Recovery of Iron from Domestic Magnetite Ore using Selective-Precipitation Process

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2007 Vol.44, Issue 5 Preview Page Next Page

Recovery of Iron from Domestic Magnetite Ore using Selective-Precipitation Process 침전법에 의한 국내산 자철광으로부터 철 회수: 길대섭, 정강섭, 장희동, 서용재
Dae-Sup Kil, Kang-Sup Chung, Hee-Dong Jang and Yong Jae Suh

31 October 2007. pp. 383-391

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Abstract

Iron was recovered from domestic low grade magnetite ore by selective-precipitation process using hydrochloric and sulfuric acids as a leaching agent. Micropowders mainly containing magnetite, forsterite and diopside were obtained by physical separation processes such as crushing, grinding and screening. These powders were dissolved in 0.5 M ~ 2 M HCl or H2SO4 solution and then neutralized to precipitate iron hydroxide with NH4OH and NaOH. As the concentration of hydrochloric acid increased up to 2.0 M, Fe content in the precipitate increased to 93%. While iron ions precipitated together with Si ones, magnesium ions did not co-precipitate. And the total amount of Al, Ca and Mn in the precipitate was estimated to be below 1%.

Keywords

Magnetite ore

Iron

Strong acid

Dissolution

Neutralization

Precipitation

국내산 저품위 자철광 원광으로부터 염산과 황산을 침출 용매로 사용한 선택 침전법으로 철을 회수하였다. 자철광 원광을 파쇄, 분쇄 및 체가름으로 이루어진 물리적 처리 방법으로 마그네타이트, 포스테라이트, 디옵사이트를 주성분으로 한 미분체를 얻었다. 이 분말을 0.5 M ~ 2.0 M의 염산과 황산 용액에 용해한 후 암모니아수와 수산화나트륨으로 중화하여 수산화철을 침전시켰다. 염산의 농도가 2.0 M로 증가함에 따라 침전물에 함유된 Fe의 함량이 93%까지 증가하였다. 이때 Fe 이온이 침전될 때 Si 이온은 동시에 침전되었으나 Mg 이온은 침전되지 않고 용액 중에 잔류하였다. 침전물에 함유된 Al, Ca 및 Mn의 양의 합계는 1.0 wt% 이하인 것으로 측정되었다.

키워드

자철광

철

강산

용해

중화

침전

References

Al-Mayouf, A. M. and Al-Arifi, A. S. N., 2005, Reductive dissolution of magnetite in ethylenediaminedisuccinic acid solutions, Desalination, 181(1-3), pp. 233-241.
Cornell, R. M. and Schwertmann, U., 2003, The Iron Oxides: Strruture, Properties, Reactions, Occurences and Uses, 2nd ed., Wiley-VCH, Weinheim, 338, pp. 297-344.
Davey, P. T. and Scott, T. R., 1977, Removal of iron from leach liquors by the ‘Goethite’ process, Hydrometallurgy, 2(1), pp. 25-33.
Deep, A., Correia, P. F. M. and Carvalho, J. M. R., 2006, Selective recoveries of Fe (III) and Cr (III) from a tannery filtrate using Cyanex 923, Analytica Chimica Acta, 558, pp. 254-260.
Hur, D. H., Choi, M. S., Kim, U. C. and Han, J. H., 2003, Magnetite dissolution and corrosion behavior in high temperature EDTA solvents, Nuclear Engineering and Design, 220(1), pp. 11-16.
Ismael, M. R. C. and Carvalho, J. M. R., 2003, Iron recovery from sulphate leach liquors in zinc hydrometallurgy, Minerals Engineering, 16(1), pp. 31-39.
Lee, S. O., Oh, J. K. and Shin, B. S., 1999, Dissolution of iron rust materials using oxalic acid, J. Min. Metall. Inst. Jpn., 115, pp. 815-819.
Lee, S. O., Tran, T., Park, Y. Y., Kim, S. J. and Kim, M. J., 2006, Study on the kinetics of iron oxide leaching by oxalic acid, Int. J. Mineral Processing, 80, pp. 144-152.
Lu, Z.-Y. and Muir, D. M., 1986, Comparative study of the oxidative and reductive dissolution of magnetite in acidified CuSO4-acetonitrile-H2O and CuCl2-NaCl-H2O leach solutions, Journal of Applied Electrochemistry, 16(5), pp. 745-756.
Lupi, C. and Pilone, D., 2000, Reductive stripping in vacuum of Fe (III) from D2EHPA, Hydrometallurgy, 57(3), pp. 201-207.
Shying, M. E., 1975, Oxide dissolution mechanisms-IV. Activation of surface sites in the system magnetite/ sulphuric acid, Journal of inorganic and nuclear chemistry, 37(11), pp. 2339-2340.
Taxiarchou, M., 1998, Dissolution of magnetite in acidic oxalate solutions, Trans. Section C, Mineral processing & extractive metallurgy, 107 Jan./Apr. pt. C., C37-C41.
Wei, X., Viadero Jr., R. C. and Buzby, K. M., 2005, Recovery of iron and aluminum from acid mine drainage by selective precipitation, Environmental Engineering Science, 22(6), pp. 745-755.
Yaman, M. and Kaya, G., 2005, Speciation of iron (II) and (III) by using solvent extraction and flame atomic absorption spectrometry, Analytica Chimica Acta, 540, pp. 77-81.

