Relationship between Water Vapor Sorption Kinetics and Clay Surface Properties

Relationship between Water Vapor Sorption Kinetics and Clay Surface Properties

AbstractA complete understanding of soil–water interactions and the corresponding mechanical behavior of unsaturated soils requires differentiating adsorptive and capillary components of water retention and dominant water uptake mechanisms. Water vapor sorption (WVS) isotherms have historically been...

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Bibliographic Details
Published in:Journal of geotechnical and geoenvironmental engineering Vol. 146; no. 9
Main Authors: Akin, Idil Deniz, Likos, William J
Format: Journal Article
Language:English
Published: New York American Society of Civil Engineers 01-09-2020
Subjects:
Adsorptivity
Cation exchange
Cation exchanging
Cations
Clay
Clay minerals
Clay soils
Exchange capacity
Heat exchange
Heat of hydration
Hydration
Kinetics
Mechanical properties
Relative humidity
Soil
Soil mechanics
Soil water
Soils
Sorption
Specific surface
Surface area
Surface chemistry
Surface properties
Technical Note
Technical Notes
Unsaturated soils
Uptake
Water uptake
Water vapor
Water vapour
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Summary:AbstractA complete understanding of soil–water interactions and the corresponding mechanical behavior of unsaturated soils requires differentiating adsorptive and capillary components of water retention and dominant water uptake mechanisms. Water vapor sorption (WVS) isotherms have historically been used to quantify the water uptake behavior of clayey soils and to determine related mineral surface properties, such as specific surface area and cation exchange capacity. This paper introduces the WVS kinetics curve as a new measure for gaining additional insights into the WVS behavior of clays. The sorption rate calculated from WVS kinetics curves scales with the cation heat of hydration at low relative humidity (RH<10%), indicating that cation hydration is the first mechanism for water uptake by dry clays. Sorption rates up to 25% RH are related to monolayer adsorption and specific surface area (SSA). A distinct relationship is proposed to relate SSA to the sorption rate normalized with predominant cation valence.
ISSN:1090-0241
1943-5606
DOI:10.1061/(ASCE)GT.1943-5606.0002337