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dc.contributor.authorTseng, Sheng-Yungen_US
dc.identifier.citation1. Williamson, C., Evolution of a single wake behind a pair of bluff bodies. Journal of Fluid Mechanics, 1985. 159(1): p. 1-18. 2. Sumner, D., et al., Fluid behaviour of side-by-side circular cylinders in steady cross-flow. Journal of Fluids and Structures, 1999. 13(3): p. 309-338. 3. Xu, S., Y. Zhou, and R. So, Reynolds number effects on the flow structure behind two side-by-side cylinders. Physics of Fluids, 2003. 15: p. 1214. 4. Mahbub Alam, M., M. Moriya, and H. Sakamoto, Aerodynamic characteristics of two side-by-side circular cylinders and application of wavelet analysis on the switching phenomenon. Journal of Fluids and Structures, 2003. 18(3): p. 325-346. 5. Wang, Z. and Y. Zhou, Vortex interactions in a two side-by-side cylinder near-wake. International journal of heat and fluid flow, 2005. 26(3): p. 362-377. 6. Liu, K., et al., Wake patterns of flow past a pair of circular cylinders in side-by-side arrangements at low Reynolds numbers. Journal of Hydrodynamics, Ser. B, 2007. 19(6): p. 690-697. 7. Yen, S.C. and C.T. Liu, Gap-flow patterns behind twin-cylinders at low Reynolds number. Journal of mechanical science and technology, 2011. 25(11): p. 2795-2803. 8. Sumner, D. and M. Richards, Some vortex-shedding characteristics of the staggered configuration of circular cylinders. Journal of fluids and structures, 2003. 17(3): p. 345-350. 9. Akbari, M. and S. Price, Numerical investigation of flow patterns for staggered cylinder pairs in cross-flow. Journal of fluids and structures, 2005. 20(4): p. 533-554. 10. Sumner, D., M. Richards, and O. Akosile, Strouhal number data for two staggered circular cylinders. Journal of Wind Engineering and Industrial Aerodynamics, 2008. 96(6): p. 859-871. 11. Lam, K., P. Wong, and N. Ko, Interaction of flows behind two circular cylinders of different diameters in side-by-side arrangement. Experimental thermal and fluid science, 1993. 7(3): p. 189-201. 12. Ko, N., P. Wong, and R. Leung, Interaction of flow structures within bistable flow behind two circular cylinders of different diameters. Experimental thermal and fluid science, 1996. 12(1): p. 33-44. 13. Gao, Y., et al., Experimental study on the near wake behind two side-by-side cylinders of unequal diameters. Fluid dynamics research, 2010. 42(5): p. 055509. 14. 李宜儒, 運用小波方法分析並列雙圓柱尾流的長時間特性. 中興大學機械工程學系所學位論文, 2006(2006 年): p. 1-141. 15. 張修豪, 具有兩倍直徑比之錯列雙圓柱下游流場特性之研究. 中興大學機械工程學系所學位論文, 2010(2010 年): p. 1-110.en_US
dc.description.abstract本論文利用質點影像測速系統(PIV)、雷射都普勒量測系統(LDV)、流場可視化、快速傅立葉轉換(FFT)等進行分析,探討當雷諾數為1000,入流速度5cm/s,具有兩倍直徑比(D/d=2)之錯列圓柱在不同垂直間距(T/D=2、1.5、1)及水平間距(-3.5≦L/D≦3)下游流場結構變化。研究結果顯示:流場結構大致可分為兩大類:當間隙流偏向大圓柱時,此流場定義為Mode1;反之,當間隙流偏向小圓柱時,此類流場定義為Mode2。兩大類流場依照不同流場特性可再細分如下:在Mode1流場中,當間距為T/D=2,-3.5≦L/D≦-1.5,及T/D=1.5,-3.5≦L/D≦-2.5時,此流場結構呈現寬、窄域尾流各自脫離。當間距為T/D=1,-3.5≦L/D≦-1,因間隙流偏向大圓柱,小圓柱的寬域尾流C渦漩與窄域A渦漩結合為A+C渦漩渦旋並與B渦漩往下游流場移動;其中在-3.5≦L/D≦-3時,小圓柱的位置剛好位於大圓柱度擾動最大處,使的小圓柱尾流完全被抑制。當間距為T/D=1.5,-2.5≦L/D≦-1時,會有大圓柱尾流牽引小圓柱尾流脫離的情況發生。當間距為T/D=1,-2.5≦L/D≦1時,在近域區內會有寬域尾流切斷窄域尾流的情況發生。在T/D=1,L/D=0處為Mode1及Mode2轉換處,會有兩種不同方向的切斷方式,其一為小圓柱後方寬域尾流切斷大圓柱下游的窄域尾流,屬於Mode1流場;其二為大圓柱寬域尾流切斷小圓柱下游的窄域流尾,此為Mode2流場。在Mode2流場中,當間距為T/D=2,-1≦L/D≦0,及T/D=1.5,-0.5≦L/D≦1時,在大圓柱的下剪力層會有Bn渦漩結合的情況發生。當間距為T/D=2,0≦L/D≦3時,寬、窄域尾流各自脫離;當間距為T/D=1.5、1, 1≦L/D≦3時,隨著垂直間距縮小,間隙流偏向角度增加使得間隙流推擠窄域尾流的情況更明顯。 關鍵字:錯列、鈍體、間隙流、雙圓柱、不等直徑zh_TW
