液體渦流與下沉球體交互作用之雷射發光實驗

Jian-Shing Li; 李建興

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9001

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	楊德良(Der-Liang Young)
dc.contributor.author	Jian-Shing Li	en
dc.contributor.author	李建興	zh_TW
dc.date.accessioned	2021-05-20T20:06:13Z	-
dc.date.available	2009-08-14
dc.date.available	2021-05-20T20:06:13Z	-
dc.date.copyright	2009-08-14
dc.date.issued	2009
dc.date.submitted	2009-08-12
dc.identifier.citation	[1] Adrian, R. J. 1991 Particle-imaging techniques for experimental fluid mechanics. Annual Review of fluid mechanics 23, 261-304 [2] Capart, H., Young, D. L., Zech, Y. 2002 Voronoï imaging methods for the measurement of granular flows. Experiments in Fluids 32, 121 – 135. [3] Wen, H. C. 2004 Flow due to bubble motion along an incline: Laser-illuminated PTV measurements and meshless computations. Master Thesis, Graduate Institute of Civil Engineering, National Taiwan University. [4] Hsu, H. C. 2005 Interactions of solid particles and liquid vortices in inviscid flow computations and laser-illuminated pendulum experiments. Master Thesis, Graduate Institute of Civil Engineering, National Taiwan University. [5] Hsu, H. C. and Capart, H. 2007 Enhanced upswing in immersed collisions of tethered sphere. Physics of fluid 19. 101701 [6] Teng, C. L. 2004 Interactions of rigid particles and liquid in a concentrated dispersion: Largrangian computations and stereo imaging of RIM fluidization experiments. Master Thesis, Graduate Institute of Civil Engineering, National Taiwan University. [7] Weijermars, R. 1987 Progressive fluid deformation in low Reynolds number flow past a falling cylinder. American Journal of Physics 56 (6), 534 – 540. [8] Walker, J. D. A., Smith, C.R., Cerra, A. W. & Doligalski, T. L. 1987 The impact of a vortex ring on a wall. Journal of Fluid Mechanics 181, 99 – 140. [9] Swearingen, J. D., Crouch, J. D. & Handler, R. A. 1995 Dynamics and stability of a vortex ring impacting a solid boundary. Journal of Fluid Mechanics 297, 1 – 28. [10] Eames, I. & Dalziel, S. B. 2000 Dust resuspension by the flow around an impacting sphere. Journal of Fluid Mechanics 403, 305 – 328. [11] ten Cate, A., Nieuwstad, C. H., Derlsen, J. J. & Van den Akker, H. E. A. 2002 Particle imaging velocimetry experiments and lattice-Boltzmann simulations on a single sphere setting under gravity. Physics of Fluids 14(11), 4012 – 4025. [12] Thompson, M. C., Leweke, T. & Hourigan, K. 2007 Sphere-wall collisions: vortex dynamics and stability. Journal of Fluid Mechanics 575, 121 – 148. [13] Ardekani, A. M. & Rangel, R. H. 2008 Numerical investigation of particle-particle and particle-wall collisions in a viscous fluid. Journal of Fluid Mechanics 596, 437 – 466. [14] Leweke T., Schouveiler, L., Thompson, M. C. & Hourigan, K. 2008 Unsteady flow around impacting bluff bodies. Journal of Fluids and Structures 24, 1194 – 1203. [15] Ardekani, A. M., Dabiri, S. & Rangel, R. H. 2008 Collision of multi-particle and general shape objects in a viscous fluid. Journal of Computational Physics 227, 10094 – 10107. [16] Munro, R. J., Bethke, N. & Dalziel, S. B. 2009 Sediment resuspension and erosion by vortex ring. Physics of Fluids 21, 046601. [17] Haam, S. J., Brodkey, R. S., Fort, I. Klaboch, L. Placnik, M. & Vanecek, V. 2000 Laser Doppler anemometry measurements in an index of refraction matched column in a presence of dispersed beads—Part I. International Journal of multiphase flow 26, 1401. [18] Wu, C. S. 2009 A hybrid Cartesian/immersed-boundary finite-difference method for incompressible viscous flow with a falling sphere. Master thesis, Graduate Institute of Civil Engineering, National Taiwan University. [19] Lin, Y. C. 2008 Navier-Stokes computations for high Reynolds number flows with immersed stationary and accelerating bodies. Doctoral Dissertation, Graduate Institute of Civil Engineering, National Taiwan University.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9001	-
dc.description.abstract	本篇論文的目的是在探討固體球體在液體中運動所產生的渦流變化以及球體本身的軌跡變化。球體以某些固定的速度往下沉，球體的尾流將會形成渦場，而在不同的條件設定下，產生的渦會有些許的不同，尤其在高雷諾數的情況下。渦場是因為固體邊界層的黏滯力影響所產生的，所以我們也考慮了固體邊界層對於渦場的行為產生的影響，進而觀察邊界層跟流體之間的相互作用。實驗會分成兩個部分，第一部分我們會控制球的軌跡，以不同的速度往下沉，藉此觀察球體附近產生的流場和分析渦的軌跡；第二部分是讓固體球體不受任何拘束落下，在高雷諾數的情況下，紊流的影響會對球體產生比較嚴重的擾動，使得球體落下的時候不會是一條直線。此實驗是個三維性非常強的一個實驗。此外本實驗可以利用特殊的液體解決了固體跟液體之間折射率的問題，再利用雷射激發的原理，可以在一個三維流況中，切出一個二維切面，讓我們方便在一個三維空間中觀察以及分析。實驗分析是利用粒子影像分析的技術，在長時間曝光的影像下，可以觀察出液體中顆粒的軌跡，這可以用來代表整個流場；再利用PTV 方法，計算出速度場以及渦度場，這樣就可以更清楚了解固體和液體交互作用時，流場變化的一些更細部的資訊。為了使實驗更有完整性，所取得的資訊也會跟數值模擬做部分的比較，藉此搭起實驗跟數值模擬之間更完美的結合。	zh_TW
