From highly polluted Zn-rich acid mine drainage to non-metallic waters: Implementation of a multi-step alkaline passive treatment system to remediate metal pollution

Francisco Marias; Manuel A. Caraballo; Tobias S. Rotting; Rafael Perez-Lopez; Jose Miguel Nieto; Carlos Ayora

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From highly polluted Zn-rich acid mine drainage to non-metallic waters: Implementation of a multi-step alkaline passive treatment system to remediate metal pollution

机译：从高污染的富锌酸性矿山排水到非金属水：实施多步骤碱钝化处理系统以补救金属污染

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Complete metal removal from highly-polluted acid mine drainage was attained by the use of a pilot multi-step passive remediation system. The remediation strategy employed can conceptually be subdivided into a first section where the complete trivalent metal removal was achieved by the employment of a previously tested limestone-based passive remediation technology followed by the use of a novel reactive substrate (caustic magnesia powder dispersed in a wood shavings matrix) obtaining a total divalent metal precipitation. This MgO-step was capable to abate high concentrations of Zn together with Mn, Cd, Co and Ni below the recommended limits for drinking waters. A reactive transport model anticipates that 1 m~3 of MgO-DAS (1 m thick×1 m~2 section) would be able to treat a flow of 0.5 L/min of a highly acidic water (total acidity of 788 mg/L CaCO_3) for more than 3 years.

机译：通过使用试验性多步骤被动修复系统，可以完全去除高污染酸性矿山排水中的金属。从概念上讲，可以将采用的修复策略细分为第一部分，在该部分中，通过使用之前测试过的基于石灰石的被动修复技术，然后使用新型的反应性底物（苛性镁粉分散在木材中），可以完全去除三价金属。屑基质）获得总的二价金属沉淀。该MgO步骤能够减少高浓度的Zn以及Mn，Cd，Co和Ni，低于建议的饮用水限量。反应性传输模型预计1 m〜3的MgO-DAS（1 m厚×1 m〜2截面）将能够处理流量为0.5 L / min的高酸性水（总酸度为788 mg / L）。 CaCO_3）超过3年。

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《Science of the total environment》 |2012年第1期|p.323-330|共8页
作者
Francisco Marias; Manuel A. Caraballo; Tobias S. Rotting; Rafael Perez-Lopez; Jose Miguel Nieto; Carlos Ayora;
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作者单位

Geology Department, University of Huelva, Campus 'El Carmen', E-21071 Huelva, Spain;

Geology Department, University of Huelva, Campus 'El Carmen', E-21071 Huelva, Spain,Department of Geosciences, Virginia Tech, Blacksburg, VA 24061, USA;

Department of Geotechnical Engineering and Geosciences, Technical University of Catalonia UK—Barcelona Tech, Jordi Girona 1 -3, D2-006, E-08034 Barcelona, Spain;

Geology Department, University of Huelva, Campus 'El Carmen', E-21071 Huelva, Spain,Institute of Environmental Assessment and Water Research, CSIC, jordi Girona 18, E-08034 Barcelona, Spain;

Geology Department, University of Huelva, Campus 'El Carmen', E-21071 Huelva, Spain;

Institute of Environmental Assessment and Water Research, CSIC, jordi Girona 18, E-08034 Barcelona, Spain;

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正文语种 eng
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acid mine drainage; metal pollution remediation; caustic magnesia; brucite; hydrozincite;

机译：酸性矿山排水金属污染修复;苛性镁水镁石水锌矿;
入库时间 2022-08-17 13:54:46

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1. Hydrochemical performance and mineralogical evolution of a dispersed alkaline substrate (DAS) remediating the highly polluted acid mine drainage in the full-scale passive treatment of Mina Esperanza (SW Spain) [J] . Caraballo M.A., Macías F., Nieto J.M., The American mineralogist . 2011,第8a9期

机译：在Mina Esperanza的全面被动处理中，分散的碱性底物（DAS）的水化学性能和矿物学演变修复了高度污染的酸性矿山排水（西班牙西南部）
2. Performance and bacterial communities of successive alkalinity-producing systems (SAPSs) in passive treatment processes treating mine drainages differing in acidity and metal levels (vol 21, pg 3722, 2014) [J] . Jung Sokhee Philemon, Cheong Youngwook, Yim Giljae, Environmental Science and Pollution Research . 2015,第6期

机译：连续的碱度产生系统（SAPS）在被动处理工艺中的性能和细菌群落，这些处理工艺处理了酸度和金属含量不同的矿井排水（vol 21，pg 3722，2014）
3. Performance and bacterial communities of successive alkalinity-producing systems (SAPSs) in passive treatment processes treating mine drainages differing in acidity and metal levels [J] . Sokhee Philemon Jung, Youngwook Cheong, Giljae Yim Environmental Science and Pollution Research . 2014,第5期

机译：连续碱度产生系统（SAPS）在处理酸性和金属含量不同的矿井排水的被动处理过程中的性能和细菌群落
4. Iron and Sulfate Removal in Highly Contaminated Acid Mine Drainage Using Passive Multi-Step Systems [C] . Tsiverihasina V. Rakotonimaro, Carmen M. Neculita, Bruno Bussiere International Mine Water Association Congree . 2017

机译：使用被动多步系统，在高度污染的酸矿矿喷射中去除硫酸铁和硫酸铁
5. A Feasibility Analysis of the Implementation of Passive Treatment Systems for Remediating Acid Mine Drainage in the Lick Run Watershed [D] . Leonetti, William Joseph. 2014

机译：实施湿地流域治理酸性矿山排水被动处理系统的可行性分析。
6. Copper removal from acid mine drainage-polluted water using glutaraldehyde-polyethyleneimine modified diatomaceous earth particles [O] . Mikael Larsson, Ataollah Nosrati, Simarpreet Kaur, 2018

机译：戊二醛-聚乙烯亚胺改性硅藻土颗粒去除酸性矿山排水污染水中的铜
7. A Feasibility Analysis of the Implementation of Passive Treatment Systems for Remediating Acid Mine Drainage in the Lick Run Watershed [O] . William Joseph Leonetti -1

机译：舔水流域中酸矿排水的无源处理系统实施的可行性分析
8. Evaluation of a Method Using Colloidal Gas Aphrons to Remediate Metals-Contaminated Mine Drainage Waters [R] . Grimes, R. W. 2002

机译：利用胶体气体aphrons修复受金属污染的矿井排水的方法评价

From highly polluted Zn-rich acid mine drainage to non-metallic waters: Implementation of a multi-step alkaline passive treatment system to remediate metal pollution

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