直接电场对纳米铁在粘土中的辅助迁移研究

L. Hannum, S. Pamukcu
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引用次数: 3

摘要

为了快速有效地修复土壤污染物,研究了直流电场对纳米铁浆在粘土中可能的电动输送的影响。纳米铁可以以浆液的形式水力引入土壤,但在致密的粘土中,浆液的均匀分布可能难以实现有效的修复。此外,先前的实地研究表明,纳米铁颗粒的有限寿命约为4-8周,这进一步强调了纳米铁颗粒在氧化失效之前有效到达污染部位的必要性。这项研究表明,通过将电动力学与纳米技术相结合,纳米颗粒的传输可以在电动力学上增强,用于致密粘土的地下修复,在这种情况下,传输时间和过程效率可能是一个问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Aided Transport of Nano-Iron in Clay Soils Using Direct Electric Field
The influence of direct current electric fields on the possible electrokinetic delivery of nano-iron slurry in clay for the purpose of fast and effective remediation of soil contaminants has been tested. Nano-iron can be introduced to soil hydraulically in slurry form, but in tight clay soil, delivery of a uniform distribution of the slurry may be difficult to achieve for effective remediation. Additionally, the limited life of the nano-iron particles, previously shown in field studies of being on the order of 4-8 weeks, further emphasizes the need for the nano-iron particles to reach the contaminated site efficiently before the particles oxidize and become ineffective. This study demonstrates that by integrating electrokinetics with nanotechnology, the transport of nano-particles can be electrokinetically enhanced for subsurface remediation of tight clay soils where transport time and process efficiency may be an issue.
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