Interations between roughness and topography in hydraulic models

Tesis doctoral de M. De Los ángeles Casas Planes

Analysis of river flow using hydraulic modelling and its implications in derived environmental applications are inextricably connected with the way in which the river boundary shape is represented. This relationship is scale-dependent upon the modelling resolution which in turn determines the importance of a subscale performance of the model and the way subscale (surface and flow) processes are parameterised. Commonly, the subscale behaviour of the model relies upon a roughness parameterisation whose meaning depends on the dimensionality of the hydraulic model and the resolution of the topographic representation scale. This latter is, in turn, dependent on the resolution of the computational mesh as well as on the detail of measured topographic data. Flow results are affected by this interaction between scale and subscale parameterisation according to the dimensionality approach. The aim of this dissertation is the evaluation of these interactions upon hydraulic modelling results. Current high resolution topographic source availability induce this research which is tackled using a suitable roughness approach according to each dimensionality with the purpose of the interaction assessment. A 1d hec-ras model, a 2d raster-based diffusion-wave model with a scale-dependent distributed roughness parameterisation and a 3d finite volume scheme with a porosity algorithm approach to incorporate complex topography have been used. Different topographic sources are assessed using a 1d scheme. Lidar data are used to isolate the mesh resolution from the topographic content of the dem effects upon 2d and 3d flow results. A distributed roughness parameterisation, using a roughness height approach dependent upon both mesh resolution and topographic content is developed and evaluated for the 2d scheme. Grain-size data and fractal methods are used for the reconstruction of topography with microscale information, required for some applications but not easily available. Sensitivity of hydraulic parameters to this topographic parameterisation is evaluated in a 3d scheme at different mesh resolutions. Finally, the structural variability of simulated flow is analysed and related to scale interactions. Model simulations demonstrate (i) the importance of the topographic source in a 1d models; (ii) the mesh resolution approach is dominant in 2d and 3d simulations whereas in a id model the topographic source and even the roughness parameterisation impacts are more critical; (iii) the increment of the sensitivity to roughness parameterisation in 1d and 2d schemes with detailed topographic sources and finer mesh resolutions; and (iv) the topographic content and microtopography impact throughout the vertical profile of computed 3d velocity in a depth-dependent way, whereas 2d results are not affected by topographic content variations. Finally, the spatial analysis shows that the mesh resolution controls high resolution model scale results, roughness parameterisation control 2d simulation results for a constant mesh resolution; and topographic content and microtopography variations impacts upon the organisation of flow results depth-dependently in a 3d scheme.

 

Datos académicos de la tesis doctoral «Interations between roughness and topography in hydraulic models«

  • Título de la tesis:  Interations between roughness and topography in hydraulic models
  • Autor:  M. De Los ángeles Casas Planes
  • Universidad:  Politécnica de Madrid
  • Fecha de lectura de la tesis:  07/03/2008

 

Dirección y tribunal

  • Director de la tesis
    • Gerardo Benito Ferrández
  • Tribunal
    • Presidente del tribunal: Marta González del tánago
    • Jorge Delgado garcia (vocal)
    • ramón j. Batalla villanueva (vocal)
    • andrew Nicholas (vocal)

 

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