矿山酸性废水的环境影响及防治研究进展

doi:10.11867/j.issn.1001-8166.2008.05.0501

地球科学进展 ›› 2008, Vol. 23 ›› Issue (5): 501 -508. doi: 10.11867/j.issn.1001-8166.2008.05.0501

矿山酸性废水的环境影响及防治研究进展

倪师军 ^1，3，李珊 ²，李泽琴 ¹，徐争启 ¹，王永利 ¹

1. 成都理工大学地质灾害防治与地质环境保护国家重点实验室，四川成都 610059；2.四川省水利水电勘测设计研究院，四川成都 610072；3.成都理工大学地学核技术应用开发四川省重点实验室，四川成都 610059

收稿日期:2008-04-14 修回日期:2008-04-16 出版日期:2008-05-10
通讯作者: 倪师军 E-mail:nsj@cdut.edu.cn
基金资助:
国土资源部公益类基金项目“矿产资源开发对矿山环境影响及整治示范研究”子项目“区域地球化学基线与大型矿山矿集区环境评价示范”（编号：30302408-1）资助.

Progress in the Research of Acid Mine Drainage Impact and Remediation

Ni Shijun ^1，3，Li Shan ²，Li Zeqin ¹，Xu Zhengqi ¹，Wang Yongli ¹

1. State Key Laboratory of Geohazard Prevention and Geoenviroment Protection, Chengdu University of Technology, Chengdu 610059, China; 2. Sichuan Investigation Design & Research Institute of Water Resources and Hydropower, Chengdu 610072, China;3.Sichuan Provincial Key Laboratory of Applied Naclear Techniques in Geoscience, Chengdu 610059,China

Received:2008-04-14 Revised:2008-04-16 Online:2008-05-10 Published:2008-05-10

下载PDF ( 1461 )

矿山酸性废水(AMD)的环境影响是开采矿山或废弃矿山最严重的环境问题之一。介绍了国内外AMD的产生机理、环境危害、控制观点和治理方法。控制观点包括有源头控制和转移控制：源头控制观点就是要在源头防止AMD的形成和转移；转移控制观点就是要中和治理AMD并从中去除金属。治理方法分主动治理和被动治理两种，治理AMD既可以采用非生物路线（化学机制），也可以采用生物路线（生物机制）。

关键词: 矿山酸性废水, 源头控制和转移控制, 主动治理和被动治理, 非生物路线和生物路线

Environmental impacts of acid mine drainage(AMD) is one of the most serious problem associated with both working and abandoned mining operations. This paper describes the occurrence of AMD, their environmental impacts, options about AMD control, and the available treatment methods. There are two options available for AMD control in the current papers . The source control is used for preventing the formation or the migration of AMD from its source. The migration control is applied to neutralize AMD and remove metals from solution. The treatment methods of AMD include “active” or “passive” ones. For the AMD treatment strategies, either chemical or biological mechanism is available to the abiotic or bioremediative strategies

Key words: AMD, Source control and migration control, Active and passive treatment, Abiotic and bioremediative strategies.

中图分类号:

X502
X75

[1] Hallberg R O，Granhagen J R，Liljemark A. A fly ash/biosludge dry cover for the mitigation of AMD at the falun mine [J]. Chemie der Erde，2005，S1（65）: 43-63.

[2] Pan Ke，Li Zhengshan. The treatmen to facid mine drainage and its developmental trends [J]. Sichuan Environment，2007，26（5）: 83-96.[潘科，李正山.矿山酸性废水治理技术及其发展趋势[J]. 四川环境，2007，26（5）: 83-96.]

[3] Ma Yao，Hu Baoqun，Sun Zhanxue. The summary of studies on the acid mine drainage treatment [J]. Mining Engineering，2006，4（3）: 55-57.[马尧，胡宝群，孙占学. 矿山酸性废水治理的研究综述[J]. 矿业工程，2006，4（3）: 55-57.] 

[4] Nieto J M，Sarmiento A M，Olías M，et al. Acid mine drainage pollution in the Tinto and Odiel rivers（Iberian Pyrite Belt，SW Spain） and bioavailability of the transported metals to the Huelva Estuary [J]. Environment International，2007，33: 445-455.

[5] Wang Juntao，Xie Juan，Zhang Yiqian. Effect of waste rock eluviation on water environment [J]. Journal of Earth Sciences and Environment，2006，28（4）：92-96. [王俊桃，谢娟，张益谦.矿山废石淋溶对水环境的影响[J].地球科学与环境学报，2006，28（4）：92-96.]

[6] Akcil A，Koldas S. Acid Mine Drainage（AMD）: Causes，treatment and case studies [J]. Journal of Cleaner Production，2006，14: 1 139-1 145.

[7] Johnson D B，Hallberg K B. Acid mine drainage remediation options: A review [J]. Science of the Total Environment，2005，338: 3-14.

[8] Evangelou V P. Pyrite chemistry: the key for abatement of acid mine drainage [C]∥Geller A，Klapper H，Salomons W，editors. Acidic Mining Lakes: Acid Mine Drainage，Limnology and Reclamation. Berlin: Springer，1998：197-222.

[9] Moreno L，Neretnieks I. Long-term environmental impact of tailings deposits chemical engineering and technology [J]. Hydrometallurgy，2006，83:176-183.

