[1] 翟秀静,吕子剑.镓冶金[M].北京:冶金工业出版社,2010, 05
[2] Liu Z B, Li H X. Metallurgical process for valuable elements recovery from red mud—A review[J]. Hydrometallurgy, 2015, 155: 29-43
[3] 芦小飞,王磊,王新德,牛学坤.金属镓提取技术进展[J].有色金属,2008,60(4):105-108,114
[4] 李婷,辛志峰,徐梦,白林山,董永平,储向峰.两段碳酸化法分离氧化铝和氧化镓的研究[J].洁净煤技术,2016,22(1):105-108
[5] 仇振琢,魏旭华,陈莉.以循环碱液替代石灰乳提取镓[J];化工冶金,1999,20(1):74-77
[6] R.A.Abdulvaliyev, A.Akcil, S.V, Gladyshev, E.A. Tastanov, K.O. Beisembekova, N.K. Akhmadiyeva, H. Deveci. Gallium and Vanadium Extraction from Red Mud of Turkish Alumina Refinery Plant: Hydrogarnet Process[J]. Hydrometallurgy, 2015, 157: 72-77
[7] Leveque, A, Helegorsky, J. The recovery of gallium from Bayer process aluminate solutions by liquid-liquid extraction[J]. International Solvent Extraction Conference, 1997: 439-442
[8] Borgess, P.P, Masson, I.O.C. Solvent extraction of gallium with Kelex 100 from Brazilian weak sodium aluminate solutions[J]. Minerals Engineering, 1994, 7(7) : 933-941
[9] 南娟茹,费作朋.拜耳法生产氧化铝提取伴生镓[J].百科论坛,2013,(14):373
[10] Puvvada G.V.K, Chandrasekhar K, Ramachandrarao P. Solvent extraction of gallium from an Indian Bayer process liquor using kelex-100[J]. Minerals Engineering, 1996, 9(10): 1049-1058
[11] H. Filik, R. Apak. A chelating ion exchang for Gallium recovery from alkaline solution using 5-Palmitoyl-8-hydroxyquinoline Immobilized on a nonpolar adsorbent[J]. Separation Science and Technology. 1998, 33(8): 1123-1134
[12] Hiroshi Okushita, Takeo Shimidzu. Selective separation of Ga3+ through membrane impregnated with N-octadecanoyl-N-phenylhydroxilamine[J]. Journal of Membrane Science.1995, 105: 43-49
[13] 宋嘉伟.盐酸浸出赤泥综合回收有价金属的基础研究[D].山西:太原理工大学,2013
[14] 路坊海,周登风,张华军.树脂吸附-酸脱附法在氧化铝生产流程中回收金属镓的应用[J].轻金属,2013,(7):8-12
[15] 韦文宾,何启贤.从湿法炼锌浸出渣中回收镓的试验研究[J].湿法冶金,2008,27(2):103-105
[16] 龙来寿.从冶锌工业废渣中综合回收镓、铟、锗的研究[D]. 广东:广东工业大学,2004
[17] Wu X L, Wu S K, Qin W Q, Ma X H, Niu Y J, Lai S S, Yang C R, Jiao F, Ren L Y. Reductive leaching of gallium from zinc residue[J]. Hydrometallurgy . 2012: 113–114, 195–199
[18] 吴雪兰.从锌浸出渣中回收镓锗的研究[D]. 湖南:中南大学,2013
[19] Akita, S;Rovira, M;Sastre, AM;Hyodo, N;Takeuchi H. Coacervation characteristics of nonionic surfactants and their application to metal separation[C]. International Symposium on Liquid-Liquid 2 Phase Flow and Transport Phenomena.1997
[20] T Kinoshitaa, S Akitaa, S Niib, F Kawaizumib, K Takahashib. Solvent extraction of gallium with non-ionic surfactants from hydrochloric acid solution and its application to metal recovery from zinc refinery residues[J]. Separation and Purification Technology. 2004, 37(2): 127-133
[21] T. Kinoshitaa, Y. Ishigakia, N. Shibataa, K. Yamaguchia, S. Akitaa, S. Kitagawab, H.Kondouc, S.Niic. Selective recovery of gallium with continuous counter-current foam separation and its application to leaching solution of zinc refinery residues[J]. Separation and Purification Technology. 2011, 78(2): 181-188
