EXPERIMENTAL INVESTIGATION ON THE DRAG REDUCTION CHARACTERISTICS OF TRAVELING WAVY WALL AT HIGH REYNOLDS NUMBER IN WIND TUNNEL 被引量：4

EXPERIMENTAL INVESTIGATION ON THE DRAG REDUCTION CHARACTERISTICS OF TRAVELING WAVY WALL AT HIGH REYNOLDS NUMBER IN WIND TUNNEL

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摘要 Drag reduction experiments of the traveling wavy wall at high Reynolds number, ranging from 1.46×106 to 5.83×106 based on the free-stream velocity and the model length, were conducted. A suit of traveling wavy wall device was developed and its characteristics of drag reduction at high Reynolds number were investigated. The drag forces of the traveling wavy wall with various wave speeds （ c ） were measured at different wind speeds （U ） in the FL-8 low-speed wind tunnel and compared with the drag force of the flat plate. The results show that the mean drag force of the traveling wavy wall decreases as the value of c /U increases, at different wind velocities, the values of c /U corresponding to minimal drag force of the traveling wavy wall are different, when the values of c /U are larger than 0.6, the mean drag forces of the traveling wavy wall are smaller than those of the flat plate, and the drag reduction can be up to 60%. The drag reduction effectiveness of traveling wavy wall is thus achieved. Furthermore, as the value of c /U increases, the traveling wavy wall can restrain the separation and improve the quality of flow field. Drag reduction experiments of the traveling wavy wall at high Reynolds number, ranging from 1.46×106 to 5.83×106 based on the free-stream velocity and the model length, were conducted. A suit of traveling wavy wall device was developed and its characteristics of drag reduction at high Reynolds number were investigated. The drag forces of the traveling wavy wall with various wave speeds （ c ） were measured at different wind speeds （U ） in the FL-8 low-speed wind tunnel and compared with the drag force of the flat plate. The results show that the mean drag force of the traveling wavy wall decreases as the value of c /U increases, at different wind velocities, the values of c /U corresponding to minimal drag force of the traveling wavy wall are different, when the values of c /U are larger than 0.6, the mean drag forces of the traveling wavy wall are smaller than those of the flat plate, and the drag reduction can be up to 60%. The drag reduction effectiveness of traveling wavy wall is thus achieved. Furthermore, as the value of c /U increases, the traveling wavy wall can restrain the separation and improve the quality of flow field.

作者 YAO Yan LU Chuan-jing SI Ting ZHU Kun

机构地区 Department of Engineering Mechanics Beijing Electromechanic Engineering Institute State Key Laboratory of Ocean Engineering Department of Modern Mechanics

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2010年第5期719-724,共6页 水动力学研究与进展B辑（英文版）

关键词 flow control drag reduction traveling wavy wall wind tunnel test flow control drag reduction traveling wavy wall wind tunnel test

分类号 O357.54 [理学—流体力学] O357.1 [理学—流体力学]

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参考文献7

1邹琳,林玉峰.亚临界雷诺数下波浪型圆柱绕流的数值模拟及减阻研究[J].水动力学研究与进展（A辑）,2010,25(1):31-36. 被引量：26
2CAI Shu-peng,JIN Guo-yu,LI Da-mei,Yang Lin.DRAG REDUCTION EFFECT OF COUPLING FLEXIBLE TUBES WITH TURBULENT FLOW[J].Journal of Hydrodynamics,2008,20(1):96-100. 被引量：9
3杨铸,吴介之.利用轴对称行波壁减阻(英文)[J].中国科学技术大学学报,2005,35(4):471-479. 被引量：6
4薛纭,刘延柱,陈立群.超细长弹性杆的分析力学问题[J].力学学报,2005,37(4):485-493. 被引量：29
5杨荣生,张铭杰,张同伟,李立武,唐俊红.川西南碳酸盐岩储层流体包裹体气体地球化学研究[J].沉积学报,2003,21(3):522-527. 被引量：4
6X.-Y. Lu,X.-Z. Yin. Propulsive performance of a fish-like travelling wavy wall[J] 2005,Acta Mechanica(1-4):197～215
7Wu Chuijie,Xie Yanqiong,Wu Jiezhi. “Fluid roller bearing” effect and flow control[J] 2003,Acta Mechanica Sinica(5):476～484

