Morphologic impacts of hydrualic structures at watershed scale
This work focuses on the geomorphological dynamics of a river system and the modelling of these changes over a medium time scale (the order of a few decades) and a large watersheds spatial scale (the order of 5000 km2). A literature review shows that this subject is one of the main issues in fluvial...
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| Format: | doctoral thesis |
| Status: | Published version |
| Publication Date: | 2013 |
| Country: | Chile |
| OAI Identifier: | oai:repositorio.anid.cl:10533/235684 |
| Online Access: | https://hdl.handle.net/10533/235684 |
| Access Level: | Open access |
| Keyword: | Ingeniería y Tecnología Ingeniería Civil |
| Summary: | This work focuses on the geomorphological dynamics of a river system and the modelling of these changes over a medium time scale (the order of a few decades) and a large watersheds spatial scale (the order of 5000 km2). A literature review shows that this subject is one of the main issues in fluvial geomorphology today. It reveals the constants of different conceptual models that have been developed and in particular i) the dependence of geomorphological dynamics on hydrological flow regime and sediment supply conditions, ii) the ability of the system to adapt, in case of alteration in hydrological flow regime and sediment supply, and iii) the spread of these disturbances with the gradual attenuation of the effect of alteration downstream. In particular, we chose to study the effect of disturbances introduced by hydroelectric structures on the river morphology at the watershed scale by developing a conceptual river morphology model. The model outline was based on a, deliberately limited, description of hydrological regime and -sediment supply alterations, and on expert knowledge to predict the morphological evolution in alluvial rivers. The objective of this work was to determine the direction of evolution trajectories of the river morphology, trough representative variables that evolve from one dynamic equilibrium state to another. We tested the model on a representation of the Isère watershed, upstream of Grenoble, France (5818 km2), incorporating a description of the complex pattern of hydropower structures, built during the second half of the XXth century. The modelled changes in river morphology give results that are consistent with the observations. However, the model is limited by two strong assumptions: i) the initial equilibrium of the system and ii) the synchronisation of the disturbances. In the final section, we described the development of a simplified numerical model which aims to take into account the transient period between the dynamic equilibrium states. This model is used to evaluate the duration of the relaxation period for a river reach and validate the use of the channel-forming discharge concept that was used in the conceptual model. The model simulates the overlay of the disturbances, but in the current state it is not capable of modelling the kinetic propagation of the disturbances downstream into the watershed. Key-words : fluvial morphology, watershed, hydrological flow regime, sediment supply, hydropower structures, trajectories of adjustment. |
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