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Relationships between gas-liquid interfacial surface area, liquid saturation, and light transmission in variably saturated porous media Public Deposited

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Abstract
  • Liquid saturation and gas-liquid interfacial area are important parameters for evaluating the transport and fate of contaminants in unsaturated subsurface environments. Recent findings indicate that interfacial surface area controls the relative degree of transmitted light in laboratory systems containing translucent porous media. Equations are derived to estimate the specific gas-liquid interfacial area from the area under the primary-drainage branch of the S[subscript eff]-h characteristic curve as parameterized using common water retention functions. The total area under the curve provides the maximum available specific gas-liquid interfacial area available at residual saturation, which can be incorporated into the relationship to determine the gas-liquid interfacial area at intermediate degrees of saturation via light transmission. Experimental results, and analysis of external data sets, support these findings. Closed-form relationships are presented as enhancements to a recent method for determination of liquid saturations above residual using light transmission. A physically based model is developed and tested for the quantification of liquid contents below residual saturation.
  • Keywords: gas-liquid interfacial surface area, light transmission, liquid saturation, residual saturation, characteristic curve, unsaturated porous media
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  • Niemet, M. R., M. L. Rockhold, N. Weisbrod, and J. S. Selker (2002), Relationships between gas-liquid interfacial surface area, liquid saturation, and light transmission in variably saturated porous media, Water Resources Research, 38(8), 1135, doi:10.1029/2001WR000785.
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  • 38
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  • 8
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  • Funding for this project was provided by the National Science Foundation (grant 9630293) and the Department of Energy (grants DE-FG07-98ER14925 and DE-FG07-99ER62887).
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