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化学进展 2017, Vol. 29 Issue (9): 1053-1061 DOI: 10.7536/PC170513 前一篇   后一篇

• 综述 •

表界面调控晶体变化微观机制探索与铬渣治理研究的结合

刘炜珍1, 郑嘉毅1, 吴智诚2, 刘章斌1, 林璋1*   

  1. 1. 华南理工大学环境与能源学院 工业聚集区污染控制与生态修复教育部重点实验室 广东省环境纳米材料工程技术研究中心 广州 510006;
    2. 中国科学院福建物质结构研究所 福州 350002
  • 收稿日期:2017-05-08 修回日期:2017-07-29 出版日期:2017-09-15 发布日期:2017-09-05
  • 通讯作者: 林璋,e-mail:zlin@scut.edu.cn E-mail:zlin@scut.edu.cn
  • 基金资助:
    国家自然科学基金项目(No.21125730,21607045),国家重点研发计划(No.2013CB934302)和中科院纳米先导专项A(No.XDA09030203)资助
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The Application of Micro-Mechanism of Crystal Changes under the Surface/Interface Control in Treating Chromium-Containing Residues

Weizhen Liu1, Jiayi Zheng1, Zhicheng Wu2, Zhangbin Liu1, Zhang Lin1*   

  1. 1. School of Environment and Energy, South China University of Technology, the Key Laboratory of Pollution Control and Ecosystem Restoration in Industry Clusters(Ministry of Education), Guangdong Engineering and Technology Research Center for Environmental Nanomaterials, Guangzhou 510006, China;
    2. Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou 350002, China
  • Received:2017-05-08 Revised:2017-07-29 Online:2017-09-15 Published:2017-09-05
  • Supported by:
    The work was supported by the National Natural Science Foundation of China (No. 21125730, 21607045), the National Key Basic Research Program (No. 2013CB934302) and the Strategic Priority Research Program A of the Chinese Academy of Sciences (No. XDA09030203).
铬作为首要战略金属之一,在国民经济中有着重要地位。我国铬资源匮乏,但同时铬渣污染问题严重,亟需解决。本文阐述了目前对铬渣进行解毒处理和对其中的铬提取处理这两大类技术的优缺点和所面临的瓶颈,指出对铬渣的物相及铬的赋存状态进行深入的微结构分析是实现铬渣中铬有效提取的核心关键。本文综述了目前国际上铬渣微结构分析的研究现状,总结了本研究团队将表界面调控晶相/晶面变化的微观机制的研究认识用以指导铬渣中铬的提取的研究进展,展望了这种新的研究思路和技术手段实现铬渣变废为宝的潜力和发展趋势。
关键词: 铬渣, 资源回收, 微观结构, 表界面调控, 晶体生长
As one of the primary strategic metal, chromium plays an important role in the national economy in China. However, the chromium resource is seriously insufficient meanwhile the chromium pollution is severe in China. This article elaborates the advantages and disadvantages of the current detoxification methods and chromium extraction methods for the chromium-containing residues as well as the bottlenecks they are faced with. It points out that, for developing an effective extraction method for chromium from chromium-containing residues, the micro-structural analysis for the mineral phases of the chromium-containing residues and the thorough investigation on the chemical states, combined forms and distribution of chromium in each mineral phase are crucial. Moreover, this article summarizes the current international research of the micro-structural analysis of chromium-containing residues. This article also introduces the work of our research group that applies the understanding of micro-mechanism of crystal growth and transformation under the surface/interface control on chromium extraction from chromium-containing residue. This new idea and technology are instructional for achieving the combination of detoxification and reclamation for chromium-containing residues. Finally, the potentiality and developing tendency of this idea as well as the technologies of chromium extraction from chromium-containing residue via crystal growth and mineral phase transformation are prospected.
Contents
1 Introduction
2 The current researches on disposal of chromium-containing residue
2.1 Detoxification methods
2.2 Chromium extraction methods
3 Micro-structural analysis of chromium-containing residue
4 Chromium extractions under the guidance of micro-structural analysis
5 Conclusion
Key words: chromium-containing residues, resource recycle, micro-structure, surface/interface control, crystal growth

中图分类号: 

