Tavoularis S. Measurement in fluid mechanics. - Cambridge: Cambridge University Press, 2005. - xiii, 354 p.: ill. - Incl. bibl. ref. - Ind.: p.349-354. - ISBN-10 0-521-81518-5; ISBN 978-0-52-81518-5  Место хранения:   015 | Библиотека Института гидродинамики CO РАН | Новосибирск

Оглавление / Contents

Preface page ................................................... xi PART ONE GENERAL CONCEPTS 1 Flow properties and basic principles ......................... 3 1.1 Forces, stresses, and the continuum hypothesis .......... 3 1.2 Measurable properties ................................... 4 1.3 Flow velocity and velocity fields ....................... 5 1.4 Analytical description of flows ......................... 7 1.5 The choice of analytical approach ....................... 8 1.6 Similarity ............................................. 11 1.7 Patterns of fluid motion ............................... 16 QUESTIONS AND PROBLEMS ...................................... 17 REFERENCES .................................................. 18 2 Measuring systems ........................................... 19 2.1 Measuring systems and their components ................. 19 2.2 Static response of measuring systems ................... 23 2.3 Dynamic response of measuring systems .................. 31 2.4 Distortion, loading, and cross-talk .................... 40 QUESTIONS AND PROBLEMS ...................................... 41 REFERENCES .................................................. 43 3 Measurement uncertainty ..................................... 45 3.1 Measurement errors ..................................... 45 3.2 Measurement uncertainty ................................ 47 3.3 Uncertainty of derived properties ...................... 48 3.4 Rounding of reported values ............................ 51 QUESTIONS AND PROBLEMS ...................................... 53 REFERENCES .................................................. 54 4 Signal conditioning, discretization, and analysis ........... 55 4.1 Fundamentals of electric and electronic circuits ....... 55 4.2 Analogue signal conditioning ........................... 63 4.3 Discretization of analogue signals ..................... 68 4.4 Statistical analysis of signals ........................ 74 4.5 Frequency analysis of signals .......................... 84 QUESTIONS AND PROBLEMS ...................................... 94 REFERENCES .................................................. 95 5 Background for optical experimentation ...................... 98 5.1 The nature of light .................................... 98 5.2 Light propagation through media ....................... 101 5.3 Illumination .......................................... 107 5.4 Light scattering ...................................... 123 5.5 Light transmission, sensing, and recording ............ 128 5.6 Characteristics of seeding particles .................. 132 QUESTIONS AND PROBLEMS ..................................... 142 REFERENCES ................................................. 144 6 Fluid mechanical apparatus ................................. 147 6.1 Producing the desired flow ............................ 147 6.2 Changing the flow area ................................ 148 6.3 Flow management ....................................... 151 6.4 Wind tunnels .......................................... 154 6.5 Water tunnels and towing tanks ........................ 157 6.6 Turbulence and shear generation ....................... 159 6.7 Model testing ......................................... 163 QUESTIONS AND PROBLEMS ..................................... 165 REFERENCES ................................................. 165 7 Towards a sound experiment ................................. 169 7.1 Planning the experiment ............................... 169 7.2 Safety ................................................ 170 7.3 Qualitative assessment ................................ 170 7.4 Record keeping ........................................ 174 7.5 Scientific ethics ..................................... 175 QUESTIONS AND PROBLEMS ..................................... 176 REFERENCE .................................................. 176 PART TWO MEASUREMENT TECHNIQUES 8 Measurement of flow pressure ............................... 179 8.1 What exactly is pressure? ............................. 179 8.2 Pressure-measuring instrumentation .................... 180 8.3 Wall-pressure measurement ............................. 188 8.4 In-flow pressure measurement .......................... 193 8.5 Dynamic response and testing of pressure-measuring systems ............................................... 200 QUESTIONS AND PROBLEMS ..................................... 203 REFERENCES ................................................. 205 9 Measurement of flow rate ................................... 208 9.1 Direct methods ........................................ 208 9.2 Positive-displacement flow meters ..................... 209 9.3 Venturi, nozzle, and orifice-plate flow meters ........ 211 9.4 Open-channel flow measurement ......................... 212 9.5 Averaging Pitot tubes ................................. 213 9.6 Laminar flow elements ................................. 213 9.7 Rotameters ............................................ 214 9.8 Vortex-shedding flow meters ........................... 214 9.9 Drag flow meters ...................................... 215 9.10 Turbine flow meters ................................... 215 9.11 Ultrasonic flow meters ................................ 216 9.12 Electromagnetic flow meters ........................... 217 9.13 Coriolis flow meters .................................. 217 9.14 Thermal-mass flow meters .............................. 218 9.15 Selection of flow meter ............................... 219 QUESTIONS AND PROBLEMS ..................................... 219 REFERENCES ................................................. 220 10 Flow visualization techniques .............................. 221 10.1 Overview .............................................. 221 10.2 Marker techniques ..................................... 222 10.3 Optical techniques .................................... 231 10.4 Radiation emission techniques ......................... 242 10.5 Enhancement of flow visualization records ............. 243 QUESTIONS AND PROBLEMS ..................................... 244 REFERENCES ................................................. 246 11 Measurement of local flow velocity ......................... 249 11.1 Thermal anemometry .................................... 249 11.2 Laser Doppler velocimetry ............................. 264 11.3 Ultrasonic Doppler velocimetry ........................ 274 11.4 Particle displacement methods ......................... 275 11.5 Measurement of wind velocity .......................... 282 QUESTIONS AND PROBLEMS ..................................... 284 REFERENCES ................................................. 287 12 Measurement of temperature ................................. 290 12.1 A practical temperature scale ......................... 290 12.2 Thermometers .......................................... 291 12.3 Dynamic response of thermometers ...................... 296 12.4 Thermochromic materials ............................... 299 12.5 Radiation emission methods ............................ 301 12.6 Optical techniques .................................... 304 QUESTIONS AND PROBLEMS ..................................... 304 REFERENCES ................................................. 305 13 Measurement of composition ................................. 307 13.1 Sample analysis ....................................... 307 13.2 Thermal probes ........................................ 310 13.3 Electric conductivity probes .......................... 311 13.4 Light-scattering methods .............................. 312 13.5 Laser-induced fluorescence ............................ 316 13.6 Particulate measurement ............................... 318 13.7 Void measurement ...................................... 321 QUESTIONS AND PROBLEMS ..................................... 323 REFERENCES ................................................. 324 14 Measurement of wall shear stress ........................... 328 14.1 Estimates from measured velocity profiles ............. 328 14.2 Estimates from pressure differences ................... 332 14.3 Floating-element balances ............................. 335 14.4 Thermal techniques .................................... 336 14.5 Electrochemical method ................................ 338 14.6 Optical techniques .................................... 339 QUESTIONS AND PROBLEMS ..................................... 342 REFERENCES ................................................. 343 15 Outlook .................................................... 345 Index ......................................................... 349