Numerical investigations of deckhouse height to the self-righting moment of the patrol boat
Trimulyono, Andi and Tuswan, Tuswan and Taqi, Haidar Farros Mawarizt and Manik, Parlindungan and Rindo, Good and Samuel, Samuel and Mursid, Ocid and Iqbal, Muhammad (2024) Numerical investigations of deckhouse height to the self-righting moment of the patrol boat. Designs, 8 (5). 86. ISSN 2411-9660 (https://doi.org/10.3390/designs8050086)
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Abstract
The design of patrol boats, especially in Indonesian waters with extreme sea conditions, requires good stability capabilities and self-righting moments. These conditions require patrol boats to have anti-capsized capabilities where, with these capabilities, the patrol boat can return to an upright position at extreme heeling angles. This study investigates how changing the center of gravity (CoG) due to the deckhouse height factor improves self-righting moment capabilities. Four different deckhouse heights are examined to find the optimal self-righting roll moment, with a deckhouse height in the 2.01–2.31 m range. In addition, the presence of the self-righting roll moment is also validated by the computational fluid dynamics (CFD) method using three different mesh sizes. The height of the deckhouse can significantly influence the ship’s stability. The initial investigation shows ships with minimum deckhouse heights of 2.06 m have positive righting lever arms at 170° and are classified as anti-capsized ships. It has been discovered that buoyancy and the center of gravity are crucial variables in obtaining the self-righting moment. The deckhouse’s height increases the stability of the ship’s righting arm by enhancing the metacenter point. The findings demonstrate that more excellent stability is achieved with a larger deckhouse height.
ORCID iDs
Trimulyono, Andi, Tuswan, Tuswan, Taqi, Haidar Farros Mawarizt, Manik, Parlindungan, Rindo, Good, Samuel, Samuel, Mursid, Ocid and Iqbal, Muhammad ORCID: https://orcid.org/0000-0003-3762-3757;-
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Item type: Article ID code: 90392 Dates: DateEvent27 August 2024Published26 August 2024AcceptedSubjects: Technology > Hydraulic engineering. Ocean engineering Department: Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering Depositing user: Pure Administrator Date deposited: 28 Aug 2024 11:32 Last modified: 15 Dec 2024 01:45 URI: https://strathprints.strath.ac.uk/id/eprint/90392