dc.description.abstract	The purpose of this thesis is to investigate the vortex structure brought by a solid sphere dropped in a liquid and to observe the coupled motions between the solid sphere and a liquid. When a solid sphere moved downward with some specific speed, the wake behind the sphere produced vortices. Under some different conditions, the trajectories of vortices are similar but a little different, especially in high Reynolds numbers. Vortex is generated because of the viscosity from the boundary layer, so we also want to observe the interactions between the boundary and the liquid. There are two parts in the experiment: in the first part we controlled the displacement of the sphere which dropped in different constant speeds, and then observed the flow field and vortices surrounding the sphere. In the second part we let the sphere drop freely. The movement of the sphere was interfered because the turbulence was more evident in high Reynolds numbers. In that situation, the trajectory of the sphere was not a straight line. Due to the experiment was a three dimensional experiment, the problem of refractive index was solved by using specific solid and liquid, so that we could observe and analyze the two dimensional phenomena in a three dimensional space. We used image processing methods to capture the trajectories of these bright spots seeding in a liquid. In the long exposure image, the trace of particles could stand for the flow field almost, and then use particle tracking velocimetry (PTV) to calculate the velocity field and vorticity field. So that we can understand the more detail information about the interaction between the solid sphere and the liquid. We needed numerical simulation to compare with the experiments to complete the investigation.	en
dc.description.provenance	Made available in DSpace on 2021-05-20T20:06:13Z (GMT). No. of bitstreams: 1 ntu-98-R96521305-1.pdf: 28349867 bytes, checksum: 005381184ece03cf02afc82365851a2f (MD5) Previous issue date: 2009	en
dc.description.tableofcontents	誌謝 II 摘要 III Abstract IV Table of contents V Figure list VII Table list X Chapter 1. Introduction 1 1.1 Motivation 1 1.2 Literature review 2 1.3 Present investigation 4 Chapter 2. Experimental apparatus and imaging methods 6 2.1 Experimental set-up 6 2.1.1 Equipment 6 2.1.2 Liquid 8 2.1.3 Particle 8 2.1.4 Experimental procedure 9 2.2 Image processing method 13 2.2.1 Long exposure visualization 13 2.2.2 Particle tracking velocimetry (PTV) 16 2.3 Experimental error analysis 21 2.3.1 Temperature effect 21 2.3.2 Equipment error analysis 23 Chapter 3. Experimental result 25 3.1 Experimental conditions 25 3.2 Results for a sphere moved downward with constant velocity 27 3.2.1 Reynolds number equals to 350 28 3.2.2 Reynolds number equals to 500 31 3.2.3 Reynolds number equals to 800 35 3.2.4 Reynolds number equals to 2000 39 3.2.5 Vortices structure and vorticity 46 3.3 Results for a sphere dropped freely 61 Chapter 4. Trajectory of vortex structure and comparison with numerical simulation 66 4.1 Effect of boundary layer on different initial conditions 68 4.2 Effect of Reynolds numbers on vortex tracking 69 4.3 Numerical simulation 71 Chapter 5. Conclusions and future work 75 5.1 Conclusions 75 5.2 Future work 76 Reference 78
dc.language.iso	en
dc.title	液體渦流與下沉球體交互作用之雷射發光實驗	zh_TW
dc.title	Interactions of a falling sphere and liquid vortices in laser-illuminated experiments	en
dc.type	Thesis
dc.date.schoolyear	97-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	卡艾瑋(Herv&eacute; Capart),楊馥菱(Fu-Ling Yang),廖清標(Ching-Biao Liao),沈立軒(Li-Hsuan Shen)
dc.subject.keyword	渦&#63946,高&#63817,&#63837,&#63849,&#63993,子影像分析,長時間曝光,PTV方法,	zh_TW
dc.subject.keyword	vortex structure,high Reynolds numbers,image processing methods,long exposure image,particle tracking velocimetry (PTV),	en
dc.relation.page	80
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2009-08-12
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

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