Site-Specific Retention of Colloids at Rough Rock Surfaces

Darbha, Gopala Krishna; Luetzenkirchen, Johannes; Schäfer, Thorsten

doi:10.1021/es301969m

Cited by 38 publications

(15 citation statements)

References 80 publications

(145 reference statements)

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“…It therefore appears plausible that Na humate attaches onto the rougher surfaces of unwashed Dorsilit8 sand, but not onto the smoother acid-washed surfaces of glass beads and Ottawa sand. The total interaction energy as sum of the van der Waals and electrical double layer forces between colloids and glass bead collectors 34 and rough rock surfaces 35 has previously been shown to decrease with increasing collector roughness, with colloids being attached preferentially by sorption onto surfaces with a high density of small protuberances. Similarly, the attachment of Na humate to the surfaces of relatively smooth glass beads and Ottawa sand was also expected to be less than to the rougher surfaces of unwashed Dorsilit8 sand.…”

Section: Resultsmentioning

confidence: 99%

Impact of Sodium Humate Coating on Collector Surfaces on Deposition of Polymer-Coated Nanoiron Particles

Micić

Schmid

Bossa

et al. 2017

Environ. Sci. Technol.

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The affinity between nanoscale zerovalent iron (nano-ZVI) and mineral surfaces hinders its mobility, and hence its delivery into contaminated aquifers. We have tested the hypothesis that the attachment of poly(acrylic acid)-coated nano-ZVI (PAA-nano-ZVI) to mineral surfaces could be limited by coating such surfaces with sodium (Na) humate prior to PAA-nano-ZVI injection. Na humate was expected to form a coating over favorable sites for PAA-nano-ZVI attachment and hence reduce the affinity of PAA-nano-ZVI for the collector surfaces through electrosteric repulsion between the two interpenetrating charged polymers. Column experiments demonstrated that a low concentration (10 mg/L) Na humate solution in synthetic water significantly improved the mobility of PAA-nano-ZVI within a standard sand medium. This effect was, however, reduced in more heterogeneous natural collector media from contaminated sites, as not an adequate amount of the collector sites favorable for PAA-nano-ZVI attachment within these media appear to have been screened by the Na humate. Na humate did not interact with the surfaces of acid-washed glass beads or standard Ottawa sand, which presented less surface heterogeneity. Important factors influencing the effectiveness of Na humate application in improving PAA-nano-ZVI mobility include the solution chemistry, the Na humate concentration, and the collector properties.

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Section: Resultsmentioning

confidence: 99%

Impact of Sodium Humate Coating on Collector Surfaces on Deposition of Polymer-Coated Nanoiron Particles

Micić

Schmid

Bossa

et al. 2017

Environ. Sci. Technol.

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“…We assessed surface roughness only qualitatively, but other authors also used quantitative approaches, e.g. vertical scanning interferometry (Darbha et al, 2010(Darbha et al, , 2012 to determine the surface roughness.…”

Section: Colloid Deposition Attributesmentioning

confidence: 99%

Transport of barrel and spherical shaped colloids in unsaturated porous media

Knappenberger

Aramrak

Flury

2015

Journal of Contaminant Hydrology

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Model colloids are usually spherical, but natural colloids have irregular geometries. Transport experiments of spherical colloids may not reflect the transport characteristics of natural colloids in porous media. We investigated saturated and unsaturated transport of colloids with spherical and angular shapes under steady-state, flow conditions. A pulse of negatively-charged colloids was introduced into a silica sand column at three different effective water saturations (Se = 0.31, 0.45, and 1.0). Colloids were introduced under high ionic strength of [106]mM to cause attachment to the secondary energy minimum and later released by changing the pore water to low ionic strength. After the experiment, sand was sampled from different depths (0, -4, and -11 cm) for scanning electron microscopy (SEM) analysis and colloid extraction. Water saturation affected colloid transport with more retention under low than under high saturation. Colloids were retained and released from a secondary energy minimum with more angular-shaped colloids being retained and released. Colloids extracted from the sand revealed highest colloid deposition in the top layer and decreasing deposition with depth. Pore straining and grain-grain wedging dominated colloid retention.

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“…Fischer and colleagues [28] relayed that geochemistry affects surface roughness, with the elements U, P, Cu, and Zn on black slates being inversely correlated with (the surface parameter) F. More recently, Fischer and colleagues [29] discovered a positive linear correlation between surface roughness, on surfaces of <100 nm, and adsorbed particle density. They also found a minimum roughness range (of at least 50 nm for particles with diameter of 1 µm) for initial colloid deposition, which occurred primarily at micrite (mainly calcite, but also with traces of quartz and ankerite) grain boundaries, where surface steps were established, forming small protrusions [30]. A scan area of 300 × 300 µm revealed that increased roughness increases the deposition of colloids, but chiefly at low concentrations.…”

Section: Discussionmentioning

confidence: 95%

Measuring Surface Roughness through the Use of Digital Photography and Image Processing

Thornbush

2014

IJG

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This paper aims to provide a quantitative method that employs image processing in the assessment of surface roughness based on digital photograph field surveys, as in previous studies employing the outdoor integrated digital photography and image processing (O-IDIP) method. Digital photographs were taken on two different days under contrasting outdoor lighting conditions (overcast versus clear sky). Images were captured mounted on a tripod close up to the surface of a 380-year-old wall located at the University of Oxford Botanic Garden in the City of Oxford, UK. Sampling points were established at regular intervals along the border wall and encompassed sections facing west, north, and east, respectively along the survey. Two photographs were taken with a digital camera at each sampling point, one containing a color chart used to calibrate outdoor lighting conditions across images, which was excluded from the other photographic pair. Histogram-based quantification was performed based on images converted to Lab Color mode. The 10-step calibration procedure presented in this paper required more adjustments of contrast. However, more adjustments were not required under a clear sky. Std Dev L measurements were used to establish categories in a simple 3-point roughness index, namely the surface roughness index (SRI). The results denote that pitting did not affect surface roughness measurements. The study shows that it is possible to use Std Dev L measurements to quantify surface roughness on a comparative basis.

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Site-Specific Retention of Colloids at Rough Rock Surfaces

Cited by 38 publications

References 80 publications

Impact of Sodium Humate Coating on Collector Surfaces on Deposition of Polymer-Coated Nanoiron Particles

Impact of Sodium Humate Coating on Collector Surfaces on Deposition of Polymer-Coated Nanoiron Particles

Transport of barrel and spherical shaped colloids in unsaturated porous media

Measuring Surface Roughness through the Use of Digital Photography and Image Processing

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