Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin

Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin

In this study, the performance of the HEC-HMS model was evaluated for the simulation of rain-runoff processes in a paramo basin of approximately 21. 8 km2, south of Ecuador. The calibration and validation comprises the period of July-2013 to June-2016 with daily data. The Soil Moisture Accounting (S...

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Main Authors: Luis Manuel Timbe Castro, Patricio Javier Crespo Sánchez, Juan José Cabrera-Balarezo
Format: Article
Language:English
Published: Universidad Nacional de Colombia 2019-07-01
Series:Dyna
Subjects:
hec hms
calibration
validation
andean paramo wetlands
rainfall runoff
Online Access:https://revistas.unal.edu.co/index.php/dyna/article/view/70738
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spelling doaj-922bcf50d2604f3e94da1f069d8375ed2020-11-25T01:32:34ZengUniversidad Nacional de Colombia Dyna0012-73532346-21832019-07-018621033834410.15446/dyna.v86n210.7073851733Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basinLuis Manuel Timbe Castro0Patricio Javier Crespo Sánchez1Juan José Cabrera-Balarezo2Universidad de CuencaUniversidad de CuencaUniversidad de CuencaIn this study, the performance of the HEC-HMS model was evaluated for the simulation of rain-runoff processes in a paramo basin of approximately 21. 8 km2, south of Ecuador. The calibration and validation comprises the period of July-2013 to June-2016 with daily data. The Soil Moisture Accounting (SMA) method was used to compute the water flow in the soil. For the rainfall distribution, the Thiessen method was used, while the Evapotranspiration was calculated with the Penman-Monteith equation. The results revealed that (1) 83% of the water infiltrates the soil while only 17% is retained in plants and the soil surface, (2) the water is retained for approximately 42 days before reaching the river and (3) that more than 60% of the flow corresponds to sub-surface flow.https://revistas.unal.edu.co/index.php/dyna/article/view/70738hec hmscalibrationvalidationandean paramo wetlandsrainfall runoff
collection DOAJ
language English
format Article
sources DOAJ
author Luis Manuel Timbe Castro
Patricio Javier Crespo Sánchez
Juan José Cabrera-Balarezo
spellingShingle Luis Manuel Timbe Castro
Patricio Javier Crespo Sánchez
Juan José Cabrera-Balarezo
Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
Dyna
hec hms
calibration
validation
andean paramo wetlands
rainfall runoff
author_facet Luis Manuel Timbe Castro
Patricio Javier Crespo Sánchez
Juan José Cabrera-Balarezo
author_sort Luis Manuel Timbe Castro
title Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
title_short Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
title_full Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
title_fullStr Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
title_full_unstemmed Evaluation of the HEC-HMS model for the hydrological simulation of a paramo basin
title_sort evaluation of the hec-hms model for the hydrological simulation of a paramo basin
publisher Universidad Nacional de Colombia
series Dyna
issn 0012-7353
2346-2183
publishDate 2019-07-01
description In this study, the performance of the HEC-HMS model was evaluated for the simulation of rain-runoff processes in a paramo basin of approximately 21. 8 km2, south of Ecuador. The calibration and validation comprises the period of July-2013 to June-2016 with daily data. The Soil Moisture Accounting (SMA) method was used to compute the water flow in the soil. For the rainfall distribution, the Thiessen method was used, while the Evapotranspiration was calculated with the Penman-Monteith equation. The results revealed that (1) 83% of the water infiltrates the soil while only 17% is retained in plants and the soil surface, (2) the water is retained for approximately 42 days before reaching the river and (3) that more than 60% of the flow corresponds to sub-surface flow.
topic hec hms
calibration
validation
andean paramo wetlands
rainfall runoff
url https://revistas.unal.edu.co/index.php/dyna/article/view/70738
work_keys_str_mv AT luismanueltimbecastro evaluationofthehechmsmodelforthehydrologicalsimulationofaparamobasin
AT patriciojaviercresposanchez evaluationofthehechmsmodelforthehydrologicalsimulationofaparamobasin
AT juanjosecabrerabalarezo evaluationofthehechmsmodelforthehydrologicalsimulationofaparamobasin
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