The Effect on Constant Heel on Circulation of a Vessel Calculated on the Basis of Investigations of M/S “Ziemia Zamojska” Model

Scientific Journal of Polish Naval Academy Pub Date : 2020-09-01 DOI:10.2478/sjpna-2020-0008

W. Mironiuk, A. Panasiuk, M. Szymoński

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Abstract

Abstract The article presents modeling research on the M/S “Ziemia Zamojska” reduced model, carried out in an open fresh water area by a team of employees of the Department of Operating of Floating Vessels, Polish Naval Academy, Gdynia. The research involved circulating the model with constant angle of heel on the selected side, and the main engine set to full speed ahead. Using a real ship to carry this type of investigations is risky. It may lead to some failures like e.g. rudder failure, steering gear malfunction, overload and in some circumstances even main engine seizure. For this reason, ships are not tested with the rudder put to starboard or to port at the full speed ahead setting, even during a “Crash Stop” maneuver. However, based on the analysis of accidents at sea, and practical experience, it appears that during real operating conditions of vessels, there may occur situations when, for the sake of safety, the maneuver mentioned above must be carried out. Therefore, the authors had to conduct model tests of a floating vessel for the described case of ship operation

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基于M/S“Ziemia-Zamojska”模型研究恒跟对血管循环的影响

摘要:本文介绍了由格丁尼亚波兰海军学院浮动船舶操作部门的一组员工在开阔的淡水水域进行的M/S“Ziemia Zamojska”简化模型的建模研究。研究的内容是将模型在选定的一侧进行恒跟角循环，并将主机设置为全速前进。用真船进行这类调查是有风险的。这可能会导致一些故障，例如方向舵故障，舵机故障，过载，在某些情况下甚至主机卡住。出于这个原因，船只在全速前进的情况下，即使在“紧急停止”机动期间，舵也不会放在右舷或左舷进行测试。然而，根据海上事故的分析和实践经验，在船舶的实际操作条件下，为了安全起见，可能会出现必须进行上述机动的情况。因此，作者必须对所描述的船舶操作情况进行浮动船舶的模型试验

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scientific Journal of Polish Naval Academy

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审稿时长

12 weeks