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《材料导报》期刊社  2017, Vol. 31 Issue (5): 84-93    https://doi.org/10.11896/j.issn.1005-023X.2017.05.014
  材料综述 |
一水硬铝石型高硫铝土矿脱硫研究进展*
郑立聪1,2, 谢克强1,2, 刘战伟1,2, 马文会1,2
1 昆明理工大学真空冶金国家工程实验室/复杂有色金属资源清洁利用国家重点实验室,昆明650093;
2 昆明理工大学 云南省有色金属真空冶金重点实验室/云南省高校硅冶金与硅材料工程研究中心,昆明650093
Review on Desulfurization of High-sulfur Bauxite
ZHENG Licong1,2, XIE Keqiang1,2, LIU Zhanwei1,2, MA Wenhui1,2
1 The National Engineering Laboratory for Vacuum Metallurgy and State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization,Kunming University of Science and Technology,Kunming 650093;
2 Key Laboratory for Nonferrous Vacuum Metallurgy of Yunnan Province and Engineering Research Center for Silicon Metallurgy and Silicon Materials of Yunnan Provincial Universities,Kunming University of Science and Technology,Kunming 650093
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摘要 一水硬铝石型高硫铝土矿脱硫成为解决我国优质铝土矿资源短缺的热点问题。对前人研究的高硫矿成分、物相、形貌进行了总结,全面阐述了拜耳法生产氧化铝过程中硫、铁的行为和危害,详细介绍了国内外研究脱硫的机理、方法及其效果。提出“三步走战略”,即先浮选,后氧化,再沉淀三道工序进行脱硫,且对高硫铝土矿中所含不同成分的硫应采用不同方法脱硫。对含黄铁矿最高的高硫铝土矿可以通过先进行浮选工艺,再对含黄铁矿较高的铝土矿精矿在溶出过程中氧化S2-和溶出后在铝酸钠溶液中添加钡盐沉淀SO42-的方法协同达到脱硫的目的。最后展望了高硫铝土矿脱硫未来的研究方向。
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郑立聪
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刘战伟
马文会
关键词:  高硫铝土矿  黄铁矿  浮选  氧化  沉淀  脱硫    
Abstract: The desulfurization of high-sulfur bauxite has become the hot issue for solving the shortage of high-quality bauxite resources in our country. In this paper, the composition, phase and morphology of high-sulfur bauxite are summarized. The behavior and harmfulness of sulfur and iron in high-sulfur bauxite during the process of producing alumina by the Bayer method is also described comprehensively. The research on the mechanism, methods and effects of desulfurization are introduced in detail. The three-step strategy (flotation, oxidation and precipitation) are proposed to desulfurization of high-sulfur bauxite. At first, the sulfur in the high-sulfur bauxite with highest pyrite can be removed by the flotation process, and then concentrate the bauxite with higher pyrite and sulfur can be removed through S2- oxidation in the dissolution process and SO42- precipitated by adding barium salt. Finally, the prospect of desulfurization of high sulfur bauxite is discussed briefly.
Key words:  high-sulfur bauxite    pyrite    flotation    oxidation    precipitation    desulfurization
出版日期:  2017-03-10      发布日期:  2018-05-02
ZTFLH:  TF821  
基金资助: 国家自然科学基金(51404121);人才基金培育项目(KKSY201452041)
通讯作者:  刘战伟:,女,1978年生,博士,副教授,高级工程师,硕士研究生导师,从事铝冶炼工艺技术的研究 E-mail: zhanwei_liu@126.com   
作者简介:  郑立聪:男,1991年生,硕士研究生,研究方向为氧化铝生产工艺 E-mail:zhenglicongydd@163.com
引用本文:    
郑立聪, 谢克强, 刘战伟, 马文会. 一水硬铝石型高硫铝土矿脱硫研究进展*[J]. 《材料导报》期刊社, 2017, 31(5): 84-93.
