Add to ORKGIn this project an implementation and calibration of a simulator is realized. The simulator works using a new version of a model named “Variable Infiltration Capacity” (VIC). This model simulates the hydrologic cycle, concretely the land surface behavior (processes such as infiltration of water, evaporation from soil and plants, runoff…) for the catchment located in the target land. The model is used to predict the amount of water available in that catchment per year for hydropower production applications. The VIC model has been created at the University of Washington, in concrete at the Department of Civil and Environmental Engineering and under the direction of Dennis P. Lettenmaier. Development and maintenance of the current official ve...
[1] Current land surface models use increasingly complex descriptions of the processes that they rep...
Com 6 milhões de km2, a bacia Amazônica é o maior sistema hidrográfico do mundo, com descarga estima...
Accurate information about water reserves is crucial in a world where the water demand will increase...
In this project an implementation and calibration of a simulator is realized. The simulator works us...
The Variable Infiltration Capacity (VIC) model is a macroscale semi-distributed hydrologic model. V...
The Variable Infiltration Capacity (VIC) macroscale hydrological model (MHM) has been developed over...
The VIC model was used for the ISIMIP2b the Global water sector to simulate long-term water and ener...
Questions related to historical and future water resources and scarcity have been addressed by sever...
Section: Hydrology - Posters Section: Best Practices in Model Verification and Uncertainty Analysis ...
2012 S.C. Water Resources Conference - Exploring Opportunities for Collaborative Water Research, Pol...
Abstract—Understanding the hydrologic response of very large river basins offers new challenges and ...
Better representations of groundwater processes need to be incorporated into large-scale hydrologica...
This study presents diagnostic evaluation of two large-domain hydrologic models: the mesoscale Hydro...
The Variable Infiltration Capacity (VIC) Macroscale Hydrologic Model # README.txt - VIC Model Re...
This paper presents the application of the Variable Infiltration Capacity (VIC), a macroscale hydrol...
[1] Current land surface models use increasingly complex descriptions of the processes that they rep...
Com 6 milhões de km2, a bacia Amazônica é o maior sistema hidrográfico do mundo, com descarga estima...
Accurate information about water reserves is crucial in a world where the water demand will increase...
In this project an implementation and calibration of a simulator is realized. The simulator works us...
The Variable Infiltration Capacity (VIC) model is a macroscale semi-distributed hydrologic model. V...
The Variable Infiltration Capacity (VIC) macroscale hydrological model (MHM) has been developed over...
The VIC model was used for the ISIMIP2b the Global water sector to simulate long-term water and ener...
Questions related to historical and future water resources and scarcity have been addressed by sever...
Section: Hydrology - Posters Section: Best Practices in Model Verification and Uncertainty Analysis ...
2012 S.C. Water Resources Conference - Exploring Opportunities for Collaborative Water Research, Pol...
Abstract—Understanding the hydrologic response of very large river basins offers new challenges and ...
Better representations of groundwater processes need to be incorporated into large-scale hydrologica...
This study presents diagnostic evaluation of two large-domain hydrologic models: the mesoscale Hydro...
The Variable Infiltration Capacity (VIC) Macroscale Hydrologic Model # README.txt - VIC Model Re...
This paper presents the application of the Variable Infiltration Capacity (VIC), a macroscale hydrol...
[1] Current land surface models use increasingly complex descriptions of the processes that they rep...
Com 6 milhões de km2, a bacia Amazônica é o maior sistema hidrográfico do mundo, com descarga estima...
Accurate information about water reserves is crucial in a world where the water demand will increase...