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胡黎明, 林丹彤, 劳敏慈. 多孔介质中纳米零价铁运移行为的试验研究[J]. 岩土工程学报, 2021, 43(7): 1173-1181. DOI: 10.11779/CJGE202107001
引用本文: 胡黎明, 林丹彤, 劳敏慈. 多孔介质中纳米零价铁运移行为的试验研究[J]. 岩土工程学报, 2021, 43(7): 1173-1181. DOI: 10.11779/CJGE202107001
HU Li-ming, LIN Dan-tong, LO M-C Irene. Transport behavior of nano zero-valent iron (nZVI) in porous media[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(7): 1173-1181. DOI: 10.11779/CJGE202107001
Citation: HU Li-ming, LIN Dan-tong, LO M-C Irene. Transport behavior of nano zero-valent iron (nZVI) in porous media[J]. Chinese Journal of Geotechnical Engineering, 2021, 43(7): 1173-1181. DOI: 10.11779/CJGE202107001

多孔介质中纳米零价铁运移行为的试验研究

Transport behavior of nano zero-valent iron (nZVI) in porous media

  • 摘要: 纳米零价铁是一种前景广阔的环境修复材料,目前针对应用纳米零价铁进行地下水污染修复已经开展了广泛的研究。然而,现有研究多关注于注入纳米零价铁的运移能力,对于负载污染物后纳米零价铁的迁移行为缺少研究。本文研究了磷负载前后纳米零价铁的团聚趋势以及运移能力,分析了流速、离子浓度、多孔介质粒径级配等因素对磷负载纳米零价铁运移能力的影响。结果表明,磷负载纳米零价铁的团聚趋势相对于反应前纳米零价铁较低,其运移能力则强于吸附磷之前的纳米零价铁,这是由于吸附磷增加了纳米零价铁的表面负电荷进而阻碍了颗粒团聚。离子浓度对于磷负载纳米零价铁的运移能力有显著的影响,低离子浓度、高流速有利于磷负载纳米零价铁的运移。磷负载纳米零价铁在中玻璃珠中的运移能力强于细玻璃珠和粗玻璃珠,在天然砂中的运移能力则小于在中玻璃珠中的运移能力。利用DLVO理论以及胶体的粒桥、颗粒阻塞和表面沉积等多种滞留机理对试验中观察到的现象进行了解释。在含有高岭土的天然砂中,磷负载纳米零价铁的运移能力很弱,且沉降试验表明高岭土可以促进磷负载纳米零价铁的团聚沉降,这表明磷负载纳米零价铁有可能富集在含有高岭土的土层中。在应用纳米零价铁吸附地下水中的污染物时,应考虑污染物对于纳米零价铁运移能力的影响,并结合环境条件对该影响进行评估和控制。

     

    Abstract: The nano zero-valent iron (nZVI) has been seen as a promising material in the field of groundwater remediation. Researchers have studied the application of nZVI in in-situ remediation of groundwater. However, most of the existing studies focus on the transport of nZVI before reaching the polluted area. The transport behavior of contaminant-sorbed nZVI has not been fully studied. This study aims to illustrate the differences in the colloidal stability and motion ability of nZVI before and after phosphate adsorption is studied by sedimentation tests and one-dimensional column tests. The influences of environmental factors such as flow rate, ionic strength and porous medium characteristics on the motion ability of phosphate-sorbed nZVI (PS-nZVI) are analyzed. The results show that PS-nZVI has higher stability and mobility than nZVI, which is due to the increase of negative surface potential after phosphate adsorption. Geo-environmental conditions have great impact on the transport of PS-nZVI. Low ionic strength and high velocity are favorable for transport. The transport capacity of PS-nZVI in medium size glass beads is higher than that in fine and coarse size glass beads. PS-nZVI has higher mobility in glass beads than those in natural sand. The above experimental phenomena can be explained by the DLVO theory and various retention mechanisms of colloids in porous media, such as bridging, size exclusion and surface deposition. In the natural sand mixed with kaolinite, the mobility of PS-nZVI is very weak, and the settlement tests show that kaolinite can promote the agglomeration settlement process of PS-nZVI, which indicates that the soil layer containing kaolinite may collect PS-nZVI. The influences of contaminants and environmental factors on the mobility of nZVI should be considered in its filed application.

     

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