可渗透的体积-在船舶设计中被遗忘的“星系”

D. Vassalos, George Atzampos, D. Paterson, F. Mauro
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摘要

船舶的设计是基于与船舶性能、功能和安全有关的三个基本目标,所有这些目标都是由外部形状、内部布局、载重、有效载荷、渗透体积及其分布决定的。除了一个之外,所有的都被计算为极小的公差,并受到已经发展了数千年的规则和条例的约束。与重量和浮力同等重要的例外是可渗透体积,即船体和上层建筑的内部自由空间(可用于淹水)。多年来,在不区分船型的情况下,对主要船舶空间采用了一些广义近似值,导致在计算特别是船舶损伤稳定性和生存能力时采用大致近似值。在后一种情况下,剩余可渗透体积的数量和分布(连同浮力和重量)决定了船舶是否会沉没或倾覆(浮力/稳定性)。然而,所有的计算都非常精确,而渗透体积及其分布是用naïve近似计算的。为了证明这种近似的影响,本文考虑了一艘客船,当被视为减少和控制洪水风险的一种选择时,渗透率对船舶安全的关键影响提供了独特的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Permeable Volume – The Forgotten “Galaxy” in Ship Design
Ships are designed on the basis of three basic objectives pertaining to ship performance, functionally and safety, all dictated by external shape, internal layout, deadweight, payload, permeable volume and their distributions. All, with the exception of one are calculated to extremely small tolerances and are subjected to rules and regulations that have been evolving for thousands of years.  The exception, which is of the same magnitude as weight and buoyancy is the permeable volume, namely the internal free space in the ship hull and superstructure (available for flooding). Over the years, some generalised approximations have been adopted for principal ship spaces without differentiating between ship types, leading to gross approximations when calculating, in particular, ship damage stability and survivability. In the latter case, the amount and distribution of residual permeable volume (together with buoyancy and weight), dictate whether a ship may sink or capsize (buoyancy/stability). Yet, all is calculated to extreme accuracy whilst permeable volume and its distribution is calculated with naïve approximation. To demonstrate the impact of such approximations a passenger ship is considered in the paper, offering unique insight on the key influence of permeability on ship safety when considered as an option to reducing and controlling flooding risk.
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