结构参数对垂直曲面 V 型獭兔板水动力性能的影响

Q1 Agricultural and Biological Sciences
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引用次数: 0

摘要

为了研究结构类型和尺寸对垂直曲面V型獭兔板水动力性能的影响机理,本文基于计算流体力学方法,建立了垂直曲面V型獭兔板的三维数值模型,对其水动力性能进行了计算和分析,并通过设计和构建比例模型进行动态水槽实验,验证了数值模拟结果的有效性。在此基础上,研究了不同结构参数(如导流板角度、外倾角和间距)对垂直曲面 V 型獭兔板水动力性能的影响,并确定了最佳结构设计方案。结果表明,单一或同步改变两个导流板的角度、外倾角和间距对垂直曲面 V 型獭兔板的水动力性能有不同程度的影响。为了改善獭兔板的膨胀效果,将导流板 A 的角度设为 40°,导流板 B 的角度设为 30°,或将导流板 A 和 B 的外倾角设为 18%,或将导流板 A 和 B 之间的间距设为 380 毫米,导流板与主板之间的间距设为 670 毫米,都可以将垂直曲面 V 型獭兔板的升力系数提高到最大值。考虑到獭兔板的整体性能,当导流板 A 的角度设为 25°,导流板 B 的角度设为 30°,或导流板 A 的外倾角设为 6%,导流板 B 的外倾角设为 9%,或导流板 A 和 B 之间的间距设为 340 毫米,导流板与主板之间的间距设为 610 毫米时,獭兔板的升阻比可增至最大值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of structural parameters on the hydrodynamic performance of vertical curved V-Type otter board
In order to study the influence mechanism of structural type and size on the hydrodynamic performance of vertical curved V-type otter board, this paper based on the computational fluid dynamics method, a three-dimensional numerical model of vertical curved V-type otter board is established to calculate and analyze its hydrodynamic performance, and the validity of the numerical simulation results is verified by designing and constructing a scaled model for dynamic flume experiments. On this basis, the effects of different structural parameters, such as the deflector angle, camber, and spacing, on the hydrodynamic performance of the vertical curved V-Type otter board are investigated and the optimal structural design scheme is determined. The results demonstrate that single or synchronous changes of the angle, camber, and spacing of the two deflectors have varying degrees of impact on the hydrodynamic performance of the vertical curved V-Type otter board. To improve the expansion effect of the otter board, setting the angle of the deflector A to 40° and that of the deflector B to 30°, or setting the camber of deflectors A and B to 18%, or setting the spacing between deflectors A and B to 380 mm and that between the deflector and the main panel to 670 mm can increase the lift coefficient of the vertical curved V-Type otter board to its maximum value. Considering the overall performance of the otter board, when the angle of the deflector A is set to 25° and that of the deflector B is set to 30°, or the camber of the deflector A is set to 6% and that of the deflector B is set to 9%, or the spacing between deflectors A and B is set to 340 mm and that between the deflector and the main panel is set to 610 mm, the lift-to-drag ratio of the otter board can be increased to its maximum value.
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来源期刊
Aquaculture and Fisheries
Aquaculture and Fisheries Agricultural and Biological Sciences-Aquatic Science
CiteScore
7.50
自引率
0.00%
发文量
54
审稿时长
48 days
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