Drag Characterization Study of Variable Camber Continuous Trailing Edge Flap

Upender K. Kaul; Nhan T. Nguyen

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Drag Characterization Study of Variable Camber Continuous Trailing Edge Flap

机译：拖动变形弧形连续后缘襟翼的表征研究

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A Reynolds-averaged Navier–Stokes (RANS) computational study was conducted to investigate the effect of various variable camber continuous trailing edge flap (VCCTEF) configurations on the lift and drag of a NASA generic transport model (GTM) wing section. Out of the five two-dimensional (2D) VCCTEF configurations considered with varying camber in the three-segment flap region, with a total deflection of 6?deg, the best stall performance was exhibited by the circular and parabolic arc camber flaps. Both circular and parabolic arc flaps give similar lift performance, with the circular arc yielding a higher lift coefficient and parabolic arc resulting in the lowest drag and hence the best L/D performance at design C _( l ) . Analysis of results based on linear theory shows excellent agreement between computed and theoretical incremental lift.

机译：进行了雷诺平均的Navier-Stokes（RANS）计算研究以研究各种可变弯曲连续后缘襟翼（VCCTEF）配置对NASA通用传输模型（GTM）翼段的升力和拖动的影响。在三段襟翼区域中的不同弧形区域考虑的五个二维（2D）VCCTEF配置中，总偏转为6°°，圆形和抛物线弧形襟翼展示了最佳的摊位性能。圆形和抛物线弧形翼片均提供类似的提升性能，圆弧产生更高的升力系数和抛物线电弧，导致最低拖动，从而在设计C _（L）时最佳的L / D性能。基于线性理论的结果分析显示了计算与理论增量升力之间的良好一致性。

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来源
《Journal of Fluids Engineering: Transactions of the ASME》 |2018年第10期|共13页
作者
Upender K. Kaul; Nhan T. Nguyen;
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作者单位

NASA Ames Research Center Moffett Field;

NASA Ames Research Center Moffett Field;

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原文格式 PDF
正文语种 eng
中图分类机械、仪表工业;计量学;机械制造工艺;流体力学;
关键词
Flow (Dynamics); Turbulence; Drag (Fluid dynamics); Wings; Airfoils; Pressure; Simulation; Design; NASA; Deflection;

机译：流动（动力学）;湍流;拖动（流体动力学）;翅膀;翼型;压力;模拟;设计;NASA;偏转;

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专利

1. Drag Characterization Study of Variable Camber Continuous Trailing Edge Flap [J] . Upender K. Kaul, Nhan T. Nguyen Journal of Fluids Engineering: Transactions of the ASME . 2018,第10期

机译：拖动变形弧形连续后缘襟翼的表征研究
2. Actuator energy and drag minimization of a blended-wing-body with variable-camber continuous trailing-edge flaps [J] . Zhao Wei, Kapania Rakesh K. Engineering Optimization . 2020,第7a9期

机译：致动器能量和变形翼身的拖曳最小化，具有可变弧形连续后缘襟翼的混纺机翼
3. Optimization of Variable-Camber Continuous Trailing-Edge Flap Configuration for Drag Reduction [J] . Ting Eric, Chaparro Daniel, Nhan Nguyen, Journal of Aircraft . 2018,第6期

机译：可变弯度连续后缘襟翼减阻的优化设计
4. Drag Optimization Study of Variable Camber Continuous Trailing Edge Flap (VCCTEF) Using OVERFLOW [C] . Upender K. Kaul, Nhan T. Nguyen AIAA applied aerodynamics conference;AIAA aviation forum . 2014

机译：基于OVERFLOW的可变弧度连续后缘襟翼（VCCTEF）阻力优化研究
5. Design and Construction of a Wind Tunnel Model with Active Variable Camber Continuous Trailing Edge Flap for Aeroelastic 'In-flight' Shape Optimization Tests [D] . Precup, Nathan 2018

机译：主动可变弯度连续后缘襟翼风洞模型的设计与构建，用于气动弹性“飞行中”形状优化测试
6. Trailing-Edge Flap Control for Mitigating Rotor Power Fluctuations of a Large-Scale Offshore Floating Wind Turbine under the Turbulent Wind Condition [O] . Bofeng Xu, Junheng Feng, Tongguang Wang, 2018

机译：湍流风能下用于减轻大型近海浮动风力涡轮机的转子电力波动的后缘襟翼控制
7. Aerodynamic optimization and mechanism design of flexible variable camber trailing-edge flap [O] . Weishuang LU, Yun TIAN, Peiqing LIU 2017

机译：柔性可变曲面后缘襟翼气动优化及机构设计

Drag Characterization Study of Variable Camber Continuous Trailing Edge Flap

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