A discrete gradient-based approach for aerodynamic shape optimisation in turbulent viscous flow

M. de Michieli Vitturi; F. Beux

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A discrete gradient-based approach for aerodynamic shape optimisation in turbulent viscous flow

机译：基于离散梯度的湍流粘性空气动力学形状优化方法

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摘要

A shape design algorithm for viscous compressible turbulent flows is described. This approach is based on the coupling of an incomplete gradient formulation, which avoids adjoint state computation, with a multi-level method. Using the coarsest level of control parameters, a completed gradient formulation is also proposed to improve the accuracy of the approximate gradient computation. The performance of the present approach is demonstrated by several numerical experiments for aeronautical applications (inverse and direct problems for transonic airfoils) as well as naval ones (optimisation of upwind flying sail for sailing yacht).

机译：描述了粘性可压缩湍流的形状设计算法。该方法基于不完全梯度公式的耦合，该公式避免了伴随状态计算的多级方法。使用最粗糙的控制参数水平，还提出了完整的梯度公式，以提高近似梯度计算的准确性。本方法的性能通过航空应用（跨音速翼型的反问题和直接问题）和海军应用（优化帆船游艇的逆风飞行帆）的几个数值实验得到了证明。

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来源
《Finite Elements in Analysis and Design》 |2006年第1期|p. 68-80|共13页
作者
M. de Michieli Vitturi; F. Beux;
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作者单位

Dipartimento di Matematica, Universita di Pisa, via Buonarroti, 2, 56127 Pisa, Italy;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类应用数学;
关键词
optimum shape design; turbulent viscous flows; gradient methods; multi-level; incomplete sensitivities;

机译：最佳形状设计;粘性流;梯度法;多级;不完全灵敏;

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1. On an Exact Step Length in Gradient-Based Aerodynamic Shape Optimization—Part II: Viscous Flows [J] . Farzad Mohebbi, Ben Evans, Mathieu Sellier Fluids . 2021,第3期

机译：基于梯度的空气动力学优化 - 第二部分的精确步长：粘性流动
2. Applications of a discrete viscous adjoint method for aerodynamic shape optimisation of 3D configurations [J] . Joeel Brezillon, Richard P. Dwight CEAS Aeronautical Journal . 2012,第1期

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3. Sensitivity analysis and gradient-based optimisation of feed spacer shape in reverse osmosis membrane processes using discrete adjoint approach [J] . Wang Yang, He Wei, Mueller Jens-Dominik Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2019,第期

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4. Adjoint operator approach to aerodynamic shape optimisation for 3D transonic flows [C] . M. Cormery European Computational Fluid Dynamics Conference . 1998

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5. Higher-order spatial discretization for turbulent aerodynamic flows. [D] . De Rango, Stan. 2001

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6. Assessment of turbulent viscous stress using ICOSA 4D Flow MRI for prediction of hemodynamic blood damage [O] . Hojin Ha, Jonas Lantz, Henrik Haraldsson, -1

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7. On an Exact Step Length in Gradient-Based Aerodynamic Shape Optimization—Part II: Viscous Flows [O] . Farzad Mohebbi, Ben Evans, Mathieu Sellier 2021

机译：基于梯度的空气动力学优化优化 - 第二部分的精确步长：粘性流动

A discrete gradient-based approach for aerodynamic shape optimisation in turbulent viscous flow

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