全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元
投递稿件

查看量下载量

相关文章

更多...

我国铝电解工业固危废治理现状及技术展望
Present Situation and Technical Prospect of Hazardous Solid Waste Treatment in China’s Aluminum Electrolysis Industry

DOI: 10.12677/AEP.2022.122019, PP. 145-149

Keywords: 铝电解,危险固体废弃物,处理技术
Aluminum Electrolysis, Hazardous Solid Waste, Processing Technology

Full-Text   Cite this paper   Add to My Lib

Abstract:

原铝生产过程中和电解槽周期大修时不可避免地会产生大量阳极炭渣、铝灰以及电解槽大修渣,因其中含有远超国家标准的可溶性氟化物与氰化物而被定义为危险废物。本文针对此数量庞大且持续快速增长的危废进行了基础理论研究与包括湿法火法在内的处理技术现状综述。指出通过湿法处理此类危险固废中存在的一系列问题,并展望了铝电解工业危废的无害化处理及资源化利用方法,火法处理应为未来危废处理主导方向。
A large amount of anode carbon residue, aluminum ash, and electrolytic cell slag are inevitably generated during primary aluminum production, especially when the electrolytic cell liner was replaced periodically, which were defined as hazardous wastes because they contain soluble fluo-ride and cyanide far above the national standards. In this paper, the basic theoretical research and the current status of treatment technologies including wet processing and pyrometallurgical pro-cessing are summarized for this large number of hazardous wastes with sustained and rapid growth. This article points out a series of problems in the treatment of such dangerous solid wastes by wet process. The prospects for harmless treatment and resource utilization of hazardous wastes in the aluminum electrolysis industry are anticipated. Pyrometallurgical treatment should be the dominant direction for hazardous waste treatment in the future.

References

[1]  邱竹贤. 铝电解原理与应用[M]. 徐州: 中囯矿业大学出版社, 1998.
[2]  单淑秀. 我国电解铝工业的现状及发展方向[J]. 轻金属, 2011(8): 3-8.
[3]  李旺兴, 陈喜平. 铝电解废槽衬的污染及对策分析[J]. 有色冶金节能, 2008, 24(1): 6-11.
[4]  王茜. 危险废物管理法律制度比较研究[D]: [硕士学位论文]. 广州: 广东商学院, 2011.
[5]  Fu, Z., Song, Z., Chen, X., Wang, J. and Zhao, J. (2015) Brief Analysis on Energy Conservation and Environmental Pro-tection Industry Development in China. Strategic Study of Chinese Academy of Engineering, 17, 75-80.
[6]  Sorlie, M. and Oye, H. (1992) Cathodes in Aluminium Electrolysis. Aluminium-Verlag GmbH, Munich, 350.
[7]  杨俊杰. 无害化处理铝电解废阴极炭块技术分析及应用现状[J]. 轻金属, 2014(1): 38-40+62.
[8]  Shi, Z., Wei, L., Hu, X., Ren, B.-J., Gao, B.-L. and Wang, Z.-W. (2012) Recovery of Carbon and Cryolite from Spent Pot Lining of Aluminium Re-duction Cells by Chemical Leaching. Transactions of Nonferrous Metals Society of China, 22, 222-227.
https://doi.org/10.1016/S1003-6326(11)61164-3
[9]  Singh, G., Kumar, B., Sen, P.K. and Majumdar, J. (1999) Removal of Fluoride from Spent Pot Liner Leachate Using Ion Exchange. Water Environment Research, 71, 36-42.
[10]  Lisbona, D.F. and Steel, K.M. (2008) Recovery of Fluoride Values from Spent Pot-Lining: Precipitation of an Aluminium Hydroxyfluoride Hydrate Product. Separation and Purification Technology, 61, 182-192.
[11]  詹磊, 牛庆仁, 贺华, 侯新, 郝少文. 铝电解废阴极炭块无害化综合利用工业实践[J]. 轻金属, 2013(10): 59-62.
[12]  陈喜平, 田保红, 李旺兴, 刘凤琴, 罗钟生. 废槽衬火法处理过程热力学分析[J]. 有色金属: 冶炼部分, 2004(5): 19-21.
[13]  陈喜平. 铝电解废槽衬火法处理工艺研究与热工分析[D]: [博士学位论文]. 长沙: 中南大学, 2009.
[14]  高炳亮, 任必军, 王兆文, 宋建忠, 徐向明, 魏应伟, 等. 一种铝电解槽的废旧碳化硅侧壁材料的处理方法[P]. 中国专利, CN201010571952.0. 2011-03-23.
[15]  申士富, 王金玲, 牛庆仁, 贺华, 叶力佳, 骆有发. 电解铝固体废弃物的环境危害及处理技术研究现状[C]//中国环境科学学会. 中国环境科学学会2010年学术年会论文集. 上海: 中国环境科学出版社, 2010.
[16]  Kasireddy, V., Bernier, J.L. and Kimmerle, F.M. (2003) Recycling of Spent Pot Linings. U.S. Patent No. US6596252B2.
[17]  朱新伟, 刘双, 熊毅. 铝电解槽用新型干式防渗料性能的研究[J]. 轻金属, 2009(10): 26-30.
[18]  任必军, 候飞瑞, 王二体, 等. 利用铝电解废耐火材料生产保温砖的方法[P]. 中国专利, CN201010571215.0. 2011-05-18.
[19]  陈喜平, 赵淋, 罗钟生. 回收铝电解炭渣中电解质的研究[J]. 轻金属, 2009(12): 21-25+37.
[20]  康宁. 铝电解碳渣的浮选[J]. 轻金属, 2002 (6): 42-44.
[21]  田忠良, 赖延清, 辛鑫, 郭伟昌, 杨凯, 杨超, 等. 一种熔融法处理铝电解炭渣用添加剂及其使用方法[P]. 中国专利, CN201710368857.2. 2017-09-05.
[22]  Hwang, J.Y., Huang, X. and Xu, Z. (2006) Recovery of Metals from Alumi-num Dross and Saltcake. Journal of Minerals and Materials Characterization and Engineering, 5, 47-62.
[23]  Yoshimura, H.N., Abreu, A.P., Molisani, A.L., de Camargo, A.C., Portela, J.C.S. and Narita, N.E. (2008) Evaluation of Aluminum Dross Waste as Raw Material for Refractories. Ceramics International, 34, 581-591.
https://doi.org/10.1016/j.ceramint.2006.12.007

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133