二级参考文献44

1薛纭,陈立群,刘延柱.受曲面约束弹性细杆的平衡问题[J].物理学报,2004,53(7):2040-2045. 被引量：16
2刘延柱,薛纭,陈立群.弹性细杆平衡的动态稳定性[J].物理学报,2004,53(8):2424-2428. 被引量：22
3薛纭,陈立群,刘延柱.Kirchhoff方程的相对常值特解及其Lyapunov稳定性[J].物理学报,2004,53(12):4029-4036. 被引量：18
4樊星,姜楠.用平均速度剖面法测量壁湍流摩擦阻力[J].力学与实践,2005,27(1):28-30. 被引量：26
5蔡书鹏,唐川林,李大美.柔性管自激振动减阻效果的实验研究[J].水利水电科技进展,2006,26(1):16-19. 被引量：2
6姜楠,孙伟.输气管道壁面涂料减阻机理的实验研究[J].力学与实践,2006,28(1):32-35. 被引量：2
7丛茜,封云,任露泉.仿生非光滑沟槽形状对减阻效果的影响[J].水动力学研究与进展（A辑）,2006,21(2):232-238. 被引量：43
8梅凤翔刘端.高等分析力学[M].北京:北京理工大学出版社,1991..
9柳少波,顾家裕.流体包裹体成分研究方法及其在油气研究中的应用[J].石油勘探与开发,1997,24(3):29-33. 被引量：54
10Love AEH. A Treatise on Mathematical Theory of Elasticity. 4th ed, New York: Dover, 1927.

共引文献69

1丁九峰,王德强,晏飞.凹坑表面圆柱的尾流特性[J].船舶工程,2022,44(2):140-146. 被引量：1
2薛纭,罗绍凯.分析力学基本问题及其变分原理的研究进展[J].上海应用技术学院学报（自然科学版）,2008,8(4):241-248. 被引量：3
3李立武,张铭杰,杜丽,胡沛青,房玄.岩石热脱气单体碳/氢同位素组成分析装置[J].岩矿测试,2005,24(2):135-137. 被引量：7
4薛纭,刘延柱,陈立群.Kirchhoff弹性杆动力学建模的分析力学方法[J].物理学报,2006,55(8):3845-3851. 被引量：19
5薛纭,刘延柱.Kirchhoff弹性杆分析动力学的准坐标表达[J].力学季刊,2006,27(4):550-556. 被引量：3
6薛纭,张毅.超细长弹性杆的力学模型及其边界条件[J].应用科学学报,2007,25(3):306-310. 被引量：2
7孙玮,刘树根,马永生,蔡勋育,徐国盛,王国芝,雍自权,袁海锋,盘昌林.四川盆地威远—资阳地区震旦系油裂解气判定及成藏过程定量模拟[J].地质学报,2007,81(8):1153-1159. 被引量：65
8张兴刚,孔维姝.两端固定弹性弦的理论研究与数值模拟[J].山东大学学报（理学版）,2008,43(10):71-76. 被引量：2
9吴介之,杨延涛.绕刚体的分离涡流到绕柔体的受控势流[J].实验流体力学,2008,22(B12):21-27. 被引量：1
10薛纭,翁德玮.超细长弹性杆动力学的Gauss原理[J].物理学报,2009,58(1):34-39. 被引量：17

同被引文献48

1王令,陈秋炀,曾敏,周砚耕,王秋旺,黄彦平,肖泽军.矩形窄通道内带纵向涡发生器的传热强化[J].化工学报,2006,57(11):2549-2553. 被引量：12
2BHARAT B,YONG C J.Natural and biomimeticartificial surfaces for superhydrophobicity,self-cleaning,low adhesion,and drag reduction[J].Progress in MaterialsScience,2011,56:1-108.
3EL-SAMNI O A,CHUN H H,YOON H S.Dragreduction of turbulent flow over thin rectangularriblets[J].International Journal of Engineering Science,2007,45:436-454.
4VOLKMAR S,YVONNE W,WOLFRAM H.Drag-reducing paints for the reduction of fuelconsumption in aviation and shipping[J].Progress inOrganic Coatings,2011,70:224-229.
5YUICHI M,HIROSHI F,YOSHIHIKO O,et al.Skinfriction reduction by large bubbles in a horizontalchannel flow[J].International Journal of MultiphaseFlow,2007,33:147-163.
6SIMONNET M,GENTRIC C,OLMOS E,et al.Experimental determination of the drag coefficient in aswarm of bubbles[J].Chemical Engineering Science,2007,62:858-866.
7MOHANARANGAM K,CHEUNG S C P,TU J Y,etal.Numerical simulation of micro-bubble drag reductionusing population balance model[J].Ocean Engineering,2009,36:863-872.
8ZBIGNIEW M,TADEUSZ M,BARBARA G M.Theinfluence of polymer-surfactant aggregates on dragreduction[J].Thin Solid Films,2008,516:8848-8851.
9KIM N,KIM S,LIM S H,et al.Measurement of dragreduction in polymer added turbulent flow[J].International Communications in Heat and MassTransfer,2009,36:1014-1019.
10BABENKO V V,CHUN H H,LEE I.Coherent verticalstructures and methods of their control for drag reductionof bodies[J].Journal of Hydrodynamics,2010,22(5):45-50.

