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槽道湍流在确定分布的展向电磁力调制下的壁面减阻机理 被引量:1

Turbulent Drag Reduction in Channel Flow Modulated by Spanwise Lorentz Force with Steady Distribution
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摘要 为了研究槽道湍流中确定分布的展向电磁力的流动控制与减阻问题,采用直接数值模拟的方法,对槽道湍流的确定分布展向电磁力控制后的流场中流向脉动速度、法向脉动速度以及雷诺应力分布的变化规律进行了研究。研究结果表明,槽道湍流流场存在大量分布紊乱的准流向涡和发夹涡结构,经过确定分布的展向电磁力调制之后,该流场的发夹涡结构基本消失,仅存在规律分布的准流向涡结构。控制后的流场相比于湍流流场,其流向脉动速度和法向脉动速度均受到了束缚作用,尤其是近壁区域更为明显。整个控制过程的实质是雷诺应力离散点向原点集中的过程,这个过程导致了流场雷诺应力和壁面阻力的下降。 The flow control and drag reduction in turbulent channel flow modulated by spanwise Lorentz force with steady distributions were carried out by direct numerical simulation(DNS). The characteristic of normal fluctuation velocity,streamwise fluctuation velocity as well as the Reynolds stress distribution were discussed. The results suggest that,in the turbulent channel flow,there are all kinds of streamwise vortices and hairpin vortices which distribute irregularly. After the Lorentz force induced,the hairpin vortices almost disappeared,and streamwise vortices distribute regularly. Besides,the normal fluctuation velocity and streamwise fluctuation velocity have an effect of reducing fluctuation intensity,especially in the near-wall area. During the whole control process,the changes lead to the distribution of Reynolds stress concentrating near to the origin which results in the reduction of Reynolds stress and the skin friction in the flow field.
作者 吴文堂 洪延姬 范宝春
机构地区 装备学院激光推进及其应用国家重点实验室 南京理工大学瞬态物理国家重点实验室
出处 《推进技术》 EI CAS CSCD 北大核心 2015年第8期1135-1142,共8页 Journal of Propulsion Technology
基金 国家自然科学基金(11372356 11172140)
关键词 槽道湍流 直接数值模拟 湍流减阻 电磁力 雷诺应力 Turbulent channel flow Direct numerical simulation(DNS) Turbulent drag reduction Lorentz force Reynolds stress
分类号 O357.5 [理学—流体力学]
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参考文献16

  • 1Jung W J, Mangiavacchi N, Akhavan R. Suppression of Turbulence in Wall-Bounded Flows by High-Frequency Spanwise Oscillations [J]. Physics of Fluids, 1992, 4 (8): 1605-1607.
  • 2Laadhari F, Skandaji L, Morel R. Turbulence Reduc-tion in a Boundary Layer by a Local Spanwise Oscillat- ing Surfaee[J]. Physics of Fluids, 1994, 6( 10): 3218- 3220.
  • 3Choi K S, Graham M. Drag Reduction of Turbulent Pipe Flows by Circular-Wall Oscillation [Jl. Physics of Fluids, 1998, 10(1): 7-9.
  • 4Berger T W, Kim J, Lee C, et al. Turbulent Boundary Layer Control Utilizing the Lorentz Force [Jl. Physics of Fluids, 2000, 12(3): 631-649.
  • 5Lee J H, Sung H J. Response of a Spatially Developing Turbulent Boundary Layer to a Spanwise Oscillating Electromagnetic Force [J]. Journal of Turbulence, 2005, 6(39): 2-15.
  • 6Pang J, Choi K S. Turbulent Drag Reduction by Lorentz Force Oscillation [ Jl. Physics of Fluids, 2004, 16 (5) : 35-38.
  • 7Park J, Henoch C, Camley M M. Lorentz Force Control of Turbulent Channel Flow I J]. AIAA Journal, 2003, 41: 55-66.
  • 8Breuer K S, Park J, Henoch C. Actuation and Control of Turbulent Channel Flow Using Lorentz Force [J]. Physics ofFhids, 2004, 16(4): 897-907.
  • 9Huang Leping, Fan Baoehun, Dong Gang. Turbulent Drag Reduction Via a Transverse Wave Travelling Along Streamwise Direction Induced by Lorentz Force [J]. Physics of Fluids, 2010, 22: 015103.
  • 10郭春风,范宝春.槽道湍流的法向与展向电磁力壁面减阻[J].推进技术,2013,34(8):1023-1029. 被引量:2

二级参考文献26

  • 1Schoppa W, Hussain F, Coherent structure generation in near-wall turbulence. J Fluid Mech, 2002, 453:57-108.
  • 2Kim J, Moin P, Moser R. Turbulence statistics in fully de- veloped channel flow at low Reynolds number. J Fluid Mech, 1987, 177:133-166.
  • 3Jung W J, Mangiavacchi, N, Akhavan R. Suppression of tur- bulence in wMl-bounded flows by high-frequency spanwise oscillations. Phys Fluids, 1992, 4(8): 1605-1607.
  • 4Laadhari F, Skandaji L, Morel R. Turbulence reduction in a boundary layer by a local spanwise oscillating surface. Phvs Fluids, 1994, 6(10): 3218-3220.
  • 5Trujillo S, Bogard D, Ball K. Turbulent boundary layer drag reduction using an oscillating wall. AIAA Paper, AIAA97-1870, 1997.
  • 6Choi KS, Graham M. Drag reduction of turbulent pipe flows by circular-wall oscillation. Phys Fluids, 1998, 10(1): 7-9.
  • 7Zhao H, Wu JZ, Luo JS. Turbulent drag reduction by trav- eling wave of flexible wall. Fluid Dynamics Research, 2004, 34(3): 175-198.
  • 8Quadrio M, Ricco P, Viotti C. Streamwise-travelling waves of spanwise wall velocity for turbulent drag reduction. J Fluid Mech, 2009, 627:161-178.
  • 9Huang LP, Fan BC, Dong G. Turbulent drag reduction via a transverse wave traveling along streamwise direction in- duced by Lorentz force. Phys Fluids, 2010, 22(1): 015103- 1-015103-8.
  • 10Canto C, Hassaini MY, Quarteroni A, et al. Spectral Meth-ods in Fluid Dynamics. New York: Springer-Verlag, 1988.

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2015年 第8期

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