工业铝电解系统节能技术开发实践

Development Practice of Energy Saving Technology for Industrial Aluminum Electrolysis System

下载PDF

导出

摘要电解铝企业可操作、持续、有效、大幅度的取得节能减排经济效益的关键指标是阳极炭耗及运行电耗、吨铝电耗和吨铝分摊大修成本。由于电解铝技术的综合性特点,采用铝电解系统性节能减排技术创新,符合国家行业和企业竞争的生存需要。基于此,本文主要阐释了这几项技术的基本背景、特点和创新效益的原理及应用案例。 The key indexes of greatly achieving workable, sustainable, effective economic benefits for energy saving and emission reduction in aluminum electrolytic enterprise are anode carbon consumption and its operation power consumption, repair cost and power consumption of every ton of aluminum. The systematic innovation of energy saving and emission reduction technology in aluminum electrolysis can meet the need of competition and survive in nation, industry and enterprise because of the comprehensive characteristics of aluminum electrolysis technology. Based on the above contents, the basic backgrounds, characteristics, principles of innovation efficiency and application ease of several technologies were introduced in this paper.

作者王金融孙志宏王晓华杨利

机构地区山西关铝股份有限公司

出处《有色冶金节能》 2013年第1期12-17,共6页 Energy Saving of Nonferrous Metallurgy

关键词铝电解系统节能专业技术构成活化阳极加铜盘存废旧阴极内衬 aluminum electrolysis systematic energy saving professional technology structure activation anode inventory method of adding copper waste cathode lining

分类号 TF821 [冶金工程—有色金属冶金]

引文网络
相关文献

参考文献4

1沈时英.关于铝电解阳极过电压的性质及其在能量平衡中的作用问题[J].轻金属,1989(7):22-25. 被引量：1
2冯乃祥,邱竹贤,格罗泰姆,克万德.铝电解槽阳极过电压及其衰减曲线的测量与分析[J].有色金属,1989,41(3):54-58. 被引量：1
3张延利,侯光辉,邱仕麟.铝电解槽阳极气泡行为研究新动态[J].轻金属,2007(12):41-44. 被引量：7
4吴鸿;张顺虎.铝电解工[M]贵阳:贵阳科技出版社,2006469-470.

二级参考文献18

1李相鹏,李劼,赖延清,刘业翔,周昊,岑可法.预焙铝电解槽阳极底部开排气沟对电解质流场的影响[J].中国有色金属学报,2006,16(6):1088-1093. 被引量：6
2L. Cassayre, T.A. Utigard and S. Bouvet, Visualizing gas evolution on graphite and oxygen - evolving anodes. J. Metals (5) (2002) 41 - 467.
3R.J. Aaberg, V. Ranum, K. Williamson and B.J. Welch, The gas under anodes in aluminium smelting cells. Part Ⅱ: Gas volume and bubble layer characteristics. In R. Huglen (ed.), Light Metals 1997, Minerals, Metals & Materials Sot., Warrendale1997, pp. 341 - 346.
4Kaiser Aluminium &Chemical Report for D. O. E. Contract DE) - AC# - 76CS 40215.
5G.J. Houston, M.P. Taylor, D.J. Williams& K. Grjotheim in Light Metals 1988, p. 643.
6L. Cassayre, G. plascencia, T. Matin, S. Fan and T. Utigard . Gas evolution on graphite and oxygen - evolving anodes during aluminum electrolysis. Light Metals 2006, Minerals, Metals & Materials Soc.
7H. Vogt. The anode effect as a fluid dynamic problem. J. Appl. Electrochem. 29 (1999) 137-145.
8H. Vogt and H. - D. Kleinsehrodt, The ohmic interelectrode voltage drop in alumina reduction cells, J. Appl. Electrochem. 33 (2003).
9J. THonstad, H. - D. Kleinschrodt and H. Vogt. Improved design equation for the interelectrode voltage drop in industrial aluminium cells. Light Metals 2004, Minerals, Metals & Materials Soc.2004, pp. 427 - 432.
10J. Zoric and A. Solheim. On gas bubbles in industrial aluminium cells with prebaked anodes and their influence on the current distribution. J. Appl. Electrochem. 30 (2000) 787-794.

共引文献6

1李贺松,曹曦,田应甫.低能耗下铝电解槽阳极结构的优化[J].中国有色金属学报,2012,22(10):2960-2969. 被引量：15
2杨少华,谢宝如,杨凤丽,李明周.铝电解槽阳极气泡行为研究[J].有色金属科学与工程,2013,4(3):20-24. 被引量：8
3詹水清,周孑民,李茂,董英,周益文,杨建红.铝电解槽熔体内阳极气泡分布特性的数值模拟[J].中南大学学报（自然科学版）,2014,45(7):2424-2431. 被引量：10
4李茂,白晓,詹水清,侯文渊,李远.炭阳极下“Fortin”型气泡运动的数值模拟[J].轻金属,2015(8):31-35.
5刘庆生,汤卫东,王建鲁.稀土电解槽内阳极气泡行为的数值模拟[J].中国稀土学报,2015,33(6):737-746. 被引量：8
6李茂,王玉洁,侯文渊,张斌,白晓,孙帅更.基于水模型实验的“Fortin”型气泡动力学研究[J].轻金属,2018(3):26-32. 被引量：1

1李云峰,曹志成,黄彩江,王志军.300KA铝电解槽加铜盘存在产铝[J].内蒙古石油化工,2009,35(5):76-77. 被引量：2
2林琳,杨玉荣,龙琼,殷恩生,陈德广,李健屏.加铜盘存槽内在产铝方法在印度GP320kA电解槽上的应用[J].轻金属,2007(12):38-40. 被引量：4
3唐骞.平果铝业公司铝电解系统的节能改造[J].有色冶金节能,1998,0(2):32-34.
4孙志宏,刘金锁,赵占江,郭晓燕.加铜盘存法测算电解槽工艺技术开发实践[J].有色冶金节能,2011,26(6):13-16. 被引量：4
5孟杰,杨振海.提高我国电解铝技术经济指标的探讨[J].有色金属工业,2002(2):56-57. 被引量：1
6韦涵光.进入21世纪电解铝技术的革新[J].世界有色金属,2001(10):22-23. 被引量：4
7郭庚辰.奥氏体不锈钢粉末压坯的液相烧结[J].粉末冶金工业,1998,8(4):30-37. 被引量：4
8贾崇雪,刘晓美,汤晓辉,鲁荣杰,赵统国.120 t转炉全矿石炼钢工艺开发实践[J].山东冶金,2016,38(1):6-8.
9成庚,王醒钟.电解槽加铝硅合金盘存在产铝量[J].铝镁通讯,1999(3):28-29.
10姚恩秀,张毓海,刘红兵.用位总线技术构成的分布式电解槽计算机控制系统[J].轻金属,1992(8):38-41. 被引量：1

有色冶金节能

2013年第1期

浏览历史

内容加载中请稍等...

工业铝电解系统节能技术开发实践

参考文献4

二级参考文献18

共引文献6

相关作者

相关机构

相关主题

浏览历史