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1QI Xiao-ni,LIU Yong-qi,DU Guang-sheng.EXPERIMENTAL AND NUMERICAL STUDIES OF AERODYNAMIC PERFORMANCE OF TRUCKS[J].Journal of Hydrodynamics,2011,23(6):752-758. 被引量：1
2高小明,李惟毅,汪健生.一种低流阻表面的流动与传热特性[J].机械工程学报,2012,48(8):128-134. 被引量：4
3高小明,李惟毅,汪健生.湍流边界层内添加控制的流动与传热特性[J].中国电机工程学报,2013,33(14):67-74. 被引量：3
4高小明,李惟毅,汪健生.凹槽表面的流动与传热特性[J].化工学报,2013,64(6):1948-1958.

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1叶恩立,周宜红,肖焕雄,任磊.钢筋石笼起动流速试验与流场结构数模分析[J].天津大学学报（自然科学与工程技术版）,2014,47(2):108-115. 被引量：9
2Jing-cheng LIU,Shu-you ZHANG,Xin-yue ZHAO,Guo-dong YI,Zhi-yong ZHOU.板翅换热器入口位置不同翅片排列方式对流体流动与换热的影响（英文）[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2015,16(4):279-294. 被引量：1
3刘景成,张树有,周智勇.一种新型仿生翅片及其对流体流动与传热影响[J].机械工程学报,2015,51(12):161-169. 被引量：12
4王斌,李华星.等离子体对流动湍动能的控制[J].航空学报,2015,36(12):3809-3821. 被引量：5
5汪健生,王晓,朱强,赵云俭.湍流边界层内钝体扰流的流动与传热特性[J].机械工程学报,2015,51(24):168-176. 被引量：7
6韩亮,崔洪江,高凤,邓纪辰.3000马力混合动力机车多部件通风冷却系统研究[J].大连交通大学学报,2020,41(3):17-21. 被引量：3
7王金龙,苑成东,刘昭良,崔大伟.铜基CPU水冷散热器的散热数值模拟与结构优化[J].材料热处理学报,2020,41(10):155-161. 被引量：5

1YAO Yan,LU Chuan-jing,SI Ting,ZHU Kun.WATER TUNNEL EXPERIMENTAL INVESTIGATION ON THE DRAG REDUCTION CHARACTERISTICS OF THE TRAVELING WAVY WALL[J].Journal of Hydrodynamics,2011,23(1):65-70. 被引量：10
2SU CaiHong.The reliability of the improved e^N method for the transition prediction of boundary layers on a flat plate[J].Science China(Physics,Mechanics & Astronomy),2012,55(5):837-843.
3Jing Zhu,Lian-Cun Zheng,Xin-Xin Zhang.The influence of thermal radiation on MHD station-point flow past a stretching sheet with heat generation[J].Acta Mechanica Sinica,2011,27(4):502-509.
4LI Juan,XU YiZhe,WU ZiNiu.Kutta-Joukowski force expression for viscous flow[J].Science China(Physics,Mechanics & Astronomy),2015,58(2):90-94.
5朱婧,郑连存,张欣欣.Analytical solution to stagnation-point flow and heat transfer over a stretching sheet based on homotopy analysis[J].Applied Mathematics and Mechanics(English Edition),2009,30(4):463-474. 被引量：1
6俞建阳,刘华坪,徐迪孟,陈浮.Investigation of the DBD Plasma Effect on Flat Plate Flow[J].Plasma Science and Technology,2014,16(3):197-202. 被引量：1
7刘玉秋,于开平,张嘉钟.水下非流线型航行体减阻的数值模拟与比较[J].工程力学,2007,24(2):178-182. 被引量：12
8许常悦,孙智,王从磊.偏斜来流对圆柱跨声速绕流的影响[J].应用数学和力学,2014,35(10):1135-1142. 被引量：1
9王汉封,徐萌霞.有限长正方形棱柱绕流的双稳态现象[J].力学与实践,2013,35(3):46-50. 被引量：10
10AHMAD Imtiaz,黄永祥,卢志明.Detrended analysis of Reynolds stress in a decaying turbulent flow in a wind tunnel with active grids[J].Journal of Hydrodynamics,2014,26(1):122-128.

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