• About the book
• Digital Content
  • 1 Introduction
    • Qualitative visualization – Pottery of Jomon people
    • Qualitative visualization – Drawings of Leonardo da Vinci
    • Qualitative visualization – Water channel of Ludwig Prandtl
    • Qualitative and quantitative visualization of unsteady flows – Movie by Ludwig Prandtl
    • Guiding principles for use of PIV
    • Some exemplary PIV results
  • 2 Physical and Technical Background
    • Laser safety
    • Health issues with PIV
    • CTS 1000 Seeder
  • 3 Recording Techniques for PIV
    • Single-frame multi-exposure PIV
    • Image shifting methods
  • 4 Mathematical Background of Statistical PIV Evaluation
  • 5 Image Evaluation Methods for PIV
    • Youngs fringes method
  • 6 PIV Uncertainty and Measurement Accuracy
    • Effect of image noise on the loss-of-correlation
    • Effect of the light sheet profile on the cross-correlation
  • 7 Post-Processing of PIV Data
    • Colored Version of Figures 7.10 and 7.11
  • 8 Stereoscopiv PIV
  • 9 Techniques for 3D-PIV
    • 3D Media Gallery
    • STB
  • 10 Micro-PIV
    • Astigmatic particle tracking for 3D flow analysis in micro fluidics
    • Diving with microparticles in acoustic fields
  • 11 Applications: Turbulent boundary layers
    • Time resolved PTV measurement in a turbulent boundary layer
  • 12 Applications: Transonic Flows
    • 12.3 Transonic Flow Around a Fan Blade
    • 12.4 Stereo PIV Applied to a Transonic Turbine
    • 12.5 PIV Applied to a Transonic Centrifugal Compressor
    • 12.6 Transonic Buffeting Measurements on a 1:60 Scale Ariane 5 Launcher Using High Speed PIV
    • 12.8 PIV in a High-Speed Wind Tunnel
  • 13 Applications: Helicopter Aerodynamics
    • 13.4 Stages of Dynamic Stall
    • 13.5 Investigation of Laminar Separation Bubble on Helicopter Blades
  • 14 Applications: Aeroacoustic and Pressure Measurements
    • 14.1 PIV Applied to Aeroacoustics
  • 15 Applications: Flows at Non-Ambient Temperatures
    • 15.2 Thermochromic Liquid Crystals
    • 15.4 PIV in Reacting Flows
  • 16 Applications: Micro PIV
    • 16.6 MHD shear flow around growing hydrogen bubble
  • 17 Applications: Stereo PIV and Multiplane Stereo PIV
    • 17.1 Stereo PIV Applied to a Vortex Ring Flow
  • 18 Volumetric Flow Measurements
    • 18.1 Vorticity Dynamics of Jets with Tomographic PIV
    • 18.2 Near-Wall Turbulence Characterization in a Turbulent Boundary Layer Using Shake-The-Box
    • 18.3 Large-Scale Volumetric Flow Measurement of a Thermal Plume Using Lagrangian Particle Tracking (Shake-The-Box)
    • 18.4 Lagrangian Particle Tracking in a Large-Scale Impinging Jet Using Shake-The-Box
    • 18.5 3D Lagrangian Particle Tracking of a High-Subsonic Jet Using Four-Pulse Shake-The-Box
    • 18.6 Shake-the-box Measurement of a Quadcopter in Forward Flight
    • 18.7 Volumetric Lagrangian Temperature and Velocity Measurements in Thermal Convection
  • 19 Related Techniques
    • Background Oriented Schlieren Technique
      • Reconstruction of the blade tip vortex system of the BO105
  • Historical Background
    • Application archive
  • Appendix
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