Add to ORKGWe develop a digital computer model, based upon equilibrium temperature theory, of the magnitudes of the components of the energy balance for a mountainous topographic surface. The model includes an algorithm for calculating slope, exposure, and horizon information for every point on a digitized grid. Incoming solar and thermal radiation are then simulated for every point. At present the model is designed for clear‐sky conditions, but it could be modified for cloudy skies. Air temperature and humidity variations are specified by externally defined relations, and values for albedo and soil thermal properties are specified for every point on the grid. Wind speed variation over the grid is not modeled, but is specified by an empirical function...
The ability to quantify soil-atmosphere water and energy exchange is important in understanding agr...
AbstractMany landscapes are comprised of a variety of vegetation types with different canopy structu...
Solar radiation has been a major input to agricultural, hydrological, and ecological modeling. Howev...
We develop a digital computer model, based upon equilibrium temperature theory, of the magnitudes of...
A simple model of surface and sub -surface soil temperature was developed at the watershed scale ( -...
A simple model of surface and sub-surface soil temperature was developed at the watershed scale (-10...
ABSTRACT: In mountainous terrain, landscape strongly influences the thermal state of snow. An energy...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
Thesis (Ph.D.)--University of Washington, 2017-06Physically-based snow models form the basis of our ...
Typescript (photocopy).Ridge-furrow tillage systems establish heat and moisture fluxes in two dimens...
Thesis (Ph.D.)--University of Washington, 2017-06Physically-based snow models form the basis of our ...
A clear‐sky spectral solar radiation model for direct and diffuse fluxes, combined with topographic ...
A clear‐sky spectral solar radiation model for direct and diffuse fluxes, combined with topographic ...
The ability to quantify soil-atmosphere water and energy exchange is important in understanding agr...
The ability to quantify soil-atmosphere water and energy exchange is important in understanding agr...
AbstractMany landscapes are comprised of a variety of vegetation types with different canopy structu...
Solar radiation has been a major input to agricultural, hydrological, and ecological modeling. Howev...
We develop a digital computer model, based upon equilibrium temperature theory, of the magnitudes of...
A simple model of surface and sub -surface soil temperature was developed at the watershed scale ( -...
A simple model of surface and sub-surface soil temperature was developed at the watershed scale (-10...
ABSTRACT: In mountainous terrain, landscape strongly influences the thermal state of snow. An energy...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
Thesis (Ph.D.)--University of Washington, 2017-06Physically-based snow models form the basis of our ...
Typescript (photocopy).Ridge-furrow tillage systems establish heat and moisture fluxes in two dimens...
Thesis (Ph.D.)--University of Washington, 2017-06Physically-based snow models form the basis of our ...
A clear‐sky spectral solar radiation model for direct and diffuse fluxes, combined with topographic ...
A clear‐sky spectral solar radiation model for direct and diffuse fluxes, combined with topographic ...
The ability to quantify soil-atmosphere water and energy exchange is important in understanding agr...
The ability to quantify soil-atmosphere water and energy exchange is important in understanding agr...
AbstractMany landscapes are comprised of a variety of vegetation types with different canopy structu...
Solar radiation has been a major input to agricultural, hydrological, and ecological modeling. Howev...