湍流模型对潜艇阻力 CFD 计算影响的数值研究

Q2 Mathematics

CFD Letters Pub Date : 2024-06-02 DOI:10.37934/cfdl.16.10.126139

Hien Le Tat, Nguyen Duy Anh, Nguyen Thi Ngoc Hoa

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引用次数: 0

摘要

迄今为止，在 CFD 模拟中还没有开发出 "通用 "的湍流模型，因此采用适当的湍流模型对于准确预测船舶（尤其是潜艇）的流体力学至关重要。本研究的重点是通过 CFD 方法研究湍流模型对不同船速下潜艇周围摩擦阻力、压力阻力分量和流动特征预测结果的影响。研究了四种不同的湍流模型，包括雷诺应力模型、可实现 k-ε 两层模型、标准 k-ω 模型和 SST k-ω 湍流模型。所获得的数值结果表明，由于湍流模型的影响，潜艇周围的阻力和流动模式发生了变化。根据获得的结果，论文指出，湍流模型的选择对潜艇的摩擦阻力有显著影响，与实验数据相比，SST K-ω 湍流模型的精度最高。本研究采用的模型是 DARPA SUBOFF 潜艇模型

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Numerical Investigate the Effect of Turbulence Models on the CFD Computation of Submarine Resistance

Up to now, there is no developed ‘universal’ turbulence model in CFD simulation, so employing an appropriate turbulence model is crucial for accurately predicting the hydrodynamics of a ship, especially for submarines. This study focuses on investigating the impact of turbulence models on the predicted results in frictional and pressure resistance components and flow features around the submarine at different ship velocities by the CFD method. Four various turbulence models consisting of the Reynolds Stress Model, realizable k-ε two-layer, standard k-ω, and SST k-ω turbulence models are investigated in this study. The obtained numerical results demonstrate variations in resistance and the flow patterns around the submarine due to the effect of turbulence model. Based on the obtained results, the paper points out that, the choice of turbulence model significantly affects the frictional resistance of the submarine and the SST K-ω turbulence model provided the highest level of accuracy in comparison with experimental data. The model employed in this research is the DARPA SUBOFF submarine model

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来源期刊

CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes

CiteScore

3.40

自引率

0.00%

发文量