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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
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Searching... | 30000010132438 | TA357.5 O67 2002 | Open Access Book | Book | Searching... |
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Summary
Summary
Optical methods are now used routinely for the measurement of velocity, concentration, temperature, and other parameters in wide-ranging areas of industrial research and design such as IC engines, turbines, and combustors.
Recent advances such as the use of high-resolution CCD cameras and the extension of flow mapping to three dimensions, make optical tools such as particle image velocimetry increasingly viable for use in the industrial environment.
This excellent book presents new developments in optical diagnostic techniques in heat and fluid flow and offers an unparalleled opportunity for industrialists and academic researchers to exchange ideas.
CONTENTS INCLUDE:
Comparison of injector sprays for gasoline direct-injection engines The design, development, and preliminary results from a high-speed, optically accessed, single cylinder engine The reflected spectrum of complex multi-layered inhomogeneous highly scattering medium Development of full volume digital holography for particle measurement Improved liquid crystal thermography by using true-colour image processing technology Development of an optical measuring technique for the study of acoustical phenomena Spatio-temporal reconstruction of the unsteady wake of axisymmetric bluff bodies via time-recording DPIV Application of particle image velocimetry to helicopter vortex interactions Pulsed laser particle image velocimetry using a fibre-optic delivery system Automated fringe analysis for profilometric mass-transfer experiments.Author Notes
Clive Greated and John Cosgrove are the authors of Optical Methods for Data Processing in Heat and Fluid Flow, published by Wiley.
Table of Contents
Preface | p. xi |
Section 1 Doppler Anemonmetry | |
Chapter 1 Comparison of Injector Sprays for Gasoline Direct-injection Engines | p. 1 |
Chapter 2 Application of Laser Doppler Anemometry and Infrared Thermograph Methods for Measurements of Fluid Flow in a Small Transonic Channel | p. 13 |
Chapter 3 An Experimental Investigation of the Flow Produced in a Rectangular Container by a Rotating Disc using LDA | p. 25 |
Chapter 4 The Design, Development, and Preliminary Results from a High-speed, Optically Accessed, Single-cylinder Engine | p. 37 |
Section 2 Laser Speckle and Holography | |
Chapter 5 The Reflected Spectrum of Complex Multi-layered Inhomogeneous Highly Scattering Medium | p. 45 |
Chapter 6 Digital Speckle Photography Applied to in Vivo Blood Micro-circulation Monitoring | p. 59 |
Chapter 7 Development of Full-volume Digital Holography for Particle Measurement | p. 69 |
Chapter 8 A Particle Imaging and Analysis System for Underwater Holograms | p. 79 |
Section 3 Fluorescence, Phospherence, and Liquid Crystals | |
Chapter 9 The Application of LIF to Study the Dispersion of a Surface Film due to Wave Breaking using a Two-camera System | p. 93 |
Chapter 10 Thermographic Phosphor Thermometry--Recent Developments for Applications in Gas Turbines | p. 103 |
Chapter 11 Improved Liquid Crystal Thermography by using True-colour Image Processing Technology | p. 125 |
Chapter 12 Development of an Optical Measuring Technique for the Study of Acoustical Phenomena | p. 133 |
Chapter 13 A Study of the Flow Structure in the Near-wall Region of a Complex-shaped Channel using Liquid Crystals | p. 143 |
Section 4 PIV | |
Chapter 14 Spatio-temporal Reconstruction of the Unsteady Wake of Axisymmetric Bluff Bodies via Time-recording DPIV | p. 151 |
Chapter 15 The Measurement of the Velocity Field around a Ship Hull Model in a Towing Tank using PIV Method | p. 161 |
Chapter 16 Velocity Measurements in Impinging Turbulent Jets using Digital Particle Image Velocimetry | p. 185 |
Chapter 17 Application of Particle Image Velocimetry to Helicopter Vortex Interactions | p. 197 |
Section 5 Multi-phase flow analysis | |
Chapter 18 Recognition of Two-phase Flow Patterns with the use of Dynamic Image Analysis | p. 207 |
Chapter 19 Gas/Liquid Mixing: Simultaneous PIV Measurements of Two Phases Mixing Together; High-pressure Spray Application | p. 219 |
Chapter 20 Flame Visualization Enhancement by Image Processing | p. 231 |
Chapter 21 Optical Diagnostics--Automatic Data Processing and Application in Fundamental Studies and Control Systems | p. 247 |
Chapter 22 Application of Physical Modelling to Study Combustion Processes and Flow Patterns in Large-scale Boilers and Furnaces | p. 267 |
Chapter 23 Pulsed Laser Particle Image Velocimetry using a Fibre-optic Delivery System | p. 279 |
Chapter 24 Automated Fringe Analysis for Profilometric Mass-transfer Experiments | p. 295 |
Authors' Index | p. 305 |