海上高速飞机的速度-波高操作包线:理论与经验方法

IF 1.4 Q3 ENGINEERING, MARINE
Himabindu Allaka, Morel Groper
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引用次数: 1

摘要

高速滑行艇在实际航道中运行时会遇到高冲击载荷。这种撞击产生的极端运动和加速度对飞行器的结构及其有效载荷产生不利影响,并对机上机组人员构成风险。根据海况,使用速度-波高操作包络线限制船只速度,可以确保结构完整性,并大大提高安全航行。准确估计滑行艇在航道中的运动和加速度是开发可靠和可用的允许速度与波高运行曲线的关键要求。在本文中,比较了一种非线性时域方法和几种基于实验、经验和分类协会的垂直加速度和速度与波高极限曲线公式的现有方法——航道中平面船的运动评估(MAPCS)工具。研究发现,与常用的方法相比,MAPCS方法提供了更现实的估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Speed–wave height operational envelope for high-speed planing craft in seaways: theoretical vs. empirical methods
ABSTRACT High-speed planing craft operating in real seaways encounter high impact loads. The extreme motions and accelerations resulting from such impacts adversely affect the structure of the craft and its payload as well as pose a risk to the crew on-board. Limiting craft speed according to the sea state using a speed-wave height operational envelope might ensure structural integrity and greatly improve safe navigation. Accurate estimation of motion and acceleration of planing craft in a seaway is a key requirement in developing reliable and usable allowable speed vs. wave height operational curves. In this paper, the Motion Assessment of Planing Craft in a Seaway (MAPCS) tool, a nonlinear time-domain approach vs. several existing approaches based on experimental, empirical and classification societies’ formulas for vertical accelerations and speed vs. wave height limit curves are compared. It is found that the MAPCS approach provides more realistic estimations compared to the commonly employed methods.
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来源期刊
Ship Technology Research
Ship Technology Research ENGINEERING, MARINE-
CiteScore
4.90
自引率
4.50%
发文量
10
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