| [1] | KIDA A, SIROHASE T, KAWAGUCHI M. metals contents including precious metals in waste personal computers[J].Material Cycles & Waste Management Research,2009,20(2):59-69 |
| [2] | OKABE, T. The current status and prospect on precious & rare metals[J]. Journal of Chemical Engineering of japan,2010.74(3):102-108 |
| [3] | ABISHEVA Z S, ZAGORODNYAYA A N, BOCHEVEKAYA Y G, et al. Recovery of gallium from industrial products of chemical and metallurgical industries[C]//XXVI International Mineral Processing Congress (IMPC)Proceedings, New Delphi, India,2012:48-60 |
| [4] | FRENZEL M, KETRIS M P, SEIFERT T, et al. On the current and future availability of gallium[J]. Resources Policy,2016,47:38-50 |
| [5] | ZHAO Z, YANG Y, XIAO Y, et al. Recovery of gallium from Bayer liquor:A review[J]. Hydrometallurgy,2012,125:115-124 |
| [6] | 路坊海, 肖唐付, 袁艺,等. 贵州省铝工业现状及未来发展方向[J]. 轻金属,2016(4):1-4 |
| [7] | 叶霖, 潘自平, 程曾涛. 贵州铝土矿中伴生元素综合利用前景[J]. 矿物学报,2007,27(3):388-392 |
| [8] | 肖金凯,雷剑泉.黔中铝土矿及其赤泥中钪的某些特征[J].矿物学报,1994,14(4):388-393 |
| [9] | 肖金凯,雷剑泉.贵州铝厂赤泥中钪和稀土[J].科学通报,1994,39(13):1248 |
| [10] | ABDULVALIYEV R A, AKCIL A, GLADYSHEV S V, et al. Gallium and vanadium extraction from red mud of Turkish alumina refinery plant:Hydrogarnet process[J]. Hydrometallurgy,2015,157:1-20 |
| [11] | 路坊海,李安静,王家伟,等. 赤泥中镓铝在常压酸法浸出过程中的行为[J]. 有色金属(冶炼部分),2016,(12):27-31 |
| [12] | 翟秀静,吕子剑. 镓冶金[M]. 北京:冶金工业出版社,2010:42 |
| [13] | FANG Z, GESSER H D. Recovery of gallium from coal fly ash[J]. Hydrometallurgy,1996,41(2/3):187-200 |
| [14] | SANCHO J P, AYALA J, GARCÍA M P, et al. Leaching behaviour of a Bayer electrofilter fines in sulphuric acid[J]. Hydrometallurgy,2009,96(1):35-41 |
| [15] | DAVRIS P, BALOMENOS E, PANIAS D, et al. Selective leaching of rare earth elements from bauxite residue (red mud), using a functionalized hydrophobic ionic liquid[J]. Hydrometallurgy,2016,164:125-135 |
| [16] | RAUL P K, DEVI R R, UMLONG I M, et al. Removal of fluoride from water using iron oxide-hydroxide nanoparticles[J]. Journal of nanoscience and nanotechnology,2012,12(5):3922-3930 |
| [17] | LIANG W, COUPERTHWAITE S J, KAUR G, et al. Effect of strong acids on red mud structural and fluoride adsorption properties[J]. Journal of colloid and interface science,2014,423:158-165 |
| [18] | ÇENGELO ĞLU Y, KIR E, ERSÖZ M. Removal of fluoride from aqueous solution by using red mud[J]. Separation and Purification Technology,2002,28(1):81-86 |
| [19] | TOR A. Removal of fluoride from an aqueous solution by using montmorillonite[J]. Desalination,2006,201(1/2/3):267-276 |
| [20] | TOR A, DANAOGLU N, ARSLAN G, et al. Removal of fluoride from water by using granular red mud:batch and column studies[J]. Journal of hazardous materials,2009,164(1):271-278 |
| [21] | CHAUDHARY M, BHATTACHARYA P, MAITI A. Synthesis of iron oxyhydroxide nanoparticles and its application for fluoride removal from water[J]. Journal of Environmental Chemical Engineering,2016,4(4):4897-4903 |
| [22] | 杨利锦, 郭华明. 活化赤泥的除氟性能[J]. 环境工程学报,2012,6(11):3981-3988 |