Frequency-Domain Ship Motion Code with Python Programming Language

In this study, a frequency-domain seakeeping code is established. A container ship was selected as an example to demonstrate the outputs of the code in different headings, ranging from the beam to head waves. Tasai’s method is used to obtain two-dimensional hydrodynamic added mass and damping coeffi...

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Vydáno v:Journal of ETA maritime science Ročník 9; číslo 4; s. 283 - 291
Hlavní autoři: Arslan, Seyyit Nafiz, Yavuz, Atakan, Çakıcı, Ferdi
Médium: Journal Article
Jazyk:angličtina
Vydáno: UCTEA The Chamber of Marine Engineers 01.12.2021
Témata:
derived motions
ikeda’s method
seakeeping code
tasai’s method
ISSN:2147-2955, 2148-9386
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Shrnutí:In this study, a frequency-domain seakeeping code is established. A container ship was selected as an example to demonstrate the outputs of the code in different headings, ranging from the beam to head waves. Tasai’s method is used to obtain two-dimensional hydrodynamic added mass and damping coefficients. For different loading conditions, the damping values for the roll motion can be obtained using Ikeda’s method. Froude Krylov and Diffraction terms for pitch and heave motions are computed using the head seas approximation. A user-friendly interface is designed for presenting frequency-domain analyses. Vertical motions, vertical accelerations, and some derived motion characteristics, such as deck wetness, slamming, and absolute vertical accelerations are plotted as transfer functions. The entire procedure is implemented using Python code.
ISSN:2147-2955
2148-9386
DOI:10.4274/jems.2021.48303