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A platform for research: civil engineering, architecture and urbanism
Modeling optimal operation of nashe hydropower reservoir under land use land cover changes in blue Nile River Basin, Ethiopia
The purpose of the study was to analyze the impacts of historical and future LULC change on hydrological components and optimal reservoir operations. The historical and future LULC scenarios were developed using the ERDAS Imagine model and Land Change Modeler respectively. In the watershed, the development of agricultural land and the reduction of forest cover were the major contributors to the increase in surface runoff and decline in groundwater flow. To model and optimize the operation of the Nashe hydropower reservoir, the SWAT model and the HEC-ResPRM optimization model were used.
Modeling optimal operation of nashe hydropower reservoir under land use land cover changes in blue Nile River Basin, Ethiopia
The purpose of the study was to analyze the impacts of historical and future LULC change on hydrological components and optimal reservoir operations. The historical and future LULC scenarios were developed using the ERDAS Imagine model and Land Change Modeler respectively. In the watershed, the development of agricultural land and the reduction of forest cover were the major contributors to the increase in surface runoff and decline in groundwater flow. To model and optimize the operation of the Nashe hydropower reservoir, the SWAT model and the HEC-ResPRM optimization model were used.
Modeling optimal operation of nashe hydropower reservoir under land use land cover changes in blue Nile River Basin, Ethiopia
Leta, Megersa Kebede (author) / Tränckner, Jens (tutor) / Ayana, Mekonen (tutor) / Nones, Michael (tutor) / Universität Rostock (degree granting institution) / Universität Rostock, Agrar- und Umweltwissenschaftliche Fakultät (degree granting institution)
Schriftenreihe Umweltingenieurwesen ; Band 115
2023
1 Online-Ressource (xv, 155 Seiten)
Diagramme
GutachterInnen: Jens Tränckner (Universität Rostock, Agrar- und Umweltwissenschaftlichen Fakultät, Professur Wasserwirtschaft) ; Mekonen Ayana (Adama Science and Technology University Ethiopia, Department of Water Resources) ; Michael Nones (Institute of Geophysics Polish Academy of Sciences, Poland, Hydrology and Hydrodynamics Department)
Theses
Electronic Resource
English , German
| Taylor & Francis Verlag | 2021