Print Email Facebook Twitter A theoretical study of the sub-tidal, width-averaged effects of wind stress in estuaries Title A theoretical study of the sub-tidal, width-averaged effects of wind stress in estuaries: Dynamics, stratification and salt intrusion Author Donkers, Paul (TU Delft Electrical Engineering, Mathematics and Computer Science) Contributor Dijkstra, Yoeri (mentor) Schuttelaars, Henk (graduation committee) Degree granting institution Delft University of Technology Date 2020-07-07 Abstract The goal of this thesis is to create a theoreticalmodel that captures the influence of wind on the horizontal and vertical salinity distribution in an estuary, as well as the dynamics that arise within the estuary. A secondary, numerical model, that uses fewer assumptions, will be developed and analysed. This serves to determine whether the implications from the theoretical model hold only because of all the assumptions that are made, or whether the results are equally valid when some of these assumptions are relaxed. The focus of this thesis is on gaining conceptual insight in estuaries subject to wind, rather than on obtaining a high accuracy in describing a specific estuary. This thesis is focused on steady-state solution in partially orwell mixed estuaries. Moreover, the dynamics and salinity averaged over the width of the estuary are considered, such that only dynamics in the vertical and along channel direction are modelled. Estuaries are subject to periodical variations forced by tides. The variation within a tidal period is not studied in this thesis, but the dynamics and salinity averaged over a tidal period are considered. The effects of tides or variation along the width of the estuary are not neglected from this model, but are incorporated in the parametrisation of the model instead. Subject estuarybifurcationwindanalyticalnumerical To reference this document use: http://resolver.tudelft.nl/uuid:1705a083-17c0-461c-b17c-231ec28f4860 Part of collection Student theses Document type master thesis Rights © 2020 Paul Donkers Files PDF FinalThesis.pdf 5.8 MB Close viewer /islandora/object/uuid:1705a083-17c0-461c-b17c-231ec28f4860/datastream/OBJ/view