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针对提钒尾渣中钒的回收与利用,提出碱法加压浸出提钒工艺,从而实现提钒尾渣中钒的浸出与提取。进行了原料分析并考察了浸出过程中温度、氢氧化钠浓度、反应时间、液固比和搅拌转速对尾渣中钒、铬、硅的浸出率的影响。结果表明,在温度120℃、氢氧化钠用量10%、液固体积质量比4~6 mL/g、时间1 h、搅拌转速400 r/min的条件下,钒的浸出率可控制在50%,同时尽量减少了铬与硅的浸出,保持溶液的净化程度,为后续的萃取提钒工艺提供很好的溶液条件。
Abstract:In view of the recovery and utilization of vanadium from vanadium extraction tailings, the alkaline pressure leaching technology was proposed to realize the leaching and extraction of vanadium from vanadium extraction tailings.The raw material was analyzed and the effects of temperature, sodium hydroxide concentration, reaction time, liquid-solid ratio and stirring speed on the leaching rate of vanadium, chromium and silicon in the tailings were investigated.The results indicate that the leaching rate of vanadium can be controlled at 50% when the temperature is 120 ℃,the dosage of sodium hydroxide is 10%,the liquid-solid ratio is 4-6 mL/g, the time is one hour, and the stirring speed is 400 r/min.At the same time, the leaching of chromium and silicon is reduced as much as possible.The purification degree of the solution is maintained, and good solution conditions are provided for the subsequent extraction of vanadium.
[1] 高明磊,李兰杰,白丽,等.钒化工固废循环利用与设计[C]//第三届钒钛微合金化高强钢开发应用技术暨第四届钒产业先进技术交流会议论文集.重庆,2017.GAO M L,LI L J,BAI L,et al.Based on the vanadium chemical industry chain of circular economy planning and design[C]//Proceedings of the 3rd Vanadium Titanium Microalloyed High-strength Steel Development and Application Technology and the 4th Vanadium Industry Advanced Technology Exchange Conference.Chongqing,2017.
[2] 徐正震,梁精龙,李慧,等.含钒废弃物中钒的回收研究现状及展望[J].矿产综合利用,2020(3):8-13.XU Z Z,LIANG J L,LI H,et al.Research status and prospects of vanadium recovery in vanadium containing wastes[J].Multipurpose Utilization of Mineral Resources,2020(3):8-13.
[3] 修大鹏,王启春,杨玉国,等.钒钛黑瓷的制造工艺及其在现代工业中的应用[J].中国陶瓷,2008,44(4):41-43.XIU D P,WANG Q C,YANG Y G,et al.Techniques of making vanadium and titanium black procelain and its application in modern industry[J].China Ceramics,2008,44(4):41-43.
[4] 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 J,WU E H,LI J.Current situation and progress of comprehensive utilization of vanadium extraction tailings[J].Conservation and Utilization of Mineral Resources,2017(6):103-108.
[5] 张海平,丁跃华,郝建璋,等.钠化提钒尾渣脱钠实验[J].昆明理工大学学报(自然科学版),2015,40(6):8-12.ZHANG H P,DING Y H,HAO J Z,et al.Technology of eliminating sodium from extracted vanadium tailings[J].Journal of Kunming University of Science and Technology(Natural Science),2015,40(6):8-12.
[6] 刘义,李兰杰,王春梅,等.提钒尾渣资源化利用技术[J].河北冶金,2020(6):79-82.LIU Y,LI L J,WANG C M,et al.Resource utilization technology of vanadium extraction tailings[J].Hebei Metallurgy,2020(6):79-82.
[7] 汪其,姜茂发,王猛,等.提钒尾渣中钒铬的浸出与萃取[J].有色金属(冶炼部分),2016(9):13-16.WANG Q,JIANG M F,WANG M,et al.Leaching and extraction of vanadium and chromium from vanadium tailings[J].Nonferrous Metals(Extractive Metallurgy),2016(9):13-16.
