Verfügbarkeit: Particle Image Velocimetry

Particle Image Velocimetry: A Practical Guide

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Bibliographische Detailangaben
1. Verfasser:	Raffel, Markus 1962- (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cham Springer [2018]
Ausgabe:	Third edition
Schlagworte:	Engineering Chemical engineering Fluids Physical measurements Measurement Thermodynamics Heat engineering Heat transfer Mass transfer Fluid mechanics Engineering Fluid Dynamics Measurement Science and Instrumentation Fluid- and Aerodynamics Industrial Chemistry/Chemical Engineering Signal, Image and Speech Processing Engineering Thermodynamics, Heat and Mass Transfer Particle-Image-Velocimetry
Online-Zugang:	BTU01 FAW01 FHA01 FHI01 FHM01 FHN01 FHR01 FKE01 FLA01 FRO01 FWS01 FWS02 HTW01 TUM01 UBY01 Volltext Inhaltsverzeichnis
Beschreibung:	1 Online-Ressource (XXVI, 669 Seiten) Illustrationen
ISBN:	9783319688527
DOI:	10.1007/978-3-319-68852-7

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245	1	0	\|a Particle Image Velocimetry \|b A Practical Guide \|c Markus Raffel, Christian E. Willert, Fulvio Scarano, Christian J. Kähler, Steve T. Wereley, Jürgen Kompenhans
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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION ................................................................................................. 1 1.1 HISTORICAL BACKGROUND ....................................................................... 1 1.2 PRINCIPLES OF MEASURING VELOCITIES .................................................. 6 1.3 PRINCIPLE OF PARTICLE IMAGE VELOCIMETRY (PIV) ............................. 8 1.4 DEVELOPMENT OF PIV DURING THE LAST DECADES ............................ 15 1.4.1 EARLY DEVELOPMENT OF PIV ............................................... 15 1.4.2 PIV TODAY ............................................................................ 16 1.4.3 MAJOR TECHNOLOGICAL MILESTONES OF PIV .......................... 17 1.4.4 PIV FOR FUNDAMENTAL RESEARCH IN TURBULENT FLOWS ................................................................................... 20 1.4.5 PIV FOR INDUSTRIAL RESEARCH IN LARGE TEST FACILITIES .............................................................................. 26 REFERENCES ...................................................................................................... 29 2 PHYSICAL AND TECHNICAL BACKGROUND ...................................................... 33 2.1 TRACER PARTICLES ................................................................................... 33 2.1.1 FLUID MECHANICAL PROPERTIES ............................................. 33 2.1.2 NEUTRALLY BUOYANT PARTICLES ............................................... 37 2.1.3 EFFECT OF CENTRIFUGAL FORCES ............................................. 38 2.1.4 BROWNIAN MOTION ................................................................ 40 2.1.5 LIGHT SCATTERING BEHAVIOR .................................................. 42 2.1.6 EFFECTIVE SIZE OF POLYDISPERSE PARTICLES .......................... 46 2.2 PARTICLE GENERATION AND SUPPLY ....................................................... 49 2.2.1 SEEDING OF LIQUIDS .............................................................. 49 2.2.2 SEEDING OF GASES ................................................................ 51 2.2.3 SEEDING DISTRIBUTION IN WIND TUNNELS ............................ 59 2.3 LIGHT SOURCES ..................................................................................... 60 2.3.1 LASERS ................................................................................... 60 2.3.2 FEATURES AND COMPONENTS OF PIV LASERS ........................ 66 XIX XX CONTENTS 2.3.3 LIGHT EMITTING DIODES ....................................................... 73 2.3.4 WHITE LIGHT SOURCES ........................................................... 77 2.4 LIGHT DELIVERY ................................................................................... 77 2.4.1 LIGHT SHEET OPTICS .............................................................. 77 2.4.2 FIBER BASED ILLUMINATION .................................................... 80 2.4.3 ILLUMINATION OF SMALL VOLUMES ........................................ 81 2.4.4 ILLUMINATION OF LARGE VOLUMES ........................................ 83 2.5 IMAGING OF SMALL PARTICLES .............................................................. 84 2.5.1 DIFFRACTION LIMITED IMAGING ............................................. 84 2.5.2 LENS ABERRATIONS ................................................................ 88 2.5.3 PERSPECTIVE PROJECTION ......................................................... 91 2.5.4 BASICS OF MICROSCOPIC IMAGING ........................................ 93 2.5.5 IN-PLANE SPATIAL RESOLUTION OF MICROSCOPIC IMAGING ................................................................................. 95 2.5.6 MICROSCOPES TYPICALLY USED IN MICRO-PIV ................... 96 2.5.7 CONFOCAL MICROSCOPIC IMAGING ........................................ 99 2.6 SENSOR TECHNOLOGY FOR DIGITAL IMAGE RECORDING ............................ 99 2.6.1 CHARACTERISTICS OF CCD SENSORS ........................................ 100 2.6.2 CHARACTERISTICS OF CMOS SENSORS .................................... 101 2.6.3 SOURCES OF NOISE ................................................................ 104 2.6.4 SPECTRAL CHARACTERISTICS ....................................................... 105 2.6.5 LINEARITY AND DYNAMIC RANGE ........................................... 106 REFERENCES ...................................................................................................... 107 3 RECORDING TECHNIQUES FOR PIV .................................................................. 113 3.1 DIGITAL CAMERAS FOR PIV .................................................................. 115 3.1.1 FULL-FRAME CCD ................................................................ 116 3.1.2 FRAME TRANSFER CCD ......................................................... 118 3.1.3 INTERLINE TRANSFER CCD ....................................................... 119 3.1.4 CMOS IMAGING SENSORS .................................................... 121 3.1.5 HIGH-SPEED CAMERAS ......................................................... 123 3.2 SINGLE FRAME/MULTI-EXPOSURE RECORDING ........................................ 125 3.2.1 IMAGE SHIFTING ...................................................................... 125 REFERENCES ...................................................................................................... 126 4 MATHEMATICAL BACKGROUND OF STATISTICAL PIV EVALUATION ................... 129 4.1 PARTICLE IMAGE LOCATIONS .................................................................. 129 4.2 IMAGE INTENSITY FIELD ....................................................................... 131 4.3 MEAN VALUE, AUTO-CORRