo Youse Jinshu Xuebao, 14(4), 697 (2004)
  84. Swain B, lee JC, Jeong J, Lee GH, Hydrometallurgy, 84(3-4), 130 (2006)
  85. Swain B, Lee JC, Jeong J, Lee GH, Separation of cobalt and lithium from mixed sulfate solution using organophosphorous extractant Na-cyanex 272, The 17th International Solvent Extraction Conference, ISEC 2005, September 19-23 (2005), Beijing, People’s Republic of China, CD publication ISBN 7-900692-02-9, 2005, 605 (2005).
  86. Nan JM, Han DM, Zuo XX, J. Power Sources, 152(1), 278 (2005)
  87. Kim DS, Sohn JS, Lee CK, Lee JH, Han KS, Lee YI, J. Power Sources, 132(1-2), 145 (2004)