弯曲航道通航水流特性及船舶运动特性数值模拟
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夏旭江(1998—),男,博士研究生,主要从事水利工程研究。E-mail:18260635129@163.com

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Numerical simulation of water flow characteristics in curved channels and ship motion characteristics
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    摘要:

    为揭示弯曲航道几何参数对通航水流条件及船舶运动特性的影响规律,以引江济淮工程典型弯曲航道段为研究对象,建立基于MIKE21的水流数学模型及MMG船舶操纵模型,系统分析了转弯角度( θ =60°,90°,120°)、弯曲半径( R =540,1 000,1 500 m)、航道宽度( B =60,90 m)对弯曲航道水流特性的影响,并量化了1 000.t级货船在弯曲航道中的运动规律。结果表明:转弯角度增大显著加剧了水流复杂性, θ =120°时弯顶壅水较60°时上升 0.012 m,水面最大横比降位置由下游1/3处上移至上游1/3处,主流向凸岸偏移;弯曲半径的增大改善了通航条件, R =1 500 m时凹凸岸水位差较540 m时降低了60%,最大流速从 0.55 m/s 降至 0.35 m/s;航道宽度减小显著恶化水流条件, B =60 m 时最大流速、上下游水位差较 90 m时均显著增大;船舶运动特性方面,下行船受水流主导,横移速度与舵角、漂角呈强负相关关系;上行船以自身动力为主,各参数相关性较弱。

    Abstract:

    In order to reveal the influence of the geometric parameters of the curved channel on the navigable water flow conditions and ship motion characteristics, the typical curved channel section of the Yangtze-to-Huaihe River Water Diversion Project was taken as the research object. Moreover, the mathematical model of the water flow based on MIKE21 and the MMG ship manoeuvring model were established. The influence of the turning angle ( θ =60°, 90°, 120°), the bending radius ( R =540, 1 000,1 500 m), and the channel width ( B =60, 90 m) on the flow characteristics of the curved channel were analyzed in a systematic way, and the movement law of 1 000 t class cargo ship in the curved channel was quantified. The results show that the increase in the turning angle significantly aggravates the complexity of water flow; the backwater at the top of the bend at θ =120° rises by 0.012 m compared with that at 60°, and the maximum transverse gradient of the water surface shifts from the downstream 1/3 to the upstream 1/3; the main stream shifts to the convex bank. The increase of the bending radius improves the navigable conditions, and the difference in water level between the concave and convex banks at R =1 500 m decreases by 60% compared with that at R =540 m; the maximum flow velocity decreases from 0.55 m/s to 0.35 m/s. The reduction of the channel width significantly worsens the water flow conditions, and the maximum flow velocity and the water level difference between upstream and downstream increase significantly at B =60 m compared with B =90 m. As for the ship motion characteristics, the downstream ship is dominated by the water flow, and the traverse speed with the rudder angle and drift angle show a strong negative correlation; the upstream ship is dominated by its own power, and the correlation of each parameter is weak.

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夏旭江,庄宁,徐兴年,等.弯曲航道通航水流特性及船舶运动特性数值模拟[J].河海大学学报(自然科学版),2026,54(1):138-147.(Xia Xujiang, Zhuang Ning, Xu Xingnian, et al. Numerical simulation of water flow characteristics in curved channels and ship motion characteristics[J]. Journal of Hohai University (Natural Sciences),2026,54(1):138-147.(in Chinese))

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  • 收稿日期:2025-06-20
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  • 在线发布日期: 2026-01-29
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