Effects of Iron Oxidation State on the Texture and Structural Order of Na-Nontronite Gels

Stucki, Joseph W.

doi:10.1346/ccmn.1991.0390204

Cited by 62 publications

(61 citation statements)

References 22 publications

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“…The effect of oxidation state on bulk density is understandable in light of earlier studies which revealed that Fe reduction decreases the water content of the clay at a given applied pressure (Stucki et al, 1984c), decreases the specific surface area (Lear and Stucki, 1989), and increases the particle size (Stucki and Tessier, 1991). The reduction of structural Fe(III) to Fe(II) consolidates smectite particles from an extensive network of small crystals (1-6 layers thick) to distinct particles of limited size in the a-b direction and about 20-40 layers thick (Stucki and Tessier, 1991).…”

Section: In-suspension Experimentsmentioning

confidence: 94%

“…The reduction of structural Fe(III) to Fe(II) consolidates smectite particles from an extensive network of small crystals (1-6 layers thick) to distinct particles of limited size in the a-b direction and about 20-40 layers thick (Stucki and Tessier, 1991). The stacking of layers is also more ordered when the clay is reduced.…”

Section: In-suspension Experimentsmentioning

confidence: 99%

“…Permeability to organic compounds seems to be greater than to water (Anderson, 1981), probably because of the hydrophilic nature of clay surfaces; but the accumulation of an organic compound over time may alter the water-retention capacity of the clay. Also, the permeability to water changes with the water content of the compacted clay (Monserrate, 1982 Studies by Stucki and co-workers (Stucki et al, 1984b(Stucki et al, , 1984cStucki, 1987, 1989;Stucki and Tessier, 1991;Khaled and Stucki, 1991) revealed that the oxidation state of structural Fe in smectite produces large differences in many properties which are fundamental to the performance of clay liners, swelling pressure, cation exchange capacity, total layer charge, specific surface area, and microstructure or texture.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Structural Iron Reduction on the Hydraulic Conductivity of Na-Smectite

Shen

Stucki

Boast

1992

Clays and clay miner.

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Abstract--The long-term impermeability of clay barriers in waste disposal facilities and hydraulic structures is of critical importance to environmental, agricultural, and industrial concerns. Changes in the oxidation state of Fe in the constituent clays of compacted clay barriers may degrade the hydraulic conductivity of these structures because other properties related to hydraulic conductivity, such as swelling, gel microstructure, and particle size, are greatly altered by the oxidation state. Two Na-saturated smectites (SWa-1 and API 25) were reduced by sodium dithionite (Na2S204), both in suspension and in situ after consolidation, to examine the effects of structural Fe reduction on hydraulic conductivity. Results indicated that the hydraulic conductivity depended on both the oxidation state and the consolidation history of the clay. The hydraulic conductivity of clay reduced in suspension before consolidation was lower than that of oxidized clay. Initially reduced smectite, thus, may be compactable to a less-permeable material with higher bulk density. But reduction of smectite in situ after consolidation increased the hydraulic conductivity and its variability. The oxidized state of clay liners should, therefore, be preserved.

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Section: In-suspension Experimentsmentioning

confidence: 94%

Section: In-suspension Experimentsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of Structural Iron Reduction on the Hydraulic Conductivity of Na-Smectite

Shen

Stucki

Boast

1992

Clays and clay miner.

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“…A typical native bentonite, such as the widely studied Wyoming Bentonite MX-80, consists of nearly 3 wt% Fe, the major part being structural Fe(III) replacing Al 3+ in the aluminum octahedral sheet [3]. At elevated Fe(II)/Fe Tot ratios however, significant changes in several physical properties such as the swelling pressure, cation exchange capacity (CEC), total layer charge, specific surface area as well as microstructural properties has been found in previous studies [4][5][6][7][8][9]. After the initial saturation of the bentonite barrier, anoxic conditions are expected.…”

Section: Introductionmentioning

confidence: 99%

Influence of γ-radiation on the reactivity of montmorillonite towards H2O2

Holmboe

Jönsson

Wold

2012

Radiation Physics and Chemistry

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Compacted and water saturated bentonite will be used as an engineered barrier in deep geological repositories for radioactive waste in many countries. Due to the high dose rate of ionizing radiation outside the canisters holding the nuclear waste, radiolysis of the interlayer and pore water in the compacted bentonite is unavoidable. Upon reaction with the oxidizing and reducing species formed by water radiolysis (OH • , e -(aq) , H • , H 2 0 2 , H 2 , H0 2• , H 3 0 + ), the overall redox properties in the bentonite barrier may change. In this study the influence of γ-radiation on the structural Fe(II)/Fe(III) content in montmorillonite and its reactivity towards hydrogen peroxide (H 2 O 2 ) was investigated in parallel experiments. The results show that under anoxic conditions the structural Fe(II)/Fe Tot ratio of dispersed montmorillonite are increased from ≤ 3 to 25-30% after γ-doses comparable to repository conditions. Furthermore, a strong correlation between the structural Fe(II)/Fe Tot ratio and the H 2 O 2 decomposition rate in montmorillonite dispersions was found. This correlation was further verified in experiments with consecutive H 2 O 2 additions, since the structural Fe(II)/Fe Tot ratio was seen to decrease concordantly. This work shows that the structural iron in montmorillonite could be a sink for one of the major oxidants formed upon water radiolysis in the bentonite barrier, H 2 O 2 .

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“…The redox state of the clay and knowledge of how to control or exploit it are of great importance to agriculture, industry, and the environment because of their profound effects on many physical-chemical properties of the clay Lear and Stucki, 1989;Komadel et al, 1990;Khaled and Stucki, 1991;Stucki and Tessier, 1991).…”

Section: Introductionmentioning

confidence: 99%

Reduction of Structural Iron in Ferruginous Smectite by Free Radicals

Gan

1992

Clays and clay miner.

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Abstract--The oxidation state of structural iron greatly influences the physical-chemical properties of clay minerals, a phenomenon that may have significant implications for pollutant fate in the environment, for agricultural productivity, and for industrial uses of clays. Knowledge of redox mechanisms is fundamental to understanding the underlying basis for iron's effects on clays. Past studies revealed that the extent of Fe reduction varied depending on the reducing agent used, but this variation may not have been a simple function of the reduction potential of the reducing agent. The objective of this study was to identify the relationship between the Fe reduction mechanism and free radical activity in the reducing agent. Several reducing agents and their mixtures with the Na-saturated, 0.5 to 2 #m size fraction of ferruginous smectite (SWa-1) were analyzed by electron spin resonance (ESR) spectroscopy to determine the presence of unpaired electrons or free radicals. Only NazS204 exhibited paramagnetic free-radical behavior with a signal at about g = 2.011, which was attributed to the sulphoxylate (SO2-.) free radical. The free radical was labile in aqueous solution, and the ability of NazSzO4 solution to reduce structural Fe in the smectite decreased with age of the solution and paralleled the disappearance of the free radical signal in the ESR spectrum. The paramagnetic species was preserved and enhanced ifNa2SzO4 was added to the clay suspension, indicating that either the clay surface stabilized the SO2 9 radical or the additional unpaired electrons were produced in the clay structure.

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Effects of Iron Oxidation State on the Texture and Structural Order of Na-Nontronite Gels

Cited by 62 publications

References 22 publications

Effects of Structural Iron Reduction on the Hydraulic Conductivity of Na-Smectite

Effects of Structural Iron Reduction on the Hydraulic Conductivity of Na-Smectite

Influence of γ-radiation on the reactivity of montmorillonite towards H2O2

Reduction of Structural Iron in Ferruginous Smectite by Free Radicals

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