Removal of phosphorus from iron ores by chemical leaching

Yong-shi Jin; Tao Jiang; Yong-bin Yang; Qian Li; Guang-hui Li; Yu-feng Guo

doi:10.1007/s11771-006-0003-y

Journal of Central South University ›› 2006, Vol. 13 ›› Issue (6) : 673 -677. DOI: 10.1007/s11771-006-0003-y

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Removal of phosphorus from iron ores by chemical leaching

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Abstract

Alkali-leaching and acid-leaching were proposed for the dephosphorization of Changde iron ore, which contains an average of 1.12% for phosphorus content. Sodium hydroxide, sulfuriced, hydrochloric and nitric acids were used for the preparation of leach solutions. The results show that phosphorus occurring as apatite phase could be removed by alkali-leaching, but those occurring in the iron phase could not. Sulfuric acid is the most effective among the three kinds of acid. 91.61% phosphorus removal was attained with 1% sulfuric acid after leaching for 20 min at room temperature. Iron loss during acid-leaching can be negligible, which was less than 0.25%. The pH value of solution after leaching with 1% sulfuric acid was about 0.86, which means acid would not be exhausted during the process and it could be recycled, and the recycle of sulfuric acid solution would make the dephosphorization process more economical.

Keywords

iron ore / dephosphorization / acid-leaching / alkali-leaching

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Yong-shi Jin, Tao Jiang, Yong-bin Yang, Qian Li, Guang-hui Li, Yu-feng Guo. Removal of phosphorus from iron ores by chemical leaching. Journal of Central South University, 2006, 13(6): 673-677 DOI:10.1007/s11771-006-0003-y

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References

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[1]	LiX.-c., WenS.-min.. An overview of the present status of dephosphorization of iron ore[J]. Metallic Ore Dressing Abroad, 2004, 41(8): 4-7

[2]	HuangX.-hu.Ferrous metallurgy[M], 20023rd ed.Beijing, Metallurgical Industry Press

[3]	JiJ.. Study on dephosphorization the chnology for high-phosphorus iron ore[J]. Mining & Metallurgy, 2003, 12(2): 33-37

[4]	HeL.-j., WeiD.-zhou.. Research on biodephosphorization of Meishan high phosphorous iron ore[J]. Ming & Metallurgy, 2000, 9(1): 31-35

[5]	YANG Long. Problems in phosphorus reduction technology for Meishan iron concentrate and counter measures[J]. Metal Mine, 2003(4): 21–40. (in Chinese)

[6]	LU Shang-wen, ZHANG Bang-jia. Investigation on the dephosphorization of Lingxiang type colloidal phosphorous iron ore by decolloidization leaching[J]. Metal Mine, 1994(8): 30–36.(in Chinese)

[7]	ZHANG Yu, Mamoun M. The removal of phosphorus from iron ore by leaching with nitric acid[J]. Hydrometallurgy, 1989(21): 255–275.

[8]	Mamoun M, ZHANG Yu. A hydrometallurgical process for the dephosphorization of iron ore[J]. Hydrometallurgy, 1989(21): 277–292.

[9]	ForssbergR., AsolfssonG.. Dephosphorisation of high-phosphorus iron ores by means of acid leaching[J]. Erzmetal, 1981, 34: 316-322

[10]	CUI Ji-rang, FANG Qi-xue. The present status and trends of dephosphorising of high phosphorus iron ore[J]. Multipurpose Utilization of Mineral Resources, 1998(6): 20–24. (in Chinese)

[11]	HuangJ.-l., YangY.-m., XieH.. A study on the dephosphorization of iron ore by phosphorus dissolving agent accompanied with thiobacillus[J]. Journal of Nanjing Forestry University, 1994, 18(2): 25-29

[12]	HeL.-j., ZhouJ.-min.. Characteristics of Meishan iron ore with high phosphorous-bearing and feasibility of biodephosphorization[J]. Gold Journal, 2000, 2(1): 26-29

[13]	ChengC. Y., MisraV. N., CloughJ.. Dephosphorisation of western australian iron ore by hydrometallurgical process[J]. Minerals Engineering, 1999, 12(9): 1083-1092

[14]	HuangL.-huang.Chemical mineral separation[M], 1990, Beijing, Metallurgical Industry Press

[15]	LUO Shao-yao, ZHOU Su-shan. Research on dephosphorization from iron titanate concentrate by selective leaching with high-concentration sulfuric acid[J]. Hydrometallurgy, 1994(1): 32–36. (in Chinese)

[16]	YuZ., MamounM.. An integrated process for the treatment of apatite obtained from dephosphorization of iron ore[J]. J Chem Tech Biotechnol, 1990, 47: 47-60