Models of water imbibition in untreated and treated porous media validated by quantitative magnetic resonance imaging
Articolo
Data di Pubblicazione:
2008
Abstract:
Fluid imbibition affects almost every activity that directly or indirectly involves porous media,
including oil reservoir rocks, soils, building materials, and countless others, including biological
materials. In this paper, magnetic resonance imaging MRI has been applied to study water
imbibition in a porous medium, in which capillary properties are artificially changed. As a model
system, samples of Lecce stone, a material of cultural heritage interest, were analyzed before and
after treatment with a protective polymer Silirain-50 or Paraloid PB72. By using MRI, we can
visualize the presence of water inside each sample and measure the height zt reached by the
wetting front as a function of time during experiments of capillary absorption before and after
treatment. The sorptivity S, defined as the initial slope of z versus t1/2, has been determined before treatment and through both treated and untreated faces after treatment. Very good fits to the data were obtained with theoretical and empirical models of absorption kinetics, starting from the Washburn model for capillary rise, adapted by others to homogeneous porous media, and modified by us for application to a sample having a thin low-permeability layer on either surface as a result of a treatment process. This gives us parameters to quantify the effects on imbibition of the changes in the capillary properties. It is known that the Paraloid treatment preferentially affects the larger pore channels and the Silirain the smaller, and our results show this and illustrate the roles played by the different classes of pore sizes.
including oil reservoir rocks, soils, building materials, and countless others, including biological
materials. In this paper, magnetic resonance imaging MRI has been applied to study water
imbibition in a porous medium, in which capillary properties are artificially changed. As a model
system, samples of Lecce stone, a material of cultural heritage interest, were analyzed before and
after treatment with a protective polymer Silirain-50 or Paraloid PB72. By using MRI, we can
visualize the presence of water inside each sample and measure the height zt reached by the
wetting front as a function of time during experiments of capillary absorption before and after
treatment. The sorptivity S, defined as the initial slope of z versus t1/2, has been determined before treatment and through both treated and untreated faces after treatment. Very good fits to the data were obtained with theoretical and empirical models of absorption kinetics, starting from the Washburn model for capillary rise, adapted by others to homogeneous porous media, and modified by us for application to a sample having a thin low-permeability layer on either surface as a result of a treatment process. This gives us parameters to quantify the effects on imbibition of the changes in the capillary properties. It is known that the Paraloid treatment preferentially affects the larger pore channels and the Silirain the smaller, and our results show this and illustrate the roles played by the different classes of pore sizes.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Quantitative magnetic resonance imaging; hydrophobic treatments; models of water imbibition; stone conservation
Elenco autori:
Camaiti, Mara
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