Information

Publisher :The Korean Society of Mineral and Energy Resources Engineers
Publisher(Ko) :한국자원공학회
Journal Title :Journal of the Korean Society for Geosystem Engineering
Journal Title(Ko) :한국지구시스템공학회지
Volume : 44
No :5
Pages :383-391

[1] Al-Mayouf, A. M. and Al-Arifi, A. S. N., 2005, Reductive dissolution of magnetite in ethylenediaminedisuccinic acid solutions, Desalination, 181(1-3), pp. 233-241.

[2] Cornell, R. M. and Schwertmann, U., 2003, The Iron Oxides: Strruture, Properties, Reactions, Occurences and Uses, 2nd ed., Wiley-VCH, Weinheim, 338, pp. 297-344.

[3] Davey, P. T. and Scott, T. R., 1977, Removal of iron from leach liquors by the ‘Goethite’ process, Hydrometallurgy, 2(1), pp. 25-33.

[4] Deep, A., Correia, P. F. M. and Carvalho, J. M. R., 2006, Selective recoveries of Fe (III) and Cr (III) from a tannery filtrate using Cyanex 923, Analytica Chimica Acta, 558, pp. 254-260.

[5] Hur, D. H., Choi, M. S., Kim, U. C. and Han, J. H., 2003, Magnetite dissolution and corrosion behavior in high temperature EDTA solvents, Nuclear Engineering and Design, 220(1), pp. 11-16.

[6] Ismael, M. R. C. and Carvalho, J. M. R., 2003, Iron recovery from sulphate leach liquors in zinc hydrometallurgy, Minerals Engineering, 16(1), pp. 31-39.

[7] Lee, S. O., Oh, J. K. and Shin, B. S., 1999, Dissolution of iron rust materials using oxalic acid, J. Min. Metall. Inst. Jpn., 115, pp. 815-819.

[8] Lee, S. O., Tran, T., Park, Y. Y., Kim, S. J. and Kim, M. J., 2006, Study on the kinetics of iron oxide leaching by oxalic acid, Int. J. Mineral Processing, 80, pp. 144-152.

[9] Lu, Z.-Y. and Muir, D. M., 1986, Comparative study of the oxidative and reductive dissolution of magnetite in acidified CuSO4-acetonitrile-H2O and CuCl2-NaCl-H2O leach solutions, Journal of Applied Electrochemistry, 16(5), pp. 745-756.

[10] Lupi, C. and Pilone, D., 2000, Reductive stripping in vacuum of Fe (III) from D2EHPA, Hydrometallurgy, 57(3), pp. 201-207.

[11] Shying, M. E., 1975, Oxide dissolution mechanisms-IV. Activation of surface sites in the system magnetite/ sulphuric acid, Journal of inorganic and nuclear chemistry, 37(11), pp. 2339-2340.

[12] Taxiarchou, M., 1998, Dissolution of magnetite in acidic oxalate solutions, Trans. Section C, Mineral processing & extractive metallurgy, 107 Jan./Apr. pt. C., C37-C41.

[13] Wei, X., Viadero Jr., R. C. and Buzby, K. M., 2005, Recovery of iron and aluminum from acid mine drainage by selective precipitation, Environmental Engineering Science, 22(6), pp. 745-755.

[14] Yaman, M. and Kaya, G., 2005, Speciation of iron (II) and (III) by using solvent extraction and flame atomic absorption spectrometry, Analytica Chimica Acta, 540, pp. 77-81.

Journal of the Korean Society of Mineral and Energy Resources Engineers ISSN:2288-0291(Print) 2288-2790(Online) 한국자원공학회지

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