AERODYNAMIC DESIGN OF WING-BODY CONFIGURATIONS FOR MINIMUM DRAG

机译：用于最小拖动的翼形配置的空气动力学设计

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A CFD driven robust and accurate method for constrained aerodynamic design of 3D isolated wings, previously developed by the authors, is extended to optimization of wing-body aircraft configurations. In this method, the total drag is minimized at fixed lift subject to numerous geometrical and aerodynamical constraints. The method is driven by Genetic Algorithms and full Navier-Stokes computations supported by massive multilevel parallelization. The applications include a series of aerodynamic designs for a transport-type aircraft configuration (a NASA test case ARA M-100). For the considered class of shape optimizations, significant drag reduction in on- and off-design conditions has been achieved.

机译：Adive of Pressions的3D隔离翅膀的CFD驱动的鲁棒和准确的3D空气动力学设计的方法，扩展到翼形飞机配置的优化。在该方法中，在固定的升降机上最小化总阻力，受到许多几何和空气动力学约束。该方法由遗传算法和全Navier-Stokes计算驱动，由大规模多级并行化支持的计算。该应用包括用于运输型飞机配置的一系列空气动力学设计（NASA测试案例ARA M-100）。对于考虑的形状优化类，已经实现了显着的阻力减少和偏离设计条件。

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《Israel Annual Conference on Aerospace Sciences》|2007年||共23页
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Sergey Peigin; Boris Epstein;
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原文格式 PDF
正文语种
中图分类 V4-532;
关键词
method; wings; conditions;

机译：方法;翅膀;条件;

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专利

1. Multipoint Aerodynamic Design of Wing-Body Configurations for Minimum Drag [J] . Sergey Peigin, Boris Epstein Journal of Aircraft . 2007,第3期

机译：机翼构型的多点空气动力学设计，以实现最小阻力
2. Automatic Design of Wing-Body-Nacelle Configurations for Minimum Drag [J] . Peigin Sergey, Epstein Boris AIAA Journal . 2015,第7期

机译：自动设计机翼-纳赛尔翼型，以实现最小阻力
3. Obtaining minimum-drag shapes through surrogate-based global optimization: An application to the aerodynamic shape design of the landing gear master cylinder [J] . Andres-Perez Esther, Gonzalez-Juarez Daniel, Martin-Burgos Mario J., Proceedings of the Institution of Mechanical Engineers . 2018,第15期

机译：通过基于代理的全局优化获得最小阻力形状：在起落架总泵的空气动力学形状设计中的应用
4. AERODYNAMIC DESIGN OF WING-BODY CONFIGURATIONS FOR MINIMUM DRAG [C] . Sergey Peigin, Boris Epstein Israel Annual Conference on Aerospace Sciences . 2007

机译：用于最小拖动的翼形配置的空气动力学设计
5. MINIMUM AND OPTIMUM SPACE DESIGN AND CHAIR CONFIGURATIONS AND THEIR AFFECT ON PERFORMANCE OF AN OPERATING STATION INSIDE FUTURE ARMORED COMBAT VEHICLES. [D] . ASHKOURI, HISHAM NASRAT. 1983

机译：最小和最佳空间设计和座椅配置，以及它们对未来装甲战斗车辆中操作台性能的影响。
6. Aerodynamic integration produces a vehicle shape with a negative drag coefficient [O] . Kambiz Salari, Jason M. Ortega 2021

机译：空气动力学集成产生具有负拖曳系数的车辆形状
7. Extension to the Panel Code NALSOP0509 to Include Designudof Wing-Body Configurations for Minimum Induced Drag at given lift and pitching moment [O] . Desai SS, Narayana CL, Rangarajan R 1985

机译：面板代码NALSOP0509的扩展以包括Design ud给定升力和俯仰力矩下机翼结构的最小感生阻力
8. Aerodynamic Assessment of Flight-Determined Subsonic Lift and Drag Characteristics of Seven Lifting-Body and Wing-Body Reentry Vehicle Configurations [R] . Saltzman, Edwin J., Wang, K. Charles, Iliff, Kenneth W. 2002

机译：七种升力体和翼体再入飞行器结构的飞行确定亚音速升力和阻力特性的空气动力学评估

AERODYNAMIC DESIGN OF WING-BODY CONFIGURATIONS FOR MINIMUM DRAG

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