[22] Zahra Bahri , Bahram Rezai , Elaheh Kowsari. Selective separation of gallium from zinc using flotation: Effect ofsolution pH value and the separation mechanism[J]. Minerals Engineering. 2016, 86, 104-113
[23] 石太宏,汤兵,张秀娟.液膜法从湿法炼锌系统中提取镓的研究[J].稀有金属.1998,22(1):1-4
[24] 石太宏,王向德,万印华,张秀娟.D2EHPA与C5-7羟肟酸自硫酸介质中协同萃取Ga3+的液膜理论基础研究(Ⅰ)[J].膜科学与技术,1999,19(3):25-28
[25]石太宏,王向德,万印华,朱斌,张秀娟.P2O4与C5-7羟肟酸液膜体系自湿法冶锌系统中同步迁徙分别回收镓和锗(Ⅱ) [J].膜科学与技术.1999,19(4):34-38
[26] Shenjun Qin, Yuzhuang Sun, Yanheng Li, JinxiWang, Cunliang Zhao, Kang Gao. Coal deposits as promising alternative sources for gallium[J]. Earth-Science Reviews. 2015,150:95-101
[27] Gesser, H.D, Horsfall, G.A. The separation and concentration of gallium by polyurethane[J]. J. Chim. Phys., 1977, 74: 1072- 1076
[28] 曾青云.从粉煤灰中提取金属镓的实验研究[D].北京:中国地址大学,2007
[29] 何佳振.粉煤灰中金属镓的回收工艺研究[D].湖南: 湘潭大学,2006
[30] 何佳振,胡晓莲,李运勇.从粉煤灰中回收金属镓的工艺研究[J].粉煤灰,2002,(5): 23 -27
[31] Font, Orio, Querol, Xavier, Juan, Roberto, Casado, Raque, Ruiz,Carmen, López-Soler;Coca,Pilar, Pe?a, Francisco García. Recovery of gallium and vanadium from gasification fly ash[J]. Journal of Hazardous Materials. 2007, 139(3): 413-423.
[32] 张路平.粉煤灰中镓富集与浸出工艺研究[D].湖北:武汉科技大学,2014
[33] 曹毅臣.黄磷电尘灰中镓真空还原富集实验研究[D].云南:昆明理工大学,2012
[34] Zhang,Zhaohui, Zhang,Huabin, Hu,Yufang, Yang, Xiao, Yao, Shouzhuo. Novel surface molecularly imprinted material modified multi-walled carbon nanotubes as solid-phase extraction sorbent for selective extraction gallium ion from fly ash[J]. TALANTA. 2010, 82(1): 304-311
[35] 张朝晖,张华斌,胡宇芳,李艳杰,聂丽华.镓离子配合物印迹聚合物的研制及吸附性能研究[J].化学通报,2011,74(1):72-77
[36] Swain B, Mishra C, Kang L, Park KS, Lee CG, Hong HS. Recycling process for recovery of gallium from GaN an e-waste of LED industry through ball milling, annealing and leaching[J]. Environmental Research. 2015, 138: 401-408
[37] Basudev Swain, Chinmayee Mishra, Leeseung Kang, Kyung-Soo Park, Chan Gi Lee, Hyun Seon Hong, Jeung-Jin Park. Recycling of metal-organic chemical vapor deposition waste of GaN based power device and LED industry by acidic leaching : Process optimization and kinetics study[J]. Journal of Power Sources. 2015, 281: 265-271
[38]郭学益,李平,黄凯,刘荣义.从砷化镓工业废料中回收镓和砷的方法[P].中国:CN1693492,2005)
[39] Hyo Sook Lee, Chul Woo Nam. A study on the extraction of gallium from gallium arsenide scrap[J]. Hydrometallurgy. 1998, 49(1-2): 125-133
[40] Zhan L, Xia F;Ye Q, Xiang X, Xie B. Novel recycle technology for recovering rare metals (Ga, In) from waste light-emitting diodes[J]. Hazard Mater. 2015, 299: 388-394
[41] 王勤,杨柳,陈艳红,谭翠丽,严杰,王阳烨.废旧二极管中锗、镓、铟、硒的回收方法[P].中国: CN102951618B,2014) .
