Method for ship’s rolling period prediction with regard to non-linearity of GZ curve

Wawrzyński, Wojciech; Krata, P.

doi:10.15632/jtam-pl.54.4.1329

Cited by 22 publications

(7 citation statements)

References 11 publications

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“…Neglecting this phenomenon may lead to annihilation of optimisation results, as rapid increase of rolling amplitude is in contrast to objective function criteria concerning the comfort of navigation. Further method development will also include extending the range of phenomena which are modelled and taken into account in optimisation, with particular attention focused on nonlinearities in the description of ship stability characteristics, as, according to recent literature on the subject, these nonlinearities are essential for determining the configuration of ship course and speed to avoid dangerous dynamic phenomena [26,8]. The results of past research, along with observation of possibilities to introduce new objective functions and constraints to the developed method, indicate that the planned development directions will bring the route optimisation results closer to real conditions of sailing.…”

Section: Discussionmentioning

confidence: 99%

Multi-Objective Weather Routing of Sailboats Considering Wave Resistance

Życzkowski

Krata

Szlapczynski

2018

Polish Maritime Research

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The article presents a method to determine the route of a sailing vessel with the aid of deterministic algorithms. The method assumes that the area in which the route is to be determined is limited and the basic input data comprise the wind vector and the speed characteristic of the vessel. Compared to previous works of the authors, the present article additionally takes into account the effect of sea waves with the resultant resistance increase on the vessel speed. This approach brings the proposed model closer to real behaviour of a sailing vessel. The result returned by the method is the sailing route, optimised based on the multi-criteria objective function. Along with the time criterion, this function also takes into account comfort of voyage and the number of performed turns. The developed method has been implemented as simulation application SaillingAssistance and experimentally verified.

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Section: Discussionmentioning

confidence: 99%

Multi-Objective Weather Routing of Sailboats Considering Wave Resistance

Życzkowski

Krata

Szlapczynski

2018

Polish Maritime Research

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“…Where: l-ship width; l = 29.4 m; C-the coefficient describing ships transverse gyration radius; C = 0.371 [7] for T p ' = 9.5952 m; GM = 4.3200 m; G ' M = 4.3548 m; T-initial rolling period; T =10.4956 s; T`-the rolling period after the placement of the four modern Flettner rotors that generates green, unconventional energy; T`=10.4536 s.…”

Section: Determination Of the Rolling Periodmentioning

confidence: 99%

Influence of four modern Flettner rotors, used as wind energy capturing system, on container ship stability

et al. 2020

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This article is presenting the influence on the stability of a container ship, by connecting four modern Flettner rotors, as wind energy capturing system. Modern Flettner rotors, are energy power generators. They are one of the various equipment used to capture and harness wind energy. By reading the article, the reader can discover what are the forces which influence the modern Flettner rotors and how they influence the ship stability.This article major points are: calculation the influence of the modern Flettner rotors on the ship transverse and longitudinal stability, calculation of the ship new displacement, new draft, new metacentric height and period of rolling.

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“…Recently, in an attempt to maximize the ease of use and the objectivity of these guidance systems, a new group of methods has been proposed. Their main objective comprises stability evaluation by automatic real-time estimation of the vessel metacentric height (GM ) (Wawrzynski and Krata, 2016). Terada et al (2016) proposed a mathematical model to estimate the vessel roll natural frequency (directly related to GM ) together with the roll gyradius from the measured vessel roll motion.…”

Section: Literature Surveymentioning

confidence: 99%

Real-time detection of transverse stability changes in fishing vessels

et al. 2019

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Fishing is a hazardous activity due to stability related accidents, caused many times by the crew lacking information related to the level of stability of the vessel. A possible solution is offered by stability assessment systems that can help the skipper to identify potential risks and support his decision making process.The metacentric height is a key parameter for vessel stability and its real-time monitoring may be beneficial for alerting the crew about changes in stability. The paper proposes the design of a novel stability monitoring system that automatically detects changes in metacentric height based on estimates of the roll natural frequency solely using the measured roll angle. The core of the monitoring system is a combined estimation-detection system that exploits methods in advanced signal processing and statistical change detection to properly address issues of robustness.

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Method for ship’s rolling period prediction with regard to non-linearity of GZ curve

Cited by 22 publications

References 11 publications

Multi-Objective Weather Routing of Sailboats Considering Wave Resistance

Multi-Objective Weather Routing of Sailboats Considering Wave Resistance

Influence of four modern Flettner rotors, used as wind energy capturing system, on container ship stability

Real-time detection of transverse stability changes in fishing vessels

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