Citation: | Gao Yang, Xie Huaqing, Zhou Mi, Guo Rui, Qin Mengxin, Wang Zhengyu, Dai Bing. Experimental research on the recycling of valuable metal elements with the extracted-vanadium residues reduced by biomass[J]. IRON STEEL VANADIUM TITANIUM, 2023, 44(4): 89-95. doi: 10.7513/j.issn.1004-7638.2023.04.014 |
[1] |
Qing Xuemei, Xie Bing, Li Danke, et al. Study on the oxidation of vanadium in molten iron and the formation of ferrovanadium spine[J]. Journal of Process Engineering, 2009,9(z1):122−126. (青雪梅, 谢兵, 李丹柯, 等. 铁水中钒氧化及钒铁尖晶石形成的研究[J]. 过程工程学报, 2009,9(z1):122−126.
Qing Xuemei, Xie Bing, Li Danke, et al. Study on the oxidation of vanadium in molten iron and the formation of ferrovanadium spinel[J]. Journal of Process Engineering, 2009, 9 ( z1 ): 122-126
|
[2] |
Liu Jinsheng, Ding Xueyong, Xue Xiangxin, et al. Research progress on comprehensive utilization of vanadium slag[J]. Iron & Steel, 2021,56(7):152−160. (刘金生, 丁学勇, 薛向欣, 等. 提钒废渣资源化综合利用的研究进展[J]. 钢铁, 2021,56(7):152−160.
Liu Jinsheng, Ding Xueyong, Xue Xiangxin, et al. Research progress on comprehensive utilization of vanadium slag[J]. Iron & Steel, 2021, 56 (7): 152-160
|
[3] |
Taylor P R, Shuey S A, Vidal E E, et al. Extractive metallurgy of vanadium-containing titaniferous magnetite ores: a review[J]. Minerals & Metallurgical Processing, 2006,23(2):80−86.
|
[4] |
Meng Lipeng, Zhao Chu, Wang Shaona, et al. Research progress on vanadium re-extraction technology from vanadium extraction slag in China[J]. Iron Steel Vanadium Titanium, 2015,36(3):49−56. (孟利鹏, 赵楚, 王少娜, 等. 国内提钒废渣再提钒技术研究进展[J]. 钢铁钒钛, 2015,36(3):49−56. doi: 10.7513/j.issn.1004-7638.2015.03.011
Meng Lipeng, Zhao Chu, Wang Shaona, et al. Research progress on vanadium re-extraction technology from vanadium extraction slag in China[J]. Iron Steel Vanadium Titanium, 2015, 36 (3): 49-56 doi: 10.7513/j.issn.1004-7638.2015.03.011
|
[5] |
Hou Jing, Wu Enhui, Li Jun. Research status and progress of comprehensive utilization of vanadium extraction residue[J]. Mineral Protection and Utilization, 2017,(6):103−108. (侯静, 吴恩辉, 李军. 提钒尾渣的综合利用研究现状及进展[J]. 矿产保护与利用, 2017,(6):103−108.
Hou Jing, Wu Enhui, Li Jun. Research status and progress of comprehensive utilization of vanadium extraction residue[J]. Mineral Protection and Utilization, 2017, (6): 103-108
|
[6] |
Yang Huifen, Wang Jingjing, Jing Lili, et al. Effect of roasting temperature on coal-based direct reduction of high-iron vanadium slag[J]. Journal of Beijing University of Science and Technology, 2010,32(10):1258−1263. (杨慧芬, 王静静, 景丽丽, 等. 焙烧温度对高铁提钒废渣煤基直接还原效果影响[J]. 北京科技大学学报, 2010,32(10):1258−1263.
Yang Huifen, Wang Jingjing, Jing Lili, et al. Effect of roasting temperature on coal-based direct reduction of high-iron vanadium slag[J]. Journal of Beijing University of Science and Technology, 2010, 32 (10): 1258 - 1263
|
[7] |
Wu Enhui, Zhu Rong, Yang Shaoli, et al. Thermodynamic analysis and experiment on smelting reduction of carbon-containing pellets from vanadium slag by electric arc furnace[J]. Iron Steel Vanadium Titanium, 2015,36(5):41−46. (吴恩辉, 朱荣, 杨绍利, 等. 提钒废渣含碳球团电弧炉熔融还原热力学分析与试验[J]. 钢铁钒钛, 2015,36(5):41−46.
Wu Enhui, Zhu Rong, Yang Shaoli, et al. Thermodynamic analysis and experiment on smelting reduction of carbon-containing pellets from vanadium slag by electric arc furnace[J]. Iron Steel Vanadium Titanium, 2015, 36(5): 41-46
|
[8] |
Bu Qingjie, Luo Siyi, Ma Chen, et al. Experimental study of biomass tar reduction of iron ore[J]. Steel Research, 2015,43(2):1−4,13. (卜庆洁, 罗思义, 马晨, 等. 生物质焦油还原多孔铁矿粉试验研究[J]. 钢铁研究, 2015,43(2):1−4,13.
Bu Qingjie, Luo Siyi, Ma Chen, et al. Experimental study of biomass tar reduction of iron ore[J]. Steel Research, 2015, 43 (2): 1-4, 13
|
[9] |
Hu Lile, Li Liang, Li Junsheng. Characteristics and environmental effects of biomass energy[J]. Energy and Environment, 2012,(1):47−49. (胡理乐, 李亮, 李俊生. 生物质能源的特点及其环境效应[J]. 能源与环境, 2012,(1):47−49.
Hu Lile, Li Liang, Li Junsheng. Characteristics and environmental effects of biomass energy[J]. Energy and Environment, 2012, (1): 47-49
|