穿波刨船的水动力性能及附加考虑

IF 0.7 Q4 MECHANICS

Journal of Fluid Science and Technology Pub Date : 2019-07-28 DOI:10.1115/ajkfluids2019-4931

Sangwon Kim, Sang-eui Lee, Gyoung-Woo Lee, Kwang-cheol Seo, N. Oshima

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引用次数: 2

摘要

本工作主要研究作为附肢的穿浪滑行船体及其相关水动力性能的数值研究。从半个世纪前开始，人们对高速滑行飞行器的兴趣就朝着稳定保持性能的方向发展。造成这种困难的主要原因是由于孔隙和波浪条件引起的不稳定运动。浮荡主要是由于压力分布不稳定和重心纵向位置变化引起的垂荡和纵摇运动有一定周期的重叠。此外，在波浪条件下，遇到波浪会干扰进入滑行模式。本文给出了波浪和波浪条件下穿浪滑行船体的数值计算结果。数值模拟是通过雷诺平均纳维-斯托克斯（RANS）和移动网格技术（叠加网格）在不同的波浪条件下进行的。在本研究中，实际给出并研究了穿浪船型的性能结果。了解这些现象对穿浪船型附件的设计具有重要意义。

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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Hydrodynamic performance and appendage considerations of wave-piercing planing craft overlapping waves and porpoising

This work addresses the numerical study of wave-piercing planing hull and related hydrodynamic performance as the appendages. From the half century ago, the interest in high-speed planing crafts has been advanced toward maintaining performance stably. The main reasons to make it hard are instability motion occurring from porpoising and wave condition. Porpoising is mainly due to overlap the heaving and pitching motion with certain period, which is caused by instable pressure distribution and changing longitudinal location of center of gravity. In addition, in wave condition, encountering wave disturbs going into planing mode. This paper presents numerical results of wave-piercing planing hull in porpoising and wave condition. Numerical simulation is conducted via Reynolds Averaged Navier-stokes (RANS) with moving mesh techniques (overset grid), performed at different wave condition. The results for the behaviors of wave-piercing hull form are practically presented and investigated in this study. The understanding of these phenomena is important for design of appendages of wave-piercing hull-form.

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来源期刊

Journal of Fluid Science and Technology MECHANICS-

CiteScore

1.00

自引率

12.50%

发文量

期刊介绍： Journal of Fluid Science and Technology (JFST) is an international journal published by the Fluids Engineering Division in the Japan Society of Mechanical Engineers (JSME). JSME had been publishing Bulletin of the JSME (1958-1986) and JSME International Journal (1987-2006) by the continuous volume numbers. Considering the recent circumstances of the academic journals in the field of mechanical engineering, JSME reorganized the journal editorial system. Namely, JSME discontinued former International Journals and projected new publications from the divisions belonging to JSME. The Fluids Engineering Division acted quickly among all divisions and launched the premiere issue of JFST in January 2006. JFST aims at contributing to the development of fluid engineering by publishing superior papers of the scientific and technological studies in this field. The editorial committee will make all efforts for promoting strictly fair and speedy review for submitted articles. All JFST papers will be available for free at the website of J-STAGE (http://www.i-product.biz/jsme/eng/), which is hosted by Japan Science and Technology Agency (JST). Thus papers can be accessed worldwide by lead scientists and engineers. In addition, authors can express their results variedly by high-quality color drawings and pictures. JFST invites the submission of original papers on wide variety of fields related to fluid mechanics and fluid engineering. The topics to be treated should be corresponding to the following keywords of the Fluids Engineering Division of the JSME. Basic keywords include: turbulent flow; multiphase flow; non-Newtonian fluids; functional fluids; quantum and molecular dynamics; wave; acoustics; vibration; free surface flows; cavitation; fluid machinery; computational fluid dynamics (CFD); experimental fluid dynamics (EFD); Bio-fluid.