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[1] 张陶(Zhang T),姜一民(Jiang Y M),邰振忠(Tai Z Z),孙腾飞(Sun T F). 消费导刊(Consume Guide), 2015, 7:285.
[2] 阳伦庄(Yang L Z),邬建辉(Wu J H). 铁合金(Ferro-alloys), 2010, 06:42.
[3] 陈津(Chen J),王社斌(Wang S B),林万明(Lin W M),张猛(Zhang M),赵晶(Zhao J). 铁合金(Ferro-alloys), 2005, 36(02):39.
[4] 钟传德(Zhong C D). 中国畜牧兽医(China Animal Husbandry & Veterinary Medicine), 2014, 41(07):131.
[5] Dayan A D, Paine A J. Hum. Exp. Toxicol., 2001, 20(9):439.
[6] 柳斌(Liu B). 表面工程资讯(Information of Surface Engineering), 2011, 11(05):1.
[7] 丁翼(Ding Y),纪柱(Ji Z). 铬化合物生产与应用(Chromium Compound Production and Application). 北京:化学工业出版社(Chemical Industry Press), 2003.
[8] 纪柱(Ji Z). 无机盐工业(Inorganic Chemicals Industry), 2014, 46(10):1.
[9] 纪柱(Ji Z). 无机盐工业(Inorganic Chemicals Industry), 2010, 42(12):1.
[10] 铬渣污染治理环境保护技术规范(暂行)(Environmental Protection Technical Specifications for Pollution Treatment of the Chromium Residue(on trial))HJ/T 301-2007.
[11] 李成梁(Li C L),孟菁华(Meng J H),任杰(Ren J),马琦琦(Ma Q Q). 环境工程(Environmental Engineering), 2015, (04):112.
[12] Kameswari K S B, Pedaballe V, Narasimman L M, Kalyanaraman C. Environ. Prog. Sustain., 2015, 34(3):674.
[13] Dhal B, Thatoi H N, Das N N, Pandey B D. J. Hazard. Mater., 2013, 250:272.
[14] Wu J, Li C, Yang F. J. Clean Prod., 2015, 95:156.
[15] Changhao L, Cote R P. Waste Manage. Res., 2015, 33(4):363.
[16] 彭少邦(Peng S B). 资源节约与环保(Resources Economization and Environment Protection), 2014, 151(7):9.
[17] 邓琪(Deng Q),王琪(Wang Q),黄启飞(Huang Q F),汪群慧(Wang Q H). 再生资源与循环经济(Recyclable Resources and Circular Economy), 2009, 2(6):31.
[18] Li C T, Lee W J, Huang K L, Fu S F, Lai Y C. Environ. Sci. Technol., 2007, 41(8):2950.
[19] 石磊(Shi L),赵由才(Zhao Y C),牛冬杰(Niu D J). 再生资源研究(Recycling Research), 2004, 6:34.
[20] Jagupilla S C, Moon D H, Wazne M, Christodoulatos C, Kim M G. J. Hazard. Mater., 2009, 168(1):121.
[21] Jagupilla S C, Wazne M, Moon D H. Chemosphere, 2015, 136:95.
[22] Du J, Lu J, Wu Q, Jing C. J. Hazard. Mater., 2012, 215/216:152.
[23] Moon D H, Wazne M, Jagupilla S C, Christodoulatos C, Kim M G, Koutsospyros A. Sci. Total Environ., 2008, 399(1/3):2.
[24] Graham M C, Farmer J G, Anderson P, Paterson E, Hillier S, Lumsdon D G, Bewley R J F. Sci. Total Environ., 2006, 364(1/3):32.
[25] Wazne M, Jappilla A C, Moon D H, Jagupilla S C, Christodoulatos C, Kim M G. J. Hazard. Mater., 2007, 143(3):620.
[26] Velasco A, Ramírez M, Hernández S, Schmidt W, Revah S. J. Hazard. Mater., 2012, 207/208:97.
[27] Moon D H, Wazne M, Dermatas D, Christodoulatos C, Sanchez A M, Grubb D G, Chrysochoou M, Kim M G. J. Hazard. Mater., 2007, 143(3):629.
[28] Geelhoed J S, Meeussen J C L, Roe M J, Hillier S, Thomas R P, Farmer J G, Paterson E. Environ. Sci. Technol., 2003, 37(14):3206.