[42] 郝常明,黄雪菊.浅谈超临界流体萃取技术及其应用[J].医药工程设计杂志,2003,24(2)
[43] Zhou, Wei-Lung, Wang, Chih-Ta, Yang, Kai-Chiang, Huang, Yen-Hsiang. Removal of gallium ions from acidic aqueous solution by supercritical carbon dioxide extraction in the green separation process[J]. Journal of Hazardous Materials. 2008, 160(1): 6-12
[44] Bina Gupta, Niti Mudhar, Zareena Begum I, Indu Singh. Extraction and recovery of Ga3+ from waster material using Cyanex 923[J]. Hydrometallurgy.2007, 87: 18–26
[45] I.M. Ahmed, Y.A. El-Nadi, N.E. El-Hefny. Extraction of gallium(III) from hydrochloric acid by Cyanex 923 and Cyanex 925[J]. Hydrometallurgy.2013, 131-132: 24-28.
[1]胡 伟,熊大和.强磁选-重选联合工艺回收尾矿、尾渣中铁的研究[J].有色金属科学与工程,2010,(01):52.
HU Wei,XIONG Da-he.On Iron Ore Recovery out of Mineral Processing Tailing and Smelting Tailing by Magnetic-gravity Process[J].,2010,(01预):52.
[2]管建红.采用脉动高梯度磁选机回收赤泥中铁的试验研究[J].有色金属科学与工程,2000,(04):15.
GUAN Jiang-hong.Study on recovering Fe from red mud with SLon vertical ring and pulsating high gradient magnetic separator[J].,2000,(01预):15.
[3]司秀芬,邓佐国,徐廷华,等.赤泥提钪综述[J].有色金属科学与工程,2003,(02):28.
SI Xiu-fen,DENG Zuo-guo,XU Ting-hua.Summarization of Extracting Scandium from Red Mud[J].,2003,(01预):28.
[4]荣旻.赤泥-钛白废酸综合回收中钪的萃取工艺研究余荣旻[J].有色金属科学与工程,2017,(04预):36.
YU Rong-min.Technology of Extracting Scandium in the Comprehensive Recovery of Red Mud-Titanium White Waste Acid[J].,2017,(01预):36.
[5]余荣旻.赤泥-钛白废酸综合回收中钪的萃取工艺[J].有色金属科学与工程,2017,(04):31.[doi:10.13264/j.cnki.ysjskx.2017.04.006]
YU Rongmin.Technology of extracting scandium in comprehensive recovery of red mud-titanium white waste acid[J].,2017,(01预):31.[doi:10.13264/j.cnki.ysjskx.2017.04.006]
[6]屈振民,张帅,张延玲.高铁赤泥制备CaO-SiO2-Fe2O3-Al2O3系微晶玻璃[J].有色金属科学与工程,2019,(04):34.[doi:10.13264/j.cnki.ysjskx.2019.04.006]
QU Zhenmin,ZHANG Shuai,ZHANG Yanling.Preparation of CaO-SiO2-Fe2O3-Al2O3 system glass-ceramics from red mud with high iron[J].,2019,(01预):34.[doi:10.13264/j.cnki.ysjskx.2019.04.006]
[7]邹铭金,李栋,田庆华,等.从二次资源中分离回收镓的研究进展[J].有色金属科学与工程,2020,(05):45.[doi:10.13264/j.cnki.ysjskx.2020.05.007]
ZOU Mingjin,LI Dong,TIAN Qinghua,et al.Research progress on separation and recovery
of gallium from secondary resources[J].,2020,(01预):45.[doi:10.13264/j.cnki.ysjskx.2020.05.007]
[8]黄蒙蒙,李宏煦,刘召波.不同二次资源中镓提取方法的研究进展[J].有色金属科学与工程,2017,(01):21.[doi:10.13264/j.cnki.ysjskx.2017.01.004]
HUANG Mengmeng,LI Hongxu,LIU Zhaobo.Research progress on gallium extraction from different secondary resources[J].,2017,(01预):21.[doi:10.13264/j.cnki.ysjskx.2017.01.004]