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Aerodynamic Measurements
From Physical Principles to Turnkey Instrumentation

G P Russo (Author)

9781845699925, Elsevier Science

Hardback, published 4 October 2011

282 pages
23.3 x 15.6 x 2.2 cm, 0.58 kg

Aerodynamic measurements presents a comprehensive review of the theoretical bases on which experimental techniques used in aerodynamics are based. Limitations of each method in terms of accuracy, response time and complexity are addressed. This book serves as a guide to choosing the most pertinent technique for each type of flow field including: 1D, 2D, 3D, steady or unsteady, subsonic, supersonic or hypersonic.

List of figures

List of tables

Preface

Acknowledgements

About the author

Chapter 1: Pressure sensors

Abstract:

1.1 Fundamental features

1.2 Hydrostatic manometers

1.3 Mechanical manometers

1.4 Pressure transducers

1.5 Pressure-sensitive paints

Chapter 2: Velocity and mass flow by pressure measurements

Abstract:

2.1 Introduction

2.2 Measurement of flow speed by pressures

2.3 Pitot tube

2.4 Prandtl tube

2.5 Pitot-static tube

2.6 Flow direction measurements

2.7 Mass flow measurements

Chapter 3: Hot wire anemometer

Abstract:

3.1 Introduction

3.2 Materials for probes

3.3 Probes

3.4 Operating principle

3.5 Constant current anemometer (CCA)

3.6 Constant temperature anemometer (CTA)

3.7 Comparison of CCA and CTA

3.8 Operating temperature of the wire

3.9 Compensation of the stream temperature

3.10 The linearizer

3.11 Measurements of absolute value and direction of average velocity

3.12 Measurements in turbulent flows

Chapter 4: Laser anemometry

Abstract:

4.1 Introduction

4.2 The gas laser

4.3 Laser-Doppler anemometer (LDA)

4.4 Laser two focus anemometer (L2F)

4.5 Particle image velocimetry (PIV)

Chapter 5: Temperature measurements

Abstract:

5.1 Sensors

5.2 Detection of transition

5.3 Measurement of stagnation temperature

Chapter 6: Flow visualization

Abstract:

6.1 Objectives of the visualization

6.2 Visualization techniques

6.3 Principles of operation of optical methods

6.4 Deflection of a light beam in the presence of a constant gradient of refractive index

6.5 Shadowgraph

6.6 The Schlieren method

6.7 Interferometry

6.8 Quantitative analysis of Schlieren images and interferograms

Chapter 7: Measurements of aerodynamic forces

Abstract:

7.1 Types of supports for models in wind tunnels

7.2 Calculating the aerodynamic forces from pressure measurements

7.3 Measuring the aerodynamic forces with balances

Index

Subject Areas: Aircraft: general interest [WGM], Aerospace & aviation technology [TRP], Aerodynamics [TGMF1], Aviation manufacturing industry [KNDV]

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