Transonic Nacelle Aerodynamic Optimization Based on Hybrid Genetic Algorithm

机译：基于混合遗传算法的跨音速发动机舱气动优化

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Aerodynamic optimization study of a transonic nacelle is presented in this paper. The method of "Class Shape Transformation" is developed to parameterize the non-axis symmetrical nacelle geometry. Based on a hybrid genetic algorithm, which combines a genetic algorithm with the Kriging response surface model, the efficiency of the optimization process is well improved. Steady Reynolds-Averaged Navier-Stokes (RANS) equations with SST turbulence model are used for aerodynamic analysis. Optimized results of axis-symmetry and three-dimensional non-axis symmetrical nacelles are discussed and compared with the initial designs. With appropriate constraints, the optimized nacelle can obtain a better aerodynamic performance without internal volume penalty.

机译：本文提出了跨音速机舱的空气动力学优化研究。开发了“类形状变换”方法以参数化无轴对称的机舱几何形状。基于将遗传算法与Kriging响应面模型相结合的混合遗传算法，优化过程的效率得到了很好的提高。具有SST湍流模型的稳态雷诺平均Navier-Stokes（RANS）方程用于空气动力学分析。讨论了轴对称和三维非轴对称机舱的优化结果，并将其与初始设计进行了比较。在适当的限制下，优化的机舱可以获得更好的空气动力学性能，而不会造成内部容积损失。

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《AIAA aviation forum;AIAA/ISSMO multidisciplinary analysis and optimization conference》|2016年|587-595|共9页
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Xiaoming Fang; Yufei Zhang; Haixin Chen;
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Transonic Nacelle Aerodynamic Optimization Based on Hybrid Genetic Algorithm

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