Add to ORKGFractal scaling laws of water transport were found for soils. A water transport model is needed to describe this type of transport in soils. We have developed a water transport equation using the physical model of percolation clusters, employing the mass conservation law, and assuming that hydraulic onductivity is a product of a local component dependent on water content and a scaling component depending on the distance traveled. The model predicts scaling of water contents with a variable x/t v(2dJ) wherefl deviates from the zero value characteristic for the Richards equation. A change in the apparent water diffusivity with the distance is predicted if the apparent diffusivity is calculated using the Richards equation. An equation for the ...
Fractal geometry was deployed to analyse water retention curves (WRC). The three models used to esti...
Systematic experimental deviations from theoretical predictions derived for water retention characte...
The relationship between water content and water potential for a soil is termed its water retention ...
Fractal geometry would appear to offer promise for new insight on water transport in unsaturated soi...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
From a theoretical point of view we study the hydraulic conductivity that appears at the generalized...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1991.Includes bibliographical references (leaves 192...
Observed deviations from traditional concepts of soil-water movement are considered in terms of frac...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Knowledge on the spatio-temporal behavior of soil water has important hydrologic applications. Data ...
The relation between soil pore structure and water retention is complex and is often not well determ...
Fractal mathematics has been used to characterize water and solute transport in porous media and als...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Abstract: Soil hydraulic properties describe the water and the chemical transport processes in the s...
This thesis deals with multiscale mathematical modelling of water and solute movement in soil system...
Fractal geometry was deployed to analyse water retention curves (WRC). The three models used to esti...
Systematic experimental deviations from theoretical predictions derived for water retention characte...
The relationship between water content and water potential for a soil is termed its water retention ...
Fractal geometry would appear to offer promise for new insight on water transport in unsaturated soi...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
From a theoretical point of view we study the hydraulic conductivity that appears at the generalized...
Thesis (Ph. D.)--University of Hawaii at Manoa, 1991.Includes bibliographical references (leaves 192...
Observed deviations from traditional concepts of soil-water movement are considered in terms of frac...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Knowledge on the spatio-temporal behavior of soil water has important hydrologic applications. Data ...
The relation between soil pore structure and water retention is complex and is often not well determ...
Fractal mathematics has been used to characterize water and solute transport in porous media and als...
Spatiotemporal behavior of soil water is essential to understand the science of hydrodynamics. Data ...
Abstract: Soil hydraulic properties describe the water and the chemical transport processes in the s...
This thesis deals with multiscale mathematical modelling of water and solute movement in soil system...
Fractal geometry was deployed to analyse water retention curves (WRC). The three models used to esti...
Systematic experimental deviations from theoretical predictions derived for water retention characte...
The relationship between water content and water potential for a soil is termed its water retention ...