[10] Wu Yiqian，Zhan Youhong. AMD control from source and water sewage separation project in Yangtaowu，Zhujia waste rock yards and open pit of Dexing copper mine [J]. Nonferrous Metals，2005，57（4）：101-109. [吴义千，占幼鸿.矿山酸性废水源头控制与德兴铜矿杨桃坞、祝家废石场和露天采场清污分流工程[J].有色金属，2005，57（4）：101-109.]

[11] Coulton R，Bullen C，Hallet C. The design and optimization of active mine water treatment plants [J]. Land Contamination & Resources Lamation，2003，11: 273-279.

[12] Aube B C，Payant S. The Geco process: A new high density sludge treatment for acid mine drainage [C]∥Proceedings of the Fourth International Conference on Acid Rock Drainage. Vancouver，BC，1997，I:165-180.

[13] Coulton R，Bullen C，Dolan J，et al. Wheal Jane mine water active treatment plant-design，construction and operation [J]. Land Contam Reclam，2003，11: 245-252.

[14] Kleinmann R L P，Hedin R S，Nairn R W. Treatment of mine drainage by anoxic limestone drains and constructed wetlands [C]∥Geller A，Klapper H，Salomons W，eds. Acidic Mining Lakes: Acid Mine Drainage，Limnology and Reclamation. Berlin: Springer，1998：303-319.

[15] Evangelou VP. Pyrite chemistry: The key for abatement of acid mine drainage [C]∥Geller A，Klapper H，Salomons W，editors. Acidic Mining Lakes: Acid Mine Drainage，Limnology and Reclamation. Berlin:Springer，1998：197-222.

[16] Bosecker K. Bioleaching: metal solubilization by microorganisms [J]. FEMS Microbiology Reviews，1997，20：591-604.

[17] Kelly D P，Wood A P. Reclassification of some species of Thiobacillus to the newly designated genera Acidothiobacillus gen. nov.，Halothiobacillus gen. nov. and Thermithiobacillus gen. nov [J]. International Journal of Systematic and Evolutionary Microbiology，2000，50：511-516.

[18] Johnson D B，Hallberg K B. Pitfalls of passive mine water treatment [J]. Reviews Environmental Science and Biotechnology，2002，1:335-343.

[19] Battaglia-Brunet F，Dictor M C，Garrido F，et al. An arsenic（III）-oxidizing bacterial population: Selection，characterization，and performance in reactors [J]. Journal of Applued Microbiology，2002，93:656-667.

[20] Younger P L，Jayaweera A，Elliot A，et al. Passive treatment of acidic mine waters in subsurfaceflow systems: Exploring RAPS and permeable reactive barriers [J]. Land Contamination & RecLamation，2003，11:127-135.

[21] Kalin M，Cairns J，McCready R，Ecological engineering methods for acid-mine drainage treatment of coal wastes [J]. Resources Conservation and Recycling，1991，5: 265-275.

[22] Kalin M，Caetano Chaves W L. Acid reduction using microbiology（ARUM） treating AMD effluent emerging from an abandoned mine portal [C]∥Ciminelli VST，Garcia Jr O，eds. Biohydrometallurgy: Fundamentals，Technology and Sustainable Development，vol. 11B. Amsterdam: Elsevier，2001：289-296.

[22] Benner S G，Blowes D W，Ptacek C J.A full-scale porous reactive wall for prevention of acid mine drainage [J]. Ground Water Monitoring and Remediation，1997，17: 99-107.

[22] Long Z E，Huang Y H，Cai Z L，et al. Biooxidation of ferrous iron by immobilized Acidithiobacillus ferrooxidans in poly（vinyl alcohol） cryogel carriers [J]. Biotechnology Letters， 2003，25: 245-249.

[23] Hallberg K B，Johnson D B. Biodiversity of acidophilic microorganisms [J]. Advances in Applied Microbiology，2001，49: 37-84.

[24] Johnson D B. Biological removal of sulfurous compounds from inorganic wastewaters [C]∥Lens P，Hulshoff Pol L，editors. Environmental Technologies to Treat Sulfur Pollution: Principles and Engineering. London International Association on Water Quality，2000:175-206.

[25] Boonstra J，van Lier R，Janssen G，et al. Biological treatment of acid mine drainage [C]∥Amils R，Ballester A，editors. Biohydrometallurgy and the Environment Toward the Mining of the 21st Century，vol. 9B.Amsterdam: Elsevier，1999：559-567.

[26] Rowley M，Warkentin D D，Sicotte V.Site demonstration of the biosulfide process at the former Britannia mine [C]∥Proceedings of the Fourth International Conference on Acid Rock Drainage.Vancouver，BC，IV，1997:1 531-1 548.

[27] Kalin M，Caetano Chaves W L. Acid reduction using microbiology: Treating AMD effluent emerging from an abandoned mine portal [J]. Hydrometallurgy，2003，71: 217-225.

[28] Whitehead P G，Prior H. Bioremediation of acid mine drainage: an introduction to the Wheal Jane wetlands project [J]. Science of the Total Environment，2005，338: 15-21.

[29] Cánovas C R，Olías M，Nieto J M，et al. Hydrogeochemical characteristics of the Tinto and Odiel rivers（SW Spain） Factors controlling metal contents [J]. Science of the Total Environment，2007，373: 363-382.

No related articles found!

阅读次数

全文

摘要