[29] 陈忠林(Chen Z L),王斌远(Wang B Y),李金春子(Li J C Z),樊磊涛(Fan L T),沈吉敏(Shen J M). 中国环境科学学会学术年会论文集(第五卷)(Chinese Society for Environmental Sciences Academic Annual Conference Proceedings(Vol.5)).昆明(Kunming). 2013. 5613.
[30] 盛灿文(Sheng C W),柴立元(Chai L Y),王云燕(Wang Y Y),李雄(Li X). 工业安全与环保(Industrial Safety And Environmental Protection), 2006, 32(2):1.
[31] 张淑玲(Zhang S L),朱祖勇(Zhu Z Y),袁晓宇(Yuan X Y),郝丽华(Hao L H). 环境卫生工程(Environmental Sanitation Engineering), 2013, 21(5):39.
[32] 铬渣干法解毒处理处置工程技术规范(Technical Specifications for Dry-Detoxification Treatment and Disposal of Chromium Residue),HJ 2017-2012.
[33] 杨成良(Yang C L,杨红彩(Yang H C). 中国建材科技(China Building Materials Science & Technology), 2014, 2:118.
[34] Meena A H, Kaplan D I, Powell B A, Arai Y. Chemosphere, 2015, 138:247.
[35] 陈忠林(Chen Z L),李金春子(Li J C Z),王斌远(Wang B Y),樊磊涛(Fan L T),沈吉敏(Shen J M). 环境科学(Environmental Science), 2015, 36(8):3026.
[36] 宋玄(Song X),李裕(Li Y),张茹(Zhang R). 广东化工(Guangdong Chemical Industry), 2014, 41(3):80.
[37] Huang X, Zhuang R, Muhammad F, Yu L, Shiau Y, Li D. Chemosphere, 2017, 168:300.
[38] Liao C, Tang Y, Lee P, Liu C, Shih K, Li F. J. Hazard. Mater., 2017, 321:449.
[39] Achal V, Pan X, Lee D, Kumari D, Zhang D. Chemosphere, 2013, 93(7):1352.
[40] Barrera-Diaz C E, Lugo-Lugo V, Bilyeu B. J. Hazard. Mater., 2012, 223:1.
[41] Wang Y, Yang Z, Chai L, Zhao K. J. Hazard. Mater., 2009, 169(1/3):1173.
[42] Chai L, Wang Y, Yang Z, Wang Q, Wang H. Trans. Nonferrous Met. Soc., 2010, 20(8):1500.
[43] Wang Y, Yang Z, Peng B, Chai L, Wu B, Wu R. Environ. Sci. Pollut. Res., 2013, 20(8):5593.
[44] Zhang D, He S, Dai L, Hu X, Wu D, Peng K, Bu G, Pang H, Kong H. Chemosphere, 2009, 77(8):1143.
[45] Zhang D, Kong H, Wu D, He S, Hu Z, Hu X. Bioresour. Technol., 2009, 100(11):2874.
[46] 李小斌(Li X B),齐天贵(Qi T G),周秋生(Zhou Q S),李斌(Li B),彭志宏(Peng Z H),刘桂华(Liu G H),徐文彬(Xu W B). 中南大学学报(自然科学版)(Journal of Central South University (Science and Technology)), 2010, 41(6):2103.
[47] Wang T, He M, Pan Q. J. Hazard. Mater., 2007, 149(2):440.
[48] Zhang D, Zhang M, Zhang C, Sun Y, Sun X, Yuan X. Environ. Sci. Technol., 2016, 50(6):3111.
[49] 梁波(Liang B),宁平(Ning P). 有色金属(Nonferrous Metals), 2005, 57(4):116.
[50] 宁平(Ning P),刘天成(Liu T C),梁波(Liang B),王亚明(Wang Y M). 环境工程(Environmental Engineering), 2006, 24(1):56.
[51] 杨丽芳(Yang L F),王宜明(Wang Y M),李理(Li L),梁红(Liang H),高红武(Gao H W),苏锡南(Su X N),范家友(Fan J Y),张丽红(Zhang L H). 环境工程学报(Chinese Journal of Environmental Engineering), 2008, 2(6):820.
[52] Lind B B, Fallman A M, Larsson L B. Waste Manage., 2001, 21(3):255.
[53] Kim J G, Dixon J B, Chusuei C C, Deng Y J. Soil Sci. Soc. Am. J., 2002, 66(1):306.