ZHENG Licong, XIE Keqiang, LIU Zhanwei, MA Wenhui. Review on Desulfurization of High-sulfur Bauxite. Materials Reports, 2017, 31(5): 84-93.
链接本文:  
https://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.05.014  或          https://www.mater-rep.com/CN/Y2017/V31/I5/84
1 中华人民共和国国土资源部[EB/OL]. http://www.mlr.gov.cn/zygk/#
2 中华人民共和国土资源部. 2015中国国土资源公报[R].2015
3 USGS. Mineral commodity sunmaries 2015[R].2015
4 Tang Zhiyang. The existing problems and countermeasures in the development and utilization of our bauxite resources[J]. Ceramics,2014(6):9(in Chinese).
唐志阳. 我国铝土矿资源开发利用中存在的问题与对策[J]. 陶瓷,2014(6):9.
5 World Bureau of Metal Statistics[EB/OL]. http://www.world-bureau.com.
6 Liu Wangchao, Yang Jiakuai, Bo Xiao. Review on treatment and utilization of bauxite residues in China[J]. Int J Mineral Process,2009,93(3):220
7 Peng Xin, Jin Liye. Development and application of bauxite containing high sulfur[J]. Light Metals,2010(11):14(in Chinese).
彭欣, 金立业. 高硫铝土矿生产氧化铝的开发与应用[J]. 轻金属,2010(11):14.
8 Tan Jie. Removal of S2- from sodium aluminate solution with sodium ferrite[D]. Changsha:Central South University,2014(in Chinese).
谭杰. 铝酸钠溶液中S2-的铁酸钠沉淀脱除[D]. 长沙: 中南大学, 2014
9 Li X B, Li C Y, Peng Z H, et al. Interaction of sulfur with iron compounds in sodium aluminate solutions[J]. Trans Nonferrous Metals Soc China,2015,25(2):608.
10 Lv Guozhi, Zhang Yanan, et al. Roasting pretreatment of high-sulfur bauxite [J]. Chin J Process Eng,2008,8(5):892(in Chinese).
吕国志, 张廷安, 鲍丽, 等. 高硫铝土矿的焙烧预处理[J]. 过程工程学报,2008,8(5):892.
11 Zhao Cong,Chen Chaoyi,et al. Roasting desulphurization and digestion performance of high sulfur-bearing bauxite with coarse particle size[J].Nonferrous Metals: Extractive Metall,2015(7):34(in Chinese).
赵聪, 陈朝轶, 李军旗, 等. 高硫铝土矿粗粒径焙烧脱硫及其溶出性能[J]. 有色金属: 冶炼部分,2015(7):34.
12 Zhang N B, Bai C G, Deng Q Y. Microwave roasting pretreatment of high-sulfur bauxite[J]. J Chongqing University:Nat Sci Ed,2012,35(1):81(in Chinese).
张念炳, 白晨光, 邓青宇. 高硫铝土矿微波焙烧预处理[J]. 重庆大学学报:自然科学版, 2012, 35(1): 81
13 He R, Li Z, Zhang N, et al. Research on leaching function of Guizhou high-sulfur bauxite [J]. J Guizhou University of Technology: Nat Sci Ed,2005,34(3):4(in Chinese).
何润德, 黎志英, 张念炳, 等. 贵州高硫铝土矿溶出性能研究[J]. 贵州工业大学学报:自然科学版,2005,34(3):4.
14 Lan J, Wu X J, Xie Y C, et al. Research of desulfurization in the course of disposing of high grade bauxite containing sulfur[J]. Appl Chem Ind,2008, 37(8):886(in Chinese).
兰军, 吴贤熙, 解元承, 等. 高硫铝土矿溶出过程中脱硫研究[J]. 应用化工,2008,37(8): 886.
15 张念炳, 黎志英, 丁彤. 贵州某高硫铝土矿中硫的溶出及影响因素[J]. 有色金属工程,2012(5):33.
