Remediation of High Arsenic Aquifers by Learning from the Nature

Procedia Earth and Planetary Science Pub Date : 2017-01-01 DOI:10.1016/j.proeps.2016.12.009

Yanxin Wang, Xianjun Xie, Teng Ma, Kunfu Pi, Chunli Su, Yaqing Liu, Junxia Li

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引用次数: 5

Abstract

Almost 20 years’ multi-disciplinary study on geogenic high arsenic (As) groundwater systems in China has greatly improved our understanding of the major processes controlling hydrogeochemical behavior of As in the subsurface environment. Among them, sorption by Fe(III) oxide/hydroxides was found to be one of the dominant processes retaining As in the aquifer matrix. Managed Aquifer Rehabilitation (MAR) by enhancing Fe(II) oxidation to promote As sorption was proposed and tested in a pilot-scale field experiment. Periodical injection of Fe(II) and ClO⁻ into a high As sandy aquifer triggered formation of new Fe(III) (hydr)oxides coating on sediment particles via advanced heterogeneous oxidation of Fe(II) and concurrent oxidative adsorption of As(III) via co-precipitation and surface complexation with Fe(III) (hydr)oxides. Monitoring results indicate that aqueous As concentration decreased from the initial average value of 78.0 μg/L to 9.8 μg/L over the 25-day amendment period and leveled off below 10 μg/L for the following 30 days. MAR is thus proved to be a cost-effective approach for remediating high As aquifers.

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借鉴自然修复高砷含水层

近20年来对中国地源性高砷地下水系统的多学科研究，极大地提高了我们对地下环境中砷的水文地球化学行为的主要控制过程的认识。其中，Fe(III)氧化物/氢氧化物的吸附是在含水层基质中保留As的主要过程之一。提出了通过强化Fe(II)氧化促进As吸附的管理含水层修复(MAR)方法，并进行了中试试验。在高砷砂质含水层中周期性注入Fe(II)和ClO−，可通过Fe(II)的深度非均相氧化和与Fe(III)(水合)氧化物的共沉淀和表面络合作用同时氧化吸附As(III)，从而在沉积物颗粒上形成新的Fe(III)(水合)氧化物。监测结果表明，在25天的修正期内，水溶液As浓度从初始平均值78.0 μg/L下降到9.8 μg/L，并在随后的30天内稳定在10 μg/L以下。因此，MAR被证明是一种具有成本效益的修复高砷含水层的方法。

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Procedia Earth and Planetary Science

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