dc.description.abstractAbstract This study investigates the flow characteristics using Particle Image Velocimetry (PIV), Laser Doppler measurement system (LDV), flow visualization and fast Fourier transform (FFT). The Reynolds number is 1000, the inflow velocity is 5cm/s, and the diameter ratio of staggered cylinders is 2.0. The staggered cylinders are arranged at three vertical spacing (T/D=2, 1.5, 1) with the horizontal spacing varying within -3.5 ≤ L/D ≤ 3. The flow structures behind the staggered cylinders can be divided into two main categories. First of all, as the gap flow biases toward the large cylinder, it is defined as Mode 1; while the gap flow biases toward the small cylinder, the flow is defined as Mode 2. According to the spacing arranged, the flow can be divided into several kinds. For the Mode 1, while T/D=2, L/D=-3.5 ≤ L/D ≤ -1.5 and T/D=1.5, -3.5 ≤ L/D ≤ -2.5, the wide and narrow wakes of each cylinder shed nearly independently. For T/D=1, -3.5 ≤ L/D ≤ -1, the C vortex of small cylinder (wide wake) and the A vortex of large cylinder (narrow wake) merges and move downstream with B vortex. For -3.5 ≦ L / D ≦ -3, the wake behind small cylinder is completely suppressed. For T/D=1.5, -2.5 ≤ L/D ≤ -1, the wake flow of large cylindrical interacts strongly with that of small cylinder. For T/D=1, -2.5 ≤ L/D ≤ 1, the narrow wake is terminated by the wide wake. In case of Mode 1, the narrow wake of large cylinder is truncated by the wide wake of small cylinder; and vice versa in the case of Mode 2. Further, in cases of Mode 2, for T/D=2, -1 ≤ L/D ≤ 0, and T/D=1.5, -0.5 ≤ L/D ≤ 1, the inner shear layer of large cylinder rolls up a series of vortex Bn, induced by the formation of the vortices C and D of the narrow of small cylinder. For T/D=2, 0 ≤ L/D ≤ 3, the wide and the narrow wakes shed nearly independently. In cases of T/D=1.5, 1, 1 ≤ L/D ≤ 3, the biased angle of gap flow increases and the degree of squeezing of the narrow wake becomes more severely. Keywords: staggered, blunt, tip clearance flow, double cylinder, unequal diameteren_US
dc.description.tableofcontents目 錄 摘要 I Abstract II 目 錄 III 圖 目 錄 V 符號表 VIII 第一章 緒論 1 1.1前言與研究動機 1 1.2 文獻回顧 1 第二章實驗設備方法與數據分析介紹 6 2.1低速循環水槽 6 2.2壓克力模型與支撐系統 6 2.3三維精密移動平台 7 2.4 PIV量測系統 7 2.5雷射都普勒測速系統(LDA) 8 2.6流場可視化 9 2.7具有寬、窄域主頻的速度擾動能量等高線圖分析 9 第三章 結果與討論 10 3.1單一圓柱流場特性 10 3.2具有不同間距(T/D=2、1.5、1)錯列圓柱流場分類 11 3.3流場歸類 13 3.3.1寬窄域尾流各自脫離(T/D=2 L/D=-3及T/D=2 L/D=0.5) 14 3.3.2大圓柱尾流牽引小圓柱尾流脫離(T/D=1.5 L/D=-2) 16 3.3.3渦旋A+C型流場(T/D=1 L/D=-3及T/D=1 L/D=-2 ) 17 3.3.4寬域尾流切斷窄域尾流(T/D=1 L/D=-1、0) 19 3.3.5 Bn渦漩脫離(T/D=2 L/D=0及T/D=1.5 L/D=0) 21 3.3.6間隙流推擠窄域尾流 (T/D=1.5 L/D=1.5及T/D=1 L/D=2) 24 第四章 結論 27 參考文獻 28zh_TW
dc.subjecttip clearance flowen_US
dc.subjectdouble cylinderen_US
dc.subjectunequal diameteren_US
dc.titleStudy on Flow Characteristics behind Staggered Cylinders of Diameter Ratio Two at Different Gap Ratiosen_US
dc.typeThesis and Dissertationzh_TW
item.openairetypeThesis and Dissertation-
item.fulltextno fulltext-
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