16 Zhang X Y, Li J Q, Chen C Y, et al. Dissolution behavior of sulfur and alumina in high grade bauxite containing sulfur in Guizhou [J]. Hydrometall China,2011,30(4):312(in Chinese).
张祥远, 李军旗, 陈朝轶, 等. 贵州某高硫铝土矿中硫和铝的溶出行为[J]. 湿法冶金,2011,30(4):312.
17 Liang B Z, Chen X H, Feng H, et al. Test of desulfurization by microwave and digestion of high sulfur bauxite [J]. Nonferrous Metals:Extractive Metall,2011(3):23(in Chinese).
梁佰战, 陈肖虎, 冯鹤, 等. 高硫铝土矿微波脱硫溶出试验[J]. 有色金属: 冶炼部分,2011(3):23.
18 Chen Wenmi, Duan Jiasheng, Yang Quanping. Research on digestion peformance of Chongqing bauxite[J]. Mining Metall Eng,2014,34(2):97(in Chinese).
陈文汨, 段佳圣, 杨权平. 重庆铝精矿溶出性能研究[J]. 矿冶工程 2014, 34(2): 97
19 毕诗文. 氧化铝生产工艺[M]. 北京: 化学工业出版社,2006:96.
20 Hu Xiaolian, Chen W M, Xie Q L. Sulfur phase and sulfur removal in high sulfur-containing bauxite[J]. Trans Nonferrous Metals Soc China,2011,21(7):1641.
21 Hu Xiaolian. Study on the behavior of sulfur during the digestion process of high sulfur-containing bauxite and on the process of sulfur removal[D]. Changsha: Central South University,2011(in Chinese).
胡小莲. 高硫铝土矿中硫在溶出过程中的行为及除硫工艺研究[D]. 长沙:中南大学,2011.
22 Xie Qiaoling. Study on the dissolution behavior and reverse flotation desulfurization of high sulfur bauxite[D]. Chagngsha: Central South University, 2009 (in Chinese).
谢巧玲. 高硫铝土矿的溶出行为和反浮选脱硫的研究[D]. 长沙: 中南大学, 2009.
23 Song C, Peng Z H, Wei X X, et al. The reaction behavior of pyrite in process of bayer digestion [J]. Nonferrous Metals Sci Eng,2011,2(5):1(in Chinese).
宋超, 彭志宏, 魏欣欣, 等. 黄铁矿在拜耳法溶出过程中的反应行为研究[J]. 有色金属科学与工程, 2011, 2(5): 1.
24 Yi Pinggui, Yu Qingseng, Zong Hanxing. Thermodynamic analysis for chemical desulfurization of pyrite in coal[J]. Coal Conversion,1999,22(1):47(in Chinese).
易平贵, 俞庆森, 宗汉兴. 黄铁矿化学脱硫的热力学分析[J]. 煤炭转化, 1999,22(1): 47.
25 Li Xiaobin, Li Chongyang, Qi Tiangui, et al. Reaction behavior of pyrite during Bayer digestion at high temperature [J]. Chin J Nonferrous Metals,2013, 23(3):829(in Chinese).
李小斌, 李重洋, 齐天贵, 等. 拜耳法高温溶出条件下黄铁矿的反应行为[J]. 中国有色金属学报,2013,23(3):829.
26 Nepokrytikh T A, Tyurin N G, Fedyaev F F, et al. Kinetics of pyrite leaching inalkaline and aluminate solutions [J]. Sov Non-Ferrous Metall Res,1981(4):321.
27 Nepokrtykh T A, Kuznetsov S I, Tyurin N G, et al. Behavior of disulfide sulfur in alkaline and aluminate solutions [J]. Izv Vyssh Ucheb Zaved Tsvet Metall,1974(6):53.
28 Jiang Bing. The research on dezincification with sulfide in Bayer process[D]. Chagngsha: Central South University,2006(in Chinese).