[8] 李秀敏.攀钢提钒尾渣二次提钒研究[D].武汉:武汉理工大学,2013.LI X M.Study on secondary vanadium extraction from vanadium tailings of Panzhihua Steel[D].Wuhan:Wuhan University of Technology,2013.
[9] 刘金生,丁学勇,薛向欣,等.提钒尾渣资源化综合利用的研究进展[J].钢铁,2021,56(7):152-160.LIU J S,DING X Y,XUE X X,et al.Research progress of comprehensive utilization of vanadium extraction tailings[J].Iron and Steel,2021,56(7):152-160.
[10] 杨合,毛林强,薛向欣,等.提钒尾渣配碳直接还原铁试验[J].钢铁钒钛,2013,34(5):28-32.YANG H,MAO L Q,XUE X X,et al.Experiment on direct reduction of iron from vanadium extraction tailings by adding carbon[J].Iron Steel Vanadium Titanium,2013,34(5):28-32.
[11] 丁满堂,祝明进,颜婷婷,等.提钒尾渣提镓研究[J].四川冶金,2019,42(3):26-28.DING M T,ZHU M J,YAN T T,et al.Research of gallium extraction from extracting vanadium tailings[J].Sichuan Metallurgy,2019,42(3):26-28.
[12] 樊刚,魏昶,葛怀文,等.提钒尾渣常压酸浸提钒[J].有色金属,2010,62(4):65-68.FAN G,WEI C,GE H W,et al.Vanadium recovery from extracted vanadium residue by atmospheric pressure acid leaching[J].Nonferrous Metals,2010,62(4):65-68.
[13] 葛怀文,魏昶,樊刚,等.提钒尾渣加压酸浸取钒新工艺探索实验[J].山西冶金,2008(6):17-19.GE H W,WEI C,FAN G,et al.Path breaking experimentation study of a new leaching technology of extracted vanadium residue by acid leaching under oxygen pressure[J].Shanxi Metallurgy,2008(6):17-19.
[14] 修大鹏,许建华,周吉学,等.远红外辐射黑瓷板研制及其性能研究[J].红外与激光工程,2018,47(11):1-5.XIU D P,XU J H,ZHOU J X,et al.Research on development and its performance of far-infrared radiation black porcelain plate[J].Infrared and Laser Engineering,2018,47(11):1-5.
[15] 王录锋,方民宪.提钒尾渣还原渣磁选试验研究[J].中国科技投资,2013(20):78-79.WANG L F,FANG M X.Experimental study on magnetic separation of reduced slag from vanadium tailings[J].Chinese Science and Technology Investment,2013(20):78-79.
[16] 吴恩辉,黄平,杨绍利,等.提钒尾渣内配碳球团直接还原试验[J].有色金属(冶炼部分),2011(11):17-20.WU E H,HUANG P,YANG S L,et al.Experimental study on direct reduction of vanadium tailings carbon-containing pellets[J].Nonferrous Metals(Extractive Metallurgy),2011(11):17-20.
[17] 毕秀荣,刘纲,王慧霞,等.钒渣去钠提铁基础性能实验研究[J].冶金设备,2014(1):20-23.BI X R,LIU G,WANG H X,et al.Experimental research on extracting iron and removing sodium from extract vanadium tailings[J].Metallurgical Equipment,2014(1):20-23.
基本信息:
DOI:10.3969/j.issn.1007-7545.2024.10.023
中图分类号:TF841.3
引用信息:
[1]胡磊,曹雪娇,梁新星,等.提钒尾渣加压碱浸提钒的基础研究[J].有色金属(冶炼部分),2024(10):181-187.DOI:10.3969/j.issn.1007-7545.2024.10.023.
基金信息:
国家自然科学基金资助项目(52204358); 广西自然科学基金资助项目(2023GXNSFBA026140)
2024-09-02
2024
2024-09-02
2024-09-03
2024
1
2024-09-24
2024-09-24