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Influence of humic acid and cadmium on the transport of clay colloids in saturated porous media

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ã€Authorã€‘ TANG Zhang;YANG Xin-yao;YAN Xin-yu;ZHANG Hai-yan;YANG Yue-suo;Key Lab of Eco-restoration of Regional Contaminated Environment Ministry of Education, Shenyang University;Hydrogeology and Engineering Geology Exploration Institute of Heilongjiang Province;Key Laboratory of Groundwater Environment and Resources, Ministry of Education, Jilin University;

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ã€Abstractã€‘ With the aim to explore the impact of humic acidï¼ˆHAï¼‰and cadmium ion(Cd²⁺)on the transport of clay colloids in saturated porous media, co-transport column experiments were performed using montmorillonite and kaolinite colloids as surrogates. Results showed that the deposition rate of kaolinite colloids was the highest in the absence of HA and Cd²⁺ï¼ˆ3.72 min-1ï¼‰, lower in the presence of only Cd²⁺ï¼ˆ2.82 min-1ï¼‰, even lower in the presence of both HA and Cd²⁺ï¼ˆ2.01 min-1ï¼‰, and the lowest in the presence of only HAï¼ˆ0.46 min-1ï¼‰. The similar trend in changing deposition rate in response to the variability of Cd²⁺and/or HA was also observed for montmorillonite colloids, i.e., the rate was 1.02 min-1in the absence of HA and Cd²⁺, 0.97 min-1in the presence of only Cd²⁺, 0.85 min-1in the presence of both HA and Cd²⁺,and 0.30 min-1in the presence of only HA. These results demonstrated the consistent role of HA and Cd²⁺in the mobility of both clay colloids; HA and Cd²⁺both promoted the transport of the two clay colloids. The effect of HA was stronger than that of Cd²⁺. Moreover, an antagonistic interaction between humic acid and cadmium ions occurred, rendering the combined effect of the two lower than that of only HA.Based on the particle size and zeta potential measurement of the clay colloids, we speculated that HA and Cd²⁺promoted the colloid mobility via different mechanisms:HA achieved this by modifying the surface electrical properties of the clay colloids, while Cd²⁺achieved this by inducing particle aggregation. These findings improve current knowledge on the translocation and concentration distribution of natural soil colloids in the environment.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ clay colloidsï¼› Cd2+ï¼› HAï¼› saturated quartz sandï¼› co-transportï¼›

ã€åŸºé‡‘ã€‘ å›½å®¶è‡ªç„¶ç§‘å¦åŸºé‡‘é¢ä¸Šé¡¹ç›®(41672248,41471409);è¾½å®çœåˆ›æ–°å›¢é˜Ÿé¡¹ç›®(LT2015017);è¾½å®çœç‰¹è˜æ•™æŽˆé¡¹ç›®;æ²ˆé˜³å¸‚ä¸é’å¹´ç§‘æŠ€åˆ›æ–°äººæ‰é¡¹ç›®(RC170244);é»‘é¾™æ±Ÿçœå›½åœŸèµ„æºç§‘æŠ€ç ”ç©¶é¡¹ç›®(201507)~~

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Influence of humic acid and cadmium on the transport of clay colloids in saturated porous media

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