A physical–chemical model for the static water retention characteristic of unsaturated porous media

Abstract

Water retention characteristic or water retention curve (WRC) is an important constitutive feature of porous media, and also meanwhile
is an indispensable requirement in hydraulic transport modelling. Previous experiments have indicated that the specific surface area
of porous media has effects on the WRC. It has also been observed that a linear relationship generally exists between the air–water interface
area and the water saturation within unsaturated porous media. However it seems that no detailed study on their internal linkage
with the WRC has been reported yet. This paper, at first gives a review of the development of WRC modelling, then it tries to explain the
water retention characteristic according to the physical and chemical behaviours of the phases involved in unsaturated porous media.
Using the traditional capillary theory, the volume averaging theorem and the advances in physical chemistry of interfacial surfaces, this
paper then derives out a formula which represents the water retention characteristic of porous media. This formula demonstrates the
internal linkage of the WRC to the specific surface area of porosities. It also shows agreements with the experimental observations mathematically.
Based on this formula, a fitting model is proposed for the static WRC of porous media. Finally, this model is tested to fit the
WRC measurements of a wide range of porous materials. Comparison with other main models is presented.