江兵. 在拜耳法工艺中用硫化物除锌的研究[D]. 长沙: 中南大学, 2006.
29 Кузнецов С И, 罗玉长, 冉启盛. 论铁和硫在碱式铝酸钠溶液中的相互反应[J]. 轻金属, 1977(4): 16.
30 Hind A R, Suresh K B, Stephen C G. The surface chemistry of Bayer process solids: A review[J]. Colloids Surf A: Physicochem Eng Aspects,1999,146(1):359.
31 Grachev V V, Samoylenko V M, Starkov Y N. The reactions of sulfide minerals accompanying some bauxites with alumina liquors[J]. Tsvetn Metall,1981,(5): 43.
32 Fan Shang. Study on the behavior of sulfur in alumina production with series- combination process[D].Changsha: Central South University,2012(in Chinese).
范尚. 串联法氧化铝生产过程中硫的行为研究[D]. 长沙: 中南大学, 2012.
33 Xie Qiaoling, Chen Wenmi. Effect of S2- on corrosion behavior of low alloy steel in sodium aluminate solution [J]. Chin J Nonferrous Metals,2013,23(12): 3462 (in Chinese).
谢巧玲, 陈文汨. 铝酸钠溶液中S2-对低合金钢腐蚀行为的影响[J]. 中国有色金属学报,2013,23(12): 3462.
34 Xie Q L, Chen W M. Corrosion behavior of 16Mn low alloy steel in sulfide-containing Bayer solutions[J]. Corrosion Sci,2014,86:252.
35 Lan J, Wu X X, Xie Y C, et al. Research advance of desulfurization in production of alumina with bauxite[J]. Appl Chem Ind,2008,37(4):446(in Chinese).
兰军, 吴贤熙, 解元承, 等. 铝土矿生产氧化铝过程脱硫方法的研究进展[J]. 应用化工, 2008, 37(4): 446.
36 Wang Xiaomin, Zhang Tingan. Flotation desulfurization of high-sulfur bauxite with ethyl thio carbamate as collector[J]. Adv Mater Res,2011,239:1515.
37 谢珉. 论铝土矿选矿的必要性和可行性[J]. 国外金属矿选矿,1991(7): 69.
38 Shemyakin V S, Saltanov V V, Nepokrytykh T A, et al. Processing of bauxites by flotation in basic-aluminate solutions[J]. Tsvetn Me-tall,1985(3):24.
39 Loginova I V, Koryukov V N, Kuznetsov S I. The effect of some flotation reagents on bauxite leaching[J]. Izv V U Z Tsvetn Metall,1979(6):55.
40 Wang Xiaomin, Zhang Tingan, Lv Guozhi. Flotation process for desulfurization of high-sulfur bauxite[J]. Chin J Rare Metal,2009,33(5):728(in Chinese).
王晓民, 张廷安, 吕国志, 等. 高硫铝土矿浮选除硫的工艺[J]. 稀有金属,2009,33(5):728.
41 Chen W M, Xie Q L, Hu X L, et al. Experimental study on reverse flotation technique for desulfurizing of high sulfur bauxite[J]. Mi-ning Metall Eng, 2008,28(3):34(in Chinese).
陈文汨, 谢巧玲, 胡小莲, 等. 高硫铝土矿反浮选除硫试验研究[J]. 矿冶工程,2008,28(3):34.
42 Yang G B, Zhang Z W, Chen L R. Desulfurization and desiliconization experiment by flotation on a high sulfur and high silica bauxite ore from Guizhou province[J]. Modern Mining,2015(8):56(in Chinese).
杨国彬, 张周位, 陈丽荣. 贵州某高硫高硅铝土矿浮选脱硫脱硅试验[J]. 现代矿业,2015(8):56.
43 冯其明, 许时, 陈荩. 硫化矿物浮选电化学[J]. 有色金属: 选矿部分,1990(5):37.
