Water retention curve (WRC) is analyzed by means of the fractal geometry approach. Three models accounting for the fractal distribution of either the pore and solid phase of unsaturated porous media have been considered. By using data collected during a field scale internal drainage, we determine the functional relationship between the WRC, and the fractal dimension(s). In particular, it is shown that the fractal scaling of the WRC is feasible provided that a large enough set of measurements at the lowest water contents is available
Water retention characteristic or water retention curve (WRC) is an important constitutive feature o...
The soil water retention curve (SWRC) is a fundamental hydraulic property majorly used to study flow...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
Water retention curve (WRC) is analyzed by means of the fractal geometry approach. Three models acco...
AbstractWater retention curve (WRC) is analyzed by means of the fractal geometry approach. Three mod...
Water retention curve (WRC) is analyzed by means of the fractal geometry approach. Three models acco...
Fractal geometry was deployed to analyse water retention curves (WRC). The three models used to esti...
The relationship between water content and water potential for a soil is termed its water retention ...
The dependence of the soil water content ϑ upon the matric potential ψ is studied within a fractal a...
Abstract. Fractal models of porous media are of interest in numerous scientific disciplines, includi...
The study of spatial variability of specific quantities characterizing the unsaturated soil is very ...
This paper presents a simple fractal model to quantify the effects of initial porosity on the soil-w...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1991.Includes bibliographical references (leaves 192...
The fitting analysis of soil-water characteristic curve (SWCC) is the foundation of engineering prop...
Water retention characteristic or water retention curve (WRC) is an important constitutive feature o...
The soil water retention curve (SWRC) is a fundamental hydraulic property majorly used to study flow...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
Water retention curve (WRC) is analyzed by means of the fractal geometry approach. Three models acco...
AbstractWater retention curve (WRC) is analyzed by means of the fractal geometry approach. Three mod...
Water retention curve (WRC) is analyzed by means of the fractal geometry approach. Three models acco...
Fractal geometry was deployed to analyse water retention curves (WRC). The three models used to esti...
The relationship between water content and water potential for a soil is termed its water retention ...
The dependence of the soil water content ϑ upon the matric potential ψ is studied within a fractal a...
Abstract. Fractal models of porous media are of interest in numerous scientific disciplines, includi...
The study of spatial variability of specific quantities characterizing the unsaturated soil is very ...
This paper presents a simple fractal model to quantify the effects of initial porosity on the soil-w...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1991.Includes bibliographical references (leaves 192...
The fitting analysis of soil-water characteristic curve (SWCC) is the foundation of engineering prop...
Water retention characteristic or water retention curve (WRC) is an important constitutive feature o...
The soil water retention curve (SWRC) is a fundamental hydraulic property majorly used to study flow...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...