Water motion over tidal flats

Finite element method in the frequency domain

Master thesis (2023)

Authors

Z.C. ten Napel Electrical Engineering, Mathematics and Computer Science

Contributors

H.M. Schuttelaars Mathematical Physics - (mentor)

M.B. van Gijzen Numerical Analysis - (graduation committee member)

Faculty

Electrical Engineering, Mathematics and Computer Science, Electrical Engineering, Mathematics and Computer Science

Shallow Water Equations Tidal dynamics Frequency domain analysis Water motion

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Published Date

09-06-2023

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Abstract

Tidal flats are important coastal ecosystems that support a diverse range of plants and animals. Accurate prediction of water motion over tidal flats is crucial for the design of coastal infrastructure, hazard assessment, environmental management and oceanography research. Defina [1] derived a new set of shallow water equations that allow for water motion prediction in partially dry domains. Existing methods for predicting water motion are limited by numerical stability and accuracy, and require high-quality input data. Using the periodic behaviour of tides, this thesis introduces a new method in the frequency domain. The method is tested and compared to a fully numerical solution. The results of the linearised classical shallow water equations encourage future research required for the statistical shallow water equations that allow partially dry domains.

Files

ZoetenNapel_thesis_final.pdf

(.pdf | 5.83 Mb)

- Embargo expired in 08-06-2023