Flow separation from submarine shaped bodies of revolution in steady turning

Holloway A. G. L.; Jeans T. L.; Watt G. D.

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Flow separation from submarine shaped bodies of revolution in steady turning

机译：稳定转弯时海底旋转体的流动分离

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Flow separation from 3 slender bodies of revolution in steady turning is studied using Computational Fluid Dynamics RANS simulations. The body profiles include the DRDC-STR, DARPA SUBOFF, and the Series-58 Model 4621. The flow conditions consider varying turning radii, 1.0 <= R/l <= 10 (where R is the radius of the turn and l is the body length) with a fixed pivot point located 25% aft of the nose. The Reynolds numbers considered were 6.5, 11.7 and 23 million. Scaling laws deduced for the development of separation along the midbody and tail were used to develop an analytical model for predicting the separation line along a body of revolution of arbitrary profile. Crown Copyright (C) 2015 Published by Elsevier Ltd. All rights reserved.

机译：使用计算流体动力学RANS仿真研究了3个细长旋转体在稳态转弯中的流动分离。阀体轮廓包括DRDC-STR，DARPA SUBOFF和Series-58型号4621。流动条件考虑变化的转弯半径，1.0 <= R / l <= 10（其中R是转弯半径，l是转弯半径）。身体长度），并在鼻子后部25％处固定一个枢轴点。雷诺数分别为6.5、11.7和2300万。为沿中体和尾部分离发展而推导的比例定律被用于开发分析模型，以预测沿任意轮廓旋转体的分离线。 Crown版权所有（C）2015，由Elsevier Ltd.发行。保留所有权利。

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《Ocean Engineering》 |2015年第1期|426-438|共13页
作者
Holloway A. G. L.; Jeans T. L.; Watt G. D.;
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作者单位

Univ New Brunswick, Fredericton, NB, Canada;

Univ New Brunswick, Fredericton, NB, Canada;

Def Res & Dev Canada Atlantic DRDC Atlantic, Dartmouth, NS, Canada;

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原文格式 PDF
正文语种 eng
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关键词
Submarines; Slender bodies of revolution; Steady turning; Separation; Separation line modeling;

机译：潜艇;细长的旋转体;平稳的旋转;分离;分离线建模;

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Flow separation from submarine shaped bodies of revolution in steady turning

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