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黄磷电炉电尘浆提取镓的预处理 被引量:12

Pretreatment of phosphorus industry flue dust forgallium extraction
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摘要 根据在电炉还原炼磷过程中,磷灰石中的镓在电尘浆中高度富集,成为可供利用的镓资源,提出了一种提取镓的预处理技术:用浓硫酸熟化电尘,将其中的镓先转化成水溶性化合物,再从预处理物料中浸出镓。考察了预处理过程中电尘的化学和矿物学变化以及影响镓提取率的因素,并给出了适宜的预处理条件;在最佳质量比电尘∶水∶硫酸=1∶1∶1,200℃下熟化2h。实验结果表明,在优化条件下将预处理的电尘在80℃浸出1h,镓的浸出率可达90%以上。 The gallium of apatite is found to be concentrated in the flue dust when apatite is reduced to produce yellow phosphorus in electric arc furnace, which makes the flue dust a valuable gallium resource. The new technology proved is to introduce a pretreatment process to enhance the extraction of gallium from phosphorus industry flue dust. The flue dust is slurred, then treated with concentrated sulfuric acid and cured for a period. The gallium in the dust is converted into soluble compounds after the pretreatment and ready to leach in the subsequent leaching process. The chemical and mineralogical changes occurred during the pretreatment were investigated to further understand the process, and the parameters of the pretreatment were examined and optimized. About 90% of the gallium can be extracted from the flue dust in this way.
作者 许可 邓彤 陈家镛 戴玉杰 王静
机构地区 中国科学院过程工程研究所
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2004年第6期1025-1030,共6页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目(20076048)
关键词 电炉烟尘 黄磷硫酸 熟化 flue dust gallium phosphorus sulfuric acid curing
分类号 TF534.2 [冶金工程—钢铁冶金]
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参考文献11

  • 1[1]Sheka I A, Chaus J S, Mityareva T T. The Chemistry of Gallium[M]. Amsterdam: Elsevier, 1966.
  • 2[2]Crowson P. Minerals Handbook 1996 - 97[M]. New York: Stockton Press, 1996. 130 - 136.
  • 3[3]Moskalyk R R. Gallium: the backbone of the electronics industry[J]. Minerals Engineering, 2003, 16(10): 921 - 929.
  • 4[5]Dutrizac J E, Jambor J L, Chen T T. Host minerals for the gallium-germanium ores of the Apex mine[J]. Utah Econ Geol, 1986, 81(4): 946 - 950.
  • 5[6]Wilder T C, Katrak F E. Overview of current processes for the extraction of gallium[A]. Hass L A, Weir D R. Hydrometallurgy of Copper, Its Byproducts and Rare Metals[C]. New York: Society of Mining Engi neers of AIME, 1983. 51-57.
  • 6[7]Bautista R G. Gallium metal recovery[J]. JOM, 1989, 41(6): 30-31.
  • 7[8]Torma A E. Method of extracting gallium and germa nium[J]. Miner Process Extr Metall, 1991 (3 - 4):235 - 258.
  • 8[9]Chaves A P, Abrao A, Avritscher W. Gallium recovery as a by-product of bauxites[A]. Proceedings of the TMS Fall Extraction and Processing Conference [ C]. Warrendale, Pennsylvania: The Minerals, Metals & Materials Society, 1999. 1363 - 1371.
  • 9[10]Dutrizac J E, Chen T T. The behaviour of gallium during jarosite precipitation[J]. Canadian Metallurgi cal Quarterly, 2000, 39(1): 1- 14.
  • 10[13]Neylan D L, Walters C P. Gallium extraction from phosphorus flue dust by a sodium carbonate fusion water leach process[A]. Proceedings of the Interna tional Symposium on Recycle and Secondary Recovery of Metals[C]. Warrendale, Pennsylvania: Metallurgy Society, 1985. 727 - 733.

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中国有色金属学报
2004年 第6期

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