Unidimensional, non-stationary modeling of a high mountain
 river in southern Ecuador

Ana Ofelia Ochoa Berrezueta; Ana Ofelia Ochoa Berrezueta; Ana Ofelia Ochoa Berrezueta; Luis Manuel Timbe Castro; Angel Oswaldo Vazquez Patiño; Luis Manuel Timbe Castro; Angel Oswaldo Vazquez Patiño; Angel Oswaldo Vazquez Patiño; Angel Oswaldo Vazquez Patiño; Esteban Patricio Samaniego Alvarado; Esteban Patricio Samaniego Alvarado; Esteban Patricio Samaniego Alvarado

Unidimensional, non-stationary modeling of a high mountain river in southern Ecuador

Ana Ofelia Ochoa Berrezueta, Ana Ofelia Ochoa Berrezueta, Ana Ofelia Ochoa Berrezueta, Luis Manuel Timbe Castro, Angel Oswaldo Vazquez Patiño, Luis Manuel Timbe Castro, Angel Oswaldo Vazquez Patiño, Angel Oswaldo Vazquez Patiño, Angel Oswaldo Vazquez Patiño, Esteban Patricio Samaniego Alvarado, Esteban Patricio Samaniego Alvarado, Esteban Patricio Samaniego Alvarado

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Resumen

Floods represent a severe cause of deaths and economic loss. In order to prevent, mitigate, and reduce flood risks and their consequences, hydraulic models allow analysing and mapping floods. The results of an appropriate model that works under local conditions are a valuable tool for local governments leading to sustainable management of floodplains. Around the world, high-mountain rivers have been poorly modelled; their orography and data scarcity present an extra research difficulty. Considering that all one-dimensional models assume that the river bed slope is small, this study evaluated two widely applied one-dimensional models: Mike11 and HEC-RAS, for modelling a high mountain river. Their best configuration under complex topographical conditions and their potential use was assessed by calibration and validation of the models. We found that the HEC-RAS model was not able to define a stable solution of the hydrodynamic modelling of the river, while Mike11 yielded stable results. Furthermore, the validation of the Mike11 model showed good performance. This study sets a precedent in the 1D modelling of high-mountain rivers with data scarcity.

Idioma original	Español
Publicación	Maskana
Estado	Publicada - 2018
Publicado de forma externa	Sí

Palabras clave

Modelación de ríos 1D; HEC-RAS; Mike11; Ríos de alta montaña; Ecuador

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Ochoa Berrezueta, A. O., Ochoa Berrezueta, A. O., Ochoa Berrezueta, A. O., Timbe Castro, L. M., Vazquez Patiño, A. O., Timbe Castro, L. M., Vazquez Patiño, A. O., Vazquez Patiño, A. O., Vazquez Patiño, A. O., Samaniego Alvarado, E. P., Samaniego Alvarado, E. P., & Samaniego Alvarado, E. P. (2018). Unidimensional, non-stationary modeling of a high mountain river in southern Ecuador. Maskana.

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title = "Unidimensional, non-stationary modeling of a high mountain river in southern Ecuador",

abstract = "Floods represent a severe cause of deaths and economic loss. In order to prevent, mitigate, and reduce flood risks and their consequences, hydraulic models allow analysing and mapping floods. The results of an appropriate model that works under local conditions are a valuable tool for local governments leading to sustainable management of floodplains. Around the world, high-mountain rivers have been poorly modelled; their orography and data scarcity present an extra research difficulty. Considering that all one-dimensional models assume that the river bed slope is small, this study evaluated two widely applied one-dimensional models: Mike11 and HEC-RAS, for modelling a high mountain river. Their best configuration under complex topographical conditions and their potential use was assessed by calibration and validation of the models. We found that the HEC-RAS model was not able to define a stable solution of the hydrodynamic modelling of the river, while Mike11 yielded stable results. Furthermore, the validation of the Mike11 model showed good performance. This study sets a precedent in the 1D modelling of high-mountain rivers with data scarcity.",

