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E-raamat: Piv And Water Waves

Edited by (Univ Of Oslo, Norway), Edited by (Univ Of Oslo, Norway), Edited by (Cornell University, Usa)
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This volume introduces particle image velocimetry (PIV), a technique for water wave measurement in the laboratory and in the open ocean. It discusses the turbulent dissipation, Reynolds stresses and vortical structures in boundary layers of the sea bed, as well as ships, ship wakes, propulsion hydrodynamics, cavitation and free surface waves. Upwelling behind crests of micro-breaking ocean surface waves (important for the exchange of greenhouse gases between air and water) and large amplitude internal solitons in the ocean are measured. The book includes velocities and accelerations in breaking ocean waves, run-up, interaction between strong waves and breakwaters, as well as a concise description of the state-of-the-art PIV technique.This book has its origins in a meeting on PIV and water waves which was held in Cambridge in 2002. The main body of the book consists of six overview or in-depth articles by invited authors who are specialists in their respective fields, as well as practitioners of PIV. A complete set of abstracts from the meeting is enclosed. The book is well suited for scientists who want to acquaint themselves with current experimental hydrodynamics, as well as for researchers and graduate students who are already working in the field or plan to do so.
Preface v
Part I Review
Chapters
Chapter 1 Quantitative Imaging Techniques and Their Application to Wavy Flows
1(50)
J. Kristian Sveen and Edwin A. Cowen
Chapter 2 PIV Measurements in the Bottom Boundary Layer of the Coastal Ocean
51(30)
W.A.M. Nimmo Smith, T.R. Osborn and J. Katz
Chapter 3 Water Wave Induced Boundary Layer Flows Above a Ripple Bed
81(38)
Philip L.-F. Liu, Khaled A. Al-Banaa and Edwin A. Cowen
Chapter 4 Ship Velocity Fields
119(62)
Joe Longo, Lichuan Gui and Fred Stern
Chapter 5 The Air-Water Interface: Turbulence and Scalar Exchange
181(58)
S. Banerjee and S. MacIntyre
Chapter 6 Internal Wave Fields Analyzed by Imaging Velocimetry
239(40)
John Grue
Part II Extended Abstracts
Chapter 7 Wave Breaking, Surface Motion, Surf Zone, Air-Sea Interaction and Wind Waves
279(22)
7.1. PIV Measurements of Accelerations in Water Waves
279(3)
A. Jensen, M. Huseby, D. Clamond, G. Pedersen and J. Grue
7.2. PIV Measurements of the Velocity Field in Steep Water Wave Events
282(3)
D. Clamond, J. Grue, M. Huseby and A. Jensen
7.3. LDA Laboratory Measurements in the Surf Zone for the BANS Depth-Averaged Shallow-Water Equations
285(3)
T. Feng and P. Stansby
7.4. Wave Acceleration Measurements Using PTV Technique
288(3)
Kuang-An Chang, Edwin A. Cowen and Philip L.-F. Liu
7.5. Two-Color LIF-PIV for Gas Exchange at Air-Water Interface
291(3)
Nobuhito Mori
7.6. Run-Up of Solitary Waves
294(3)
Geir Pedersen, Stefan Mayer and Atle Jensen
7.7. DPIV Measurements for Unsteady Deep-Water Wave Breaking on Following Currents
297(4)
Chin H. Wu, Aifeng Yao and Kuang-An Chang
Chapter 8 PIV Methods, Boundary Layer Flows and Turbulence
301(20)
8.1. A Digital High Speed Camera System Applied to PIV Measurements in Water Waves
301(3)
J. Kristian Sveen and Atle Jensen
8.2. Three-Dimensional Stereoscopic Particle Tracking Velocimetry for a Large Domain (3DSPTV-LD) and Its Application
304(3)
Yasunori Watanabe
8.3. Enhanced PIV Technique to Investigate Bottom Boundary Layer Dynamics
307(4)
Ahmed S.M. Ahmed and Shinji Sato
8.4. The Turbulent Boundary Layer Structure Beneath a Gravity Wave and Its Proper Decomposition
311(3)
Edwin A. Cowen and Stephen G. Monismith
8.5. Intermittency in Surf Zone Turbulence and Observations of Large-Scale Eddies Using PIV
314(3)
D.T. Cox and S.L. Anderson
8.6. Turbulence Distributions and Flow Structure in the Coastal Ocean from PIV Data
317(4)
W.A.M. Nimmo Smith, L. Luznik, W. Zhu, J. Katz and T.R. Osborn
Chapter 9 Breakwaters and Internal Waves
321
9.1. Blocking Effects in Supercritical Flows Over Topography
321(3)
V.I. Bukreev, A.V. Gusev and V. Yu. Liapidevskii
9.2. Study of the Flow Pattern in a Perforated Breakwater Using PIV Measurements
324(3)
Jean-Marc Rousset and Tom Bruce
9.3. Pseudo Image Velocimetry of a Regular Wave Flow Near a Submerged Breakwater
327(3)
Francisco Taveira-Pinto
9.4. Laboratory Modelling of the Motion of an Internal Solitary Wave Over a Ridge in a Stratified Fluid
330(4)
Y. Guo, P.A. Davies, J. Kristian Sveen, J. Grue and P. Dong
9.5. Measurements of Velocities During Run-Up of Long Internal Waves on a Gently Sloping Beach
334(3)
J. Kristian Sveen and John Grue
9.6. Comparison of Modelling of Strong Internal Wave Events with PIV Studies of the Phenomenon
337
Deborah J. Wood, J. Kristian Sveen and John Grue


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