44 何伯泉, 罗琳. 试论我国高硫铝土矿脱硫新方案[J]. 轻金属, 1996,(12):3.
45 Gu Guohua, Wang Dianzuo, Liu R L, et al. Electrochemical flotation for sulfide minerals and originpotential flotation technology[J]. Nonferrous Metals,2000, 52(2):18(in Chinese).
顾帼华, 王淀佐, 刘如意, 等. 硫化矿电位调控浮选及原生电位浮选技术[J]. 有色金属工程,2000,52(2):18.
46 Hu Xiaolian, Chen W M, Xie Q L. Desulfuration of high sulfur bauxite by oxidation roasting[J]. Central South University :Nat Sci Ed,2010,41(3):852(in Chinese).
胡小莲, 陈文汨, 谢巧玲. 高硫铝土矿氧化焙烧脱硫研究[J]. 中南大学学报: 自然科学版,2010,41(3):852.
47 Lv G Z, Zhang T A, Bao L, et al. Desulphurization of high sulphur bauxite by fluosolid roasting and its effect on the digestion performance[J]. Mining Metall Eng,2008,28(6):58(in Chinese).
吕国志, 张廷安, 鲍丽, 等. 高硫铝土矿流化焙烧脱硫及对溶出性能的影响[J]. 矿冶工程, 2008,28(6):58.
48 Lv G Z, Zhang T A, Bao L, et al. Roasting pretreatment of high-sulfur bauxite and digestion performance of roasted ore [J]. Chin J Nonferrous Metals,2009,19(9):1684(in Chinese).
吕国志, 张廷安, 鲍丽, 等. 高硫铝土矿的焙烧预处理及焙烧矿的溶出性能[J]. 中国有色金属学报,2009,19(9):1684.
49 Zhou J K,Li H X.Experimental research on bacterial oxidation of Pyrite in high sulfur bauxite[J].Metal Mine,2011(12):67(in Chinese).
周吉奎,李花霞. 高硫铝土矿中黄铁矿的细菌氧化试验研究[J]. 金属矿山, 2011(12):67.
50 Liu Z W, Li W X, et al. Conversion of sulfur by wet oxidation in the Bayer process[J]. Metall Mater Trans B,2015,46(4):1702.
51 Chen Wenmi, Liu Shihua. A study on removal of S2- from industrial sodium aluminate solution with MnO2[J]. Light Metals,2011(10):20(in Chinese).
陈文汨, 刘诗华. 用MnO2脱除工业铝酸钠溶液中S2-的研究[J]. 轻金属, 2011(10):20.
52 Long Hu, Dixon D G, Pressure oxidation of pyrite in sulfuric acid media: Akinetic study[J]. Hydrometallurgy,2004,73(3):335.
53 Ciminelli V S T,Osseo-Asare K. Kinetics of pyrite oxidation in sodium hydroxide solutions[J]. Metallurg Mater Trans B,1995,26(4):677.
54 Caldeira C L, Ciminelli V S T, Dias A, et al. Pyrite oxidation in alkaline solutions: Nature of the product layer[J]. Int J Mineral Process,2003,72(1- 4): 373.
55 Novozhenov V M, Tyurin N G, Zhernakova N P. The oxidation of sulfur impurities in concentrated alkali-aluminate solutions[J]. Sov Non-Ferrous Metall Res,1984,12(1):30.
56 Vishnyakov S E, Korotovskikh G A, Slezkina L A. Vibration mixing for the intensification of the oxidation of sulfur compounds in bauxite pulp[J]. Sov J Non-Ferrous Metall,1985,26(7):46.
57 Grachev V V,Samoylenko V M. Oxidizing digestion of sulfur-containing bauxites[J]. Tsvetn Metall,1982(5):34.
58 Liu Shihua. Study on using wet air oxidation method to removal S2- in digestion process[D]. Chagngsha: Central South University,2011(in Chinese).
