| PrefaceChapter 1 Basic Equations in Aerodynamics and Heat Transfer1.1 Introduction1.2 Aerodynamics1.3 Heat transfer1.4 Classification of measurement techniques1.5 ClosureReferencesMeasurements in AerodynamicsChapter 2 Flow Visualization2.1 Introduction2.2 Surface flow visualization with oil-dye technique (in air)2.3 Surface flow visualization using liquid crystal (in air)2.4 Flow visualization using ink-dye pigment injection (in water)2.5 Other flow visualization methodsReferencesChapter 3 Steady Pressure/Velocity/Flow Direction Measurements3.1 Introduction3.2 Static pressure measurement3.3 Pressure measurements for velocity calculation in flow stream3.4 Flow direction measurement using multi-hole probesReferencesChapter 4 Unsteady Pressure/Velocity Measurements 4.1 Introduction4.2 Hot-wire anemometry4.3 Strain gage pressure transducerReferencesChapter 5 Velocity Field Measurement Using Particle Image Velocimetry (PIV5.1 Introduction5.2 General setup of PIV measurement5.3 Parameters to be determined for better results5.4 Error sources and uncertainty anaysisReferencesMeasurements in Heat TransferChapter 6 Temperature Measurement6.1 Introduction6.2 Thermocouples and heat flux sensors6.3 CalibrationReferencesChapter 7 Temperature Mapping Using Thermochromic Liquid Crystal (TLC)7.1 Surface temperature mapping7.2 Properties of thermochromic liquid crystal7.3 Application of thermochromic liquid crystal7.4 Illumination7.5 Calibration7.6 Post image analysis for heat transfer coefficientsReferencesChapter 8 Temperature Mapping Using Infrared (IR) Thermography8.1 Introduction8.2 Principles8.3 Calibration8.4 Comments8.5 Correction for non-perpendicular viewing angleReferencesChapter 9 Experimental Uncertainty Analysis9.1 Introduction9.2 Random errors9.3 Bias (systematic) errorsReferencesAppendix Ⅰ Fortran CodeAppendix Ⅱ Color Plates |
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