[54] Tang Y, Webb S M, Estes E R, Hansel C M. Environ. Sci. Proc. Impacts, 2014, 16(9):2127.
[55] 李陈君(Li C J),雷国元(Lei G Y). 矿产综合利用(Multipurpose Utilization of Mineral Resources), 2012, (5):3.
[56] 陈振林(Chen Z L),黄志强(Huang Z Q). 无机盐工业(Inorganic Chemicals Industry), 2006, 38(08):42.
[57] 刘伟(Liu W),李斌(Li B),周秋生(Zhou Q S),齐天贵(Qi T G),彭志宏(Peng Z H),刘桂华(Liu G H),李小斌(Li X B). 中南大学学报(自然科学版)(Journal of Central South University(Science and Technology)), 2011, 42(5):1209.
[58] Tinjum J M, Benson C H, Edil T B. Sci. Total Environ., 2008, 391(1):13.
[59] 景学森(Jing X S),杨亚提(Yang Y T),蔡木林(Cai M L). 西北农林科技大学学报:自然科学版(Journal of Northwest A&F University (Natural Science Edition)), 2007, 8(35):151.
[60] Sreeram K J, Ramasami T. J. Environ. Monit., 2001, 3(5):526.
[61] 郑敏(Zheng M),李先荣(Li X R),孟艳艳(Meng Y Y),廖辉伟(Liao H W). 化工环保(Environmental Protection of Chemical Industry), 2010, 30(03):242.
[62] Chrysochoou M, Fakra S C, Marcus M A, Moon D H, Dermatas D. Environ. Sci. Technol., 2009, 43(14):5461.
[63] 纪柱(Ji Z). 无机盐工业(Inorganic Chemicals Industry), 2004, 36(5):1.
[64] 潘金芳(Pan J F),冯晓西(Feng X X),张大年(Zhang D N). 上海环境科学(Shanghai Environmental Science), 1996, 15(03):15.
[65] Hillier S, Roe M J, Geelhoed J S, Fraser A R, Farmer J G, Paterson E. Sci. Total Environ., 2003, 308(1):195.
[66] 肖凯(Xiao K). 华中科技大学博士论文(Doctoral Dissertation of Huazhong University of Science and Technology), 2012.
[67] Geelhoed J S, Meeussen J, Hillier S, Lumsdon D G, Thomas R P, Farmer J G, Paterson E. Geochim. Cosmochim. Acta, 2002, 66(22):3927.
[68] Hillier S, Lumsdon D G, Brydson R, Paterson E. Environ. Sci. Technol., 2007, 41(6):1921.
[69] Moon D H, Dermatas D, Wazne M, Sanchez A M, Chrysochoou M, Grubb D G. Environ. Geochem. Health, 2007, 29(4):289.
[70] Chrysochoou M, Dermatas D, Grubb D G, Moon D H, Christodoulatos C. J. Geotech. Geoenviron., 2010, 136(3):510.
[71] Chrysochoou M, Moon D H, Fakra S, Marcus M, Dermatas D, Christodoulatos C. Global Nest J., 2009, 11(3SI):318.
[72] Gibb T C. J. Mater. Chem., 1992, 1(2):105.
[73] Kindness A, Macias A, Glasser F P. Waste Manage., 1994, 14(1):3.
[74] Alvarezayuso E, Nugteren H. Water Res., 2005, 39(12):2535.
[75] James B R. J. Environ. Qual., 1994, 23(2):227.
[76] Weng C H, Huang C P, Allen H E, Cheng A H, Sanders P F. Sci. Total Environ., 1994, 154(1):71.
[77] Liu W, Xu X, Wang Y, He Z, Zhuo N, Huang F, Lin Z. Chinese Science Bulletin, 2010, 55(4/5):373.
[78] Liu W, Huang F, Liao Y, Zhang J, Ren G, Zhuang Z, Zhen J, Lin Z, Wang C. Angew. Chem. Int. Ed., 2008, 47(30):5619.
[79] Lv X Y, Chen Z, Wang Y J, Huang F, Lin Z. ACS Appl. Mater. Interfaces, 2013, 5:11271.
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