Diffusion in Saturated Clayey Barrier Medium
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Publication Details
Author list: Agbenyeku EE, Muzenda E, Msibi MI
Publisher: Elsevier: Creative Commons Attribution Non-Commercial No-Derivatives License
Place: AMSTERDAM
Publication year: 2016
Journal: Procedia Manufacturing (2351-9789)
Journal acronym: PROCEDIA MANUF
Volume number: 7
Start page: 269
End page: 276
Number of pages: 8
eISBN: *****************
ISSN: 2351-9789
Languages: English-Great Britain (EN-GB)
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Abstract
The design of clay/clayey barriers for the containment of buried wastes conventionally has been based on the assumption that the hydraulic conductivity controls the rate of leachate percolation. However, recent studies show that diffusion is a controlling mechanism of solute transport in many fine-grained soils. Although the measurement of the hydraulic conductivity of fine-grained soils is comparatively a common practice in soil engineering, the measurement of diffusion coefficients is not. As such, it is becoming increasingly essential to assess the movement of chemicals through soil barriers due to diffusion. Studies indicate that diffusion may be an important, if not dominant mechanism of contaminant transport through waste containment barriers. This paper is therefore in line with the efforts made in the measurement of diffusion coefficients of inorganic chemicals passing through saturated soils. Herein, both steady-state and transient equations relating to the diffusive transport of inorganic chemicals are presented. A number of factors affecting diffusion coefficients are identified and a simple method for measuring diffusion coefficients for a compacted barrier is defined. The definition for the diffusion coefficient of soil called the effective diffusion coefficient, D* is seen to vary widely. Generally, the variations are due to the different factors affecting diffusion of solutes in soil and the various ways of including the volumetric water content in the governing equations. Hence, errors in interpretation and comparison of D* values can occur if the appropriate definition is not used. In a nutshell, the concept of diffusion may be unfamiliar to many soil specialists, worsened by the myriad terminologies linked to the study of diffusion in soils. Thus the study attempts to acquaint soil engineers with vital information for the measurement of diffusion coefficients for barrier designs. (C) 2017 Published by Elsevier B.V.
Keywords
Contaminant, diffusion, Diffusion coefficients, Earthen barrier, Leahate, Percolation
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