Verification and validation in computational fluid dynamics: application to both steady and unsteady rowing boats numerical simulations.

机译：计算流体动力学中的验证和验证：应用于稳态和非稳态划艇数值模拟。

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This paper focuses on the Verification and Validation procedure (V&V) applied in the particular case of rowing boats with both steady and unsteady surge motions. The different approaches proposed in literature are applied and compared to better estimate the a posteriori error. In order to compare numerical results with towing tank experimental data and exactly make validation of the code ICARE3D, the basin geometry (width = 5 m, depth = 3 m) is taken into account. The validation procedure is applied with a set of six grids. For unsteady simulations, unsteady resistant coefficient is compared to experiments in terms of time histories and Fourier components.

机译：本文重点介绍，在划艇的特定情况下验证和验证程序（v＆v），具有稳定和不稳定的浪涌运动。应用文献中提出的不同方法，并比较了更好地估计后验误差。为了将数值结果与牵引箱实验数据进行比较并准确地验证代码ICare3D，考虑到盆地几何（宽度= 5米，深度= 3米）。验证程序应用于一组六个网格。对于不稳定的模拟，在时间历史和傅立叶组件方面比较不稳定的抗性系数。

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《International Offshore and Polar Engineering Conference》|2007年||共6页
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作者
M. Berton; B. Alessandrini; S. Barre;
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中图分类水路运输;
关键词
Verification; Validation; Richardson extrapolation; unsteady surge motion; rowing boat; viscous flow;

机译：验证;验证;Richardson推断;不稳定的浪涌运动;划艇;粘性流动;

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4. Verification and validation in computational fluid dynamics: application to both steady and unsteady rowing boats numerical simulations. [C] . M. Berton, B. Alessandrini, S. Barre International Offshore and Polar Engineering Conference . 2007

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Verification and validation in computational fluid dynamics: application to both steady and unsteady rowing boats numerical simulations.

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