Add to ORKGA catchment scale numerical model is developed based on the three-dimensional transient Richards equation describing fluid flow in variably saturated porous media. The model is designed to take advantage of digital elevation data bases and of information extracted from these data bases by topographic analysis. The practical application of the model is demonstrated in simulations of a small subcatchment of the Konza Prairie reserve near Manhattan, Kansas. In a preliminary investigation of computational issues related to model resolution, we obtain satisfactory numerical results using large aspect ratios, suggesting that horizontal grid dimensions may not be unreasonably constrained by the typically much smaller vertical length scale of a cat...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
The traditional challenge charge to watershed hydrologic modelers has been to predict river discharg...
We propose a modelling framework for distributed hydrological modelling of 103-105 km2 catchments by...
The validity of some of the simplifying assumptions in a conceptual water balance model is investiga...
We will describe a physically-based distributed catchment-scale model for the simulation of coupled ...
The interactions between surface and subsurface hydrologic processes are important in many water re...
We present a numerical, catchment-scale model that solves flow equations of surface and subsurface f...
A distributed catchment scale numerical model for the simulation of coupled surface runoff and subs...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
We present a numerical, catchment-scale model that solves flow equations of surface and subsurface f...
PhD ThesisThere are many circumstances where lateral flows in the upper soil layers above the region...
The measurement and simulation of soil moisture patterns and their spatio-temporal variability are c...
This thesis focuses on the effects of varying spatial scale on the numerical simulation of hydrolog...
none8Hydrological models have become important tools for research as well as decision support. The ...
A number of watershed-scale hydrological models include Richards ’ equation (RE) solutions, but the ...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
The traditional challenge charge to watershed hydrologic modelers has been to predict river discharg...
We propose a modelling framework for distributed hydrological modelling of 103-105 km2 catchments by...
The validity of some of the simplifying assumptions in a conceptual water balance model is investiga...
We will describe a physically-based distributed catchment-scale model for the simulation of coupled ...
The interactions between surface and subsurface hydrologic processes are important in many water re...
We present a numerical, catchment-scale model that solves flow equations of surface and subsurface f...
A distributed catchment scale numerical model for the simulation of coupled surface runoff and subs...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
We present a numerical, catchment-scale model that solves flow equations of surface and subsurface f...
PhD ThesisThere are many circumstances where lateral flows in the upper soil layers above the region...
The measurement and simulation of soil moisture patterns and their spatio-temporal variability are c...
This thesis focuses on the effects of varying spatial scale on the numerical simulation of hydrolog...
none8Hydrological models have become important tools for research as well as decision support. The ...
A number of watershed-scale hydrological models include Richards ’ equation (RE) solutions, but the ...
The objective of this three-part work is the formulation and rigorous analysis of a number of reduce...
The traditional challenge charge to watershed hydrologic modelers has been to predict river discharg...
We propose a modelling framework for distributed hydrological modelling of 103-105 km2 catchments by...