Parametric Formulation of the Floodable Length Curve: Application Case to Offshore Patrol Vessels

International Journal of Maritime Engineering Part A1 2020 Pub Date : 2020-03-01 DOI:10.3940/rina.ijme.2020.a1.582

P. Gualeni, G. Balanzoni, V. Bocola, G. A. D. Mare

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Abstract

The residual buoyancy of vessels after damage has a fundamental role in their survivability and it is implemented through adequate ship internal subdivision. Traditionally the number and the position of transverse watertight bulkheads are selected for most ships early in the design phase by means of the “floodable length curve” coupled with the concept of “margin line”. However, for naval vessels, it is more and more common during the acquisition process to explore a wide domain of feasible ships, identified with the assistance of automated processes and assessed also in terms of capabilities, among which is survivability. The generation and the comparison of a considerable number of different ship configurations is very time consuming. Therefore recourse to a parametric expression of the floodable length curve is considered to be a very efficient approach and would thus enable characterisation of the ship, in terms of survivability performance. In this paper such an approach is presented, using an offshore patrol vessel (OPV) as the case study.

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可淹水长度曲线的参数化公式:以近海巡逻艇为例

船舶损伤后的剩余浮力对其生存能力起着至关重要的作用，它是通过适当的船舶内部分舱来实现的。传统上，大多数船舶的横向水密舱壁的数量和位置是在设计初期通过“可淹水长度曲线”结合“裕度线”的概念来确定的。然而，对于海军舰艇来说，在采买过程中，探索广泛的可行船舶领域，在自动化过程的帮助下进行识别，并在能力方面进行评估，其中包括生存能力，这是越来越普遍的。相当数量的不同舰船构型的生成和比较是非常耗时的。因此，求助于可淹水长度曲线的参数表达式被认为是一种非常有效的方法，从而能够在生存性能方面对船舶进行表征。本文以一艘近海巡逻艇(OPV)为例，介绍了该方法。

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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International Journal of Maritime Engineering Part A1 2020

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