Impact of pore fluid chemistry on fine-grained sediment fabric and compressibility
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Abstract
Fines, defined here as grains or particles, less than 75 μm in diameter, exist nearly ubiquitously in natural sediment, even those classified as coarse. Macroscopic sediment properties, such as compressibility, which relates applied effective stress to the resulting sediment deformation, depend on the fabric of fines. Unlike coarse grains, fines have sizes and masses small enough to be more strongly influenced by electrical interparticle forces than by gravity. These electrical forces acting through pore fluids are influenced by pore fluid chemistry changes. Macroscopic property dependence on pore fluid chemistry must be accounted for in sediment studies involving subsurface flow and sediment stability analyses, as well as in engineered flow situations such as groundwater pollutant remediation, hydrocarbon migration, or other energy resource extraction applications. This study demonstrates how the liquid limit‐based electrical sensitivity index can be used to predict sediment compressibility changes due to pore fluid chemistry changes. Laboratory tests of electrical sensitivity, sedimentation, and compressibility illustrate mechanisms linking microscale and macroscale processes for selected pure, end‐member fines. A specific application considered here is methane extraction via depressurization of gas hydrate‐bearing sediment, which causes a dramatic pore water salinity drop concurrent with sediment being compressed by the imposed effective stress increase.
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | Impact of pore fluid chemistry on fine-grained sediment fabric and compressibility |
| Series title | Journal of Geophysical Research |
| DOI | 10.1029/2018JB015872 |
| Volume | 123 |
| Issue | 7 |
| Year Published | 2018 |
| Language | English |
| Publisher | American Geophysical Union |
| Contributing office(s) | Woods Hole Coastal and Marine Science Center |
| Description | 20 p. |
| First page | 5495 |
| Last page | 5514 |
| Google Analytic Metrics | Metrics page |