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2020 | OriginalPaper | Chapter

3. Numerical Simulation Method

Author : Tomokazu Murakami

Published in: Geophysical Approach to Marine Coastal Ecology

Publisher: Springer Singapore

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Abstract

This chapter presents a description of models used for simulations performed in this book, including the Coastal ocean Current Model with a multi-sigma coordinate system (CCM) developed by the author and a colleague for computation of seawater flow, a wave model SWAN developed at Delft University of Technology, and the Lagrangian particle tracking model.

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previous chapter Observational Method

next chapter Dynamical Properties of Coastal Currents in the Northwestern Part of Iriomote Island Part. 1—Sakiyama and Amitori Bays

Booij N, Holthuijsen LH, Ris RC (1996) The SWAN wave model for shallow water. In: Proceedings of 25th international conference on coastal engineering, vol 1, pp 668–676

Dingemans MW (1997) Water wave propagation over uneven bottoms. Part 1—linear wave propagation. In: Advanced series on ocean engineering (vol 13). World Scientific, p 471

Holthuijsen LH, Booij N, Ris RC, Haagsma IJG, Kieftenburg ATMM, Kriezi EE, Zijlema M, van der Westhuysen AJ (2004) SWAN Cycle III Ver. 40.31 User Manual

Mei CC (1983) The applied dynamics of ocean surface waves. Wiley, New York, p 740

Mellor GL (2004) Users guide for a three-dimensional, primitive equation, numerical ocean model, 56 pp. http://www.aos.princeton.edu/WWWPUBLIC/htdocs.pom

Mellor GL, Yamada T (1982) Development of a turbulence closure model for geophysical fluid problems. Rev Geophys Space Phys 20(4):851–875CrossRef

Murakami T, Yasuda Y, Ohsawa T (2004) Development of a multi-sigma coordinate model coupled with an atmospheric model for the calculation of coastal currents. Ann J Coast Eng JSCE 51:366–370 (in Japanese with English abstract)

Whitham GB (1974) Linear and nonlinear waves. Wiley, New York, p 636

Title: Numerical Simulation Method
Author: Tomokazu Murakami
Publisher: Springer Singapore
Book: Geophysical Approach to Marine Coastal Ecology
Print ISBN: 978-981-15-1128-8

Electronic ISBN: 978-981-15-1129-5

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-1129-5_3