Self-noise effects on aerodynamics of cambered airfoils at low reynolds number

被引:0
|
作者
机构
[1] Ikeda, Tomoaki
[2] Atobe, Takashi
[3] Fujimoto, Daisuke
[4] Inasawa, Ayumu
[5] Asai, Masahito
来源
| 1600年 / AIAA International, 12700 Sunrise Valley Drive, Suite 200Reston, VA, Virginia, Virginia 20191-5807, United States卷 / 53期
关键词
Aerodynamics of cambered airfoils are investigated numerically; using aNACAfour-digit series of6%thickness at low Reynolds number Re = 10; 000 and moderate Mach numberM = 0.2; by focusing on the relation of aeroacoustic effects and hydrodynamic flow unsteadiness. Two-dimensional numerical simulations show that the onset of an acoustic feedback loop leads to an abrupt increase in lift force. Associated with the feedback process; the evolution of two-dimensional vortices in the suction-side boundary layer shifts a separation bubble toward the leading edge; which causes a relatively steep pressure recovery near the trailing edge. Through a parametric study on airfoil shape; the aerodynamically favorable feature of aft camber is further enhanced with the presence of an acoustic feedback loop. In addition; the aft camber airfoil successfully forms a laminar separation bubble in three-dimensional calculations at the present Reynolds number; developing transitional behavior on the suction side; supposedly prompted by the airfoil tones. Although the boundary layer shows three-dimensional complexity; still the formation of an acoustic feedback loop is strongly suggested; via the comparison of spanwise correlations. © 2014 by the American Institute of Aeronautics and Astronautics; Inc. All rights reserved;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [1] Self-Noise Effects on Aerodynamics of Cambered Airfoils at Low Reynolds Number
    Ikeda, Tomoaki
    Atobe, Takashi
    Fujimoto, Daisuke
    Inasawa, Ayumu
    Asai, Masahito
    AIAA JOURNAL, 2015, 53 (08) : 2256 - 2269
  • [2] Unsteady aerodynamics of plunging cambered foil at low Reynolds number
    Shaik, Masuruddin
    Hazarika, Shyamanta M.
    PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART G-JOURNAL OF AEROSPACE ENGINEERING, 2023, 237 (02) : 374 - 386
  • [3] Investigation of the Method of Brooks, Pope, and Marcolini for Noise Prediction of Low Reynolds Number, Moderately Cambered Airfoils
    Hassett, Anthony M.
    Gaeta, Richard J.
    AIAA SCITECH 2024 FORUM, 2024,
  • [4] A Comparison of NACA 0012 and NACA 0021 Self-noise at Low Reynolds Number
    Laratro, A.
    Arjomandi, M.
    Cazzolato, B.
    Kelso, R.
    FLUID-STRUCTURE-SOUND INTERACTIONS AND CONTROL, 2016, : 21 - 25
  • [5] Nonlinear aerodynamics of airfoils at low Reynolds number and its prediction model
    Zhang P.
    Sun S.
    Hangkong Dongli Xuebao/Journal of Aerospace Power, 2024, 39 (01):
  • [6] The Effect of Microcylinder Shape on Enhancing the Aerodynamics of Airfoils at a Low Reynolds Number
    Gnatowska, Renata
    Gajewska, Karolina
    ENERGIES, 2025, 18 (01)
  • [7] Reynolds and Mach number effects on the aerodynamics and design of airfoils for the Martian atmosphere
    Moreschi, Niccolo
    Guardone, Alberto
    AIAA AVIATION FORUM AND ASCEND 2024, 2024,
  • [8] AERODYNAMIC PERFORMANCE OF SYMMETRIC AND CAMBERED AIRFOILS AT LOW REYNOLDS NUMBERS
    Cruz, Abdiel
    Rodriguez, Arturo
    Kotteda, V. M. Krushnarao
    Paez, Brandon
    Villanueva, Daniel
    Chijioke, Clinton
    Terrazas, Jose
    Kumar, Vinod
    PROCEEDINGS OF ASME 2022 FLUIDS ENGINEERING DIVISION SUMMER MEETING, FEDSM2022, VOL 1, 2022,
  • [9] Influence of Turbulence on Cambered and Symmetrical Airfoils at Low Reynolds Numbers
    Kay, Nicholas J.
    Richards, Peter J.
    Sharma, Rajnish N.
    AIAA JOURNAL, 2020, 58 (05) : 1913 - 1925
  • [10] Low Reynolds number aerodynamics of low-aspect-ratio, thin/flat/cambered-plate wings
    Pelletier, Alain, 1600, (AIAA, Reston, VA, United States):
12345