keywords = "Modelaci{\'o}n de r{\'i}os 1D; HEC-RAS; Mike11; R{\'i}os de alta monta{\~n}a; Ecuador, Modelaci{\'o}n de r{\'i}os 1D; HEC-RAS; Mike11; R{\'i}os de alta monta{\~n}a; Ecuador",

author = "\{Ochoa Berrezueta\}, \{Ana Ofelia\} and \{Ochoa Berrezueta\}, \{Ana Ofelia\} and \{Ochoa Berrezueta\}, \{Ana Ofelia\} and \{Timbe Castro\}, \{Luis Manuel\} and \{Vazquez Pati{\~n}o\}, \{Angel Oswaldo\} and \{Timbe Castro\}, \{Luis Manuel\} and \{Vazquez Pati{\~n}o\}, \{Angel Oswaldo\} and \{Vazquez Pati{\~n}o\}, \{Angel Oswaldo\} and \{Vazquez Pati{\~n}o\}, \{Angel Oswaldo\} and \{Samaniego Alvarado\}, \{Esteban Patricio\} and \{Samaniego Alvarado\}, \{Esteban Patricio\} and \{Samaniego Alvarado\}, \{Esteban Patricio\}",

year = "2018",

language = "Espa{\~n}ol",

journal = "Maskana",

issn = "1390-6143",

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TY - JOUR

T1 - Unidimensional, non-stationary modeling of a high mountain river in southern Ecuador

AU - Ochoa Berrezueta, Ana Ofelia

AU - Timbe Castro, Luis Manuel

AU - Vazquez Patiño, Angel Oswaldo

AU - Timbe Castro, Luis Manuel

AU - Vazquez Patiño, Angel Oswaldo

AU - Samaniego Alvarado, Esteban Patricio

PY - 2018

Y1 - 2018

N2 - Floods represent a severe cause of deaths and economic loss. In order to prevent, mitigate, and reduce flood risks and their consequences, hydraulic models allow analysing and mapping floods. The results of an appropriate model that works under local conditions are a valuable tool for local governments leading to sustainable management of floodplains. Around the world, high-mountain rivers have been poorly modelled; their orography and data scarcity present an extra research difficulty. Considering that all one-dimensional models assume that the river bed slope is small, this study evaluated two widely applied one-dimensional models: Mike11 and HEC-RAS, for modelling a high mountain river. Their best configuration under complex topographical conditions and their potential use was assessed by calibration and validation of the models. We found that the HEC-RAS model was not able to define a stable solution of the hydrodynamic modelling of the river, while Mike11 yielded stable results. Furthermore, the validation of the Mike11 model showed good performance. This study sets a precedent in the 1D modelling of high-mountain rivers with data scarcity.

AB - Floods represent a severe cause of deaths and economic loss. In order to prevent, mitigate, and reduce flood risks and their consequences, hydraulic models allow analysing and mapping floods. The results of an appropriate model that works under local conditions are a valuable tool for local governments leading to sustainable management of floodplains. Around the world, high-mountain rivers have been poorly modelled; their orography and data scarcity present an extra research difficulty. Considering that all one-dimensional models assume that the river bed slope is small, this study evaluated two widely applied one-dimensional models: Mike11 and HEC-RAS, for modelling a high mountain river. Their best configuration under complex topographical conditions and their potential use was assessed by calibration and validation of the models. We found that the HEC-RAS model was not able to define a stable solution of the hydrodynamic modelling of the river, while Mike11 yielded stable results. Furthermore, the validation of the Mike11 model showed good performance. This study sets a precedent in the 1D modelling of high-mountain rivers with data scarcity.

KW - Modelación de ríos 1D; HEC-RAS; Mike11; Ríos de alta montaña; Ecuador

UR - https://publicaciones.ucuenca.edu.ec/ojs/index.php/maskana/article/download/2395/1518

M3 - Artículo

SN - 1390-6143

JO - Maskana

JF - Maskana

ER -