Abstract
This study examines the effects of two representative colloid-sized clay particles (kaolinite, KGa-1b and montmorillonite, STx-1b) on the transport of formaldehyde (FA) in unsaturated porous media. The transport of FA was examined with and without the presence of clay particles under various flow rates and various levels of saturation in columns packed with quartz sand, under unsaturated conditions. The experimental results clearly suggested that the presence of clay particles retarded by up to ~23% the transport of FA in unsaturated packed columns. Derjaguin–Landau–Verwey–Overbeek (DLVO) interaction energy calculations demonstrated that permanent retention of clay colloids at air-water interfaces (AWI) and solid-water interfaces (SWI) was negligible, except for the pair (STx-1b)–SWI. The experimental results of this study showed that significant clay colloid retention occurred in the unsaturated column, especially at low flow rates. This deviation from DLVO predictions may be explained by the existence of additional non-DLVO forces (hydrophobic and capillary forces) that could be much stronger than van der Waals and double layer forces. The present study shows the important role of colloids, which may act as carriers of contaminants.
Highlights
Colloid-sized particles are in great abundance in unsaturated or vadose zones, and they are capable of binding a variety of contaminants
The influence of two clay colloid particles (KGa-1b and STx -1b) on the transport of FA in unsaturated columns packed with quartz sand under various flow conditions was investigated
The results of this study show that the presence of kaolinite and montmorillonite colloids retarded by up to ~23% the transport of FA in unsaturated packed columns
Summary
Colloid-sized particles are in great abundance in unsaturated or vadose zones, and they are capable of binding a variety of contaminants. Colloid-sized particles either facilitate or hinder contaminant migration in the subsurface. Many studies have focused on colloid and colloid facilitated contaminant transport in porous media [2,3,4,5]. Several studies have focused on colloid transport in the presence of metals [6], pesticides [7,8], and pharmaceuticals [9,10,11]. The majority of colloid transport studies are focused on fully saturated porous media [17,18]. Little research has been conducted on the transport of colloids in the presence of contaminants under water-unsaturated conditions [19,20,21,22]
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