刘诗华. 湿式氧化法脱除工业铝酸钠溶液中负二价硫离子的研究[D]. 长沙: 中南大学,2011.
59 Grachev V Y, Kuznetsov S I, Nepokrytykh T A. Residts of industrial tests and implementation of the removal of iron and sulfur impurities from aluminate solutions with zinc oxide[J]. Nauch-Tekh Konf Ural Politekh Inst,1972(1):12.
60 Derevyankin V A. A method for purifying aluminate solutions. So-viet: 345096[P].1972-08-01.
61 Ivanov A I, Nasekan Yu P, Bespalov B N, et al. Removal of impurities of alkaline-aluminate solutions using barium compounds[J]. Kompleksn Ispol′z Miner Syr′ya,1982(4):72.
62 袁华俊, 李琴琴. BaO净化工业铝酸钠溶液工艺选择[J]. 轻金属,1995(4):13.
63 He Runde. Sulphur removal with barium hydroxide from industrial sodium aluminate solution[J]. Nonferrous Metals,1996(4):63(in Chinese).
何润德. 工业铝酸钠溶液氢氧化钡除硫[J]. 有色金属工程,1996(4):63.
64 He Runde, Hu Sichun, Li Zhiying, et al. Discussion on the method of hydrometallurgical desulfurizing during producing alumina with high grade bauxite containing sulfur[J]. Hydrometall China,2004,23(2):66(in Chinese).
何润德, 胡四春, 黎志英,等. 用高硫型铝土矿生产氧化铝过程中湿法除硫方法讨论[J]. 湿法冶金,2004,23(2):66.
65 He Purui, Che Rong, Tian Zhongliang, et al. Study on hydrometallurgical removing of sulphur from industral sodium aluminate solution[J]. Hydrometall China,2001,20(4):186 (in Chinese).
何璞睿, 车蓉, 田忠良, 等. 从工业铝酸钠溶液中湿法除硫工艺研究[J]. 湿法冶金,2001,20(4):186.
66 Hu Sichun, Guo Min, Zhao Hengqin, et al. Study on desulfurizing from sodium aluminate solution with barium aluminate [J]. Nonferrous Metals:Extractive Metall,2007(1):11 (in Chinese).
胡四春, 郭敏, 赵恒勤, 等. 用铝酸钡脱除铝酸钠溶液中硫的研究[J]. 有色金属: 冶炼部分, 2007(1): 11
67 He Runde, Tian Zhongliang. Discussion on reasonable cost of sulphur removal with barium aluminate from industrial sodium aluminate solution [J]. J Guizhou University of Technology:Nat Sci Ed,2000,29(6):54(in Chinese).
何润德, 田忠良. 论用铝酸钡脱除工业铝酸钠溶液中硫的经济合理性[J]. 贵州工业大学学报: 自然科学版,2000,29(6):54.
68 He R D, Zeng G D, Hu S C. Synthesis of barium aluminate-disulphurizing reagent for Bayer solution from high grade bauxite containing sulfur[J]. Nonferrous Metals,2006,58(3):66(in Chinese).
何润德, 曾国栋, 胡四春. 高硫高铝矿拜耳溶液除硫剂—铝酸钡的合成[J]. 有色金属,2006,58(3):66.
69 Luo Y C, Ye Changlong. A study of desulphurization of sodium aluminate solution[J]. Light Metals,2003(4):9(in Chinese).
罗玉长,叶长龙.铝酸钠溶液脱硫的研究[J].轻金属,2003(4):9.
70 Zhang N B, Jiang H S, Wu X X. Research on disposing of sulfur of high grade bauxite containing sulfur in Guizhou[J]. Light Metals,2007(7):7(in Chinese).
张念炳, 蒋宏石, 吴贤熙. 高硫铝土矿溶出过程中硫的行为研究[J]. 轻金属,2007(7):7.
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