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Laser Techniques Applied to Fluid Mechanics: Selected Papers from the 9th International Symposium Lisbon, Portugal, July 13-16, 1998
I.1. Wavenumber Spectrum Estimation from Irregularly Spaced Application to PIV Data Processing.- I.2. PIV Error Correction.- I.3. Effect of Sensor Geometry on the Performance of PIV Interrogation.- I.4. Micron-Resolution Velocimetry Techniques.- I.5. PIV in Two-Phase Simultaneous Bubble Sizing and Liquid Velocity Measurements.- I.6. Measuring Water Temperatures by Means of Linear Raman Spectroscopy.- I.7. A New Approach to Eliminate the Measurement Volume Effect in P DA Measurements.- I.8. Concentration Measurement by Molecular Absorption Using Narrow Band Tunable Infrared Laser.- II.1. The Kármán Vortex Street - LD V and P IV Measurements Compared with CFD.- II.2. A Flow Structure at Reattachment Region of a Two-Dimensional BackwardFacing Step by Using Advanced Multi-Point LDV.- II.3. PIV Measurements of Turbulence Statistics in the Three-Dimensional Flow Over a Surface-Mounted Obstacle.- II.4. Turbulence Analysis of the BFS with Iterative Multigrid PIV Image Processing.- II.5. Characterization of a Bluff Body Wake Using LD V and PIV Techniques.- II.6. Reynolds Number Dependence of Near Wall Turbulent Statistics in Channel Flows.- II.7. Weakly Interacting Two Parallel Plane Jets.- III.1. Instantaneous Doppler Global Velocimetry Measurements of a Rotor Lessons Learned.- III.2. LDV-Measurements on a High-Lift Configuration with Separation Control.- III.3. Flow Field in the Vicinity of a Thick Cambered Trailing Edge.- III.4. Instantaneous Flow Field Measurements for Propeller Aircraft and Rotorcraft Research.- IV.1. Analysis of Orderliness in Higher Instabilities Toward the Occurrence of Chaos in a Taylor-Couette Flow System.- IV.2. Experimental Investigations on Nonlinear Behaviour of Baroclinic Waves.- IV.3. Dissipation Estimation Around a Rushton Turbine Using Particle Image Velocimetry.- IV.4. Visualization of the Trailing Vortex System Produced by a Pitched Blade Turbine Using a Refractive Index Matched Automated LDA-Technique.- IV.5. Phase-Resolved Three-Dimensional LDA Measurements in the Impeller Region of a Turbulently Stirred Tank.- V.1. On the Extension of a Laser-Doppler Velocimeter to the Analysis of Oscillating Flames.- V.2. Liquid-Fuelled Flames with Imposed Air Oscillations.- V.3. Application of New Light Collecting Probe with High Spatial Resolution to Spark-Ignited Spherical Flames.- V.4. Laser Ignition of Single Magnesium Particles.- V.5. PIV Measurements During Combustion in a Reciprocating Internal Combustion Engine.- V.6. In-Cylinder Measurements of Mixture Composition for Investigation of Residual Gas Scavenging.- V.7. Laser Diagnostics of Nitric Oxide Inside a Two-Stroke DI Diesel Engine.- V.8. Investigation of Oil Transport Mechanisms on the Piston Second Land of a Single Cylinder Diesel Engine, Using Two-Dimensional-Laser-Induced Fluorescence.- V.9. Simultaneous Planar OH and Temperature Measurementsfor the Detection of Lifted Reaction Zones in Premixed Bluff-Body Stabilized Flames.- VI.1. Molten Metal Atomization by Inert Off-Line and On-Line Metal Powder Characterization by PDA.- VI.2. Effect of Variable Liquid Properties on the Flow Structure within Shear-Driven Wall Films.- VI.3. Some Aspects of Electrohydrodynamic Spraying in Cone-Jet Mode.- VI.4. The Velocity Field in an Air-Blasted Liquid Sheet.- VI.5. Measurements of Film Characteristics Along a Stationary Taylor Bubble Using Laser Induced Fluorescence.- VI.6. Experimental Analysis of a Confined Bluff Body Flow Laden with Solid Particles.- VI.7. 3-D Measurements of Bubble Motion and Wake Structure in Two-Phase Flows Using 3-D Scanning Particle-Image-Velocimetry (3-D SPIV) and Stereo-Imaging.- Author Index.
658 pages, Paperback
First published March 6, 2000
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About the author
R.J. Adrian
11 books2 followersDr. Ronald J. Adrian is the Ira A. Fulton Professor of Mechanical and Aerospace Engineering at Arizona State University's Fulton School of Engineering and heads the Laboratory for Energetic Flow and Turbulence. He is well known for his contributions to the field of fluid dynamics in the areas of wall turbulence, thermal convection, coherent structures in turbulence and laser instrumentation. He is the Associate editor of the Journal of Fluid Mechanics, Co-editor of the Springer Series in Experimental Fluid Mechanics and Co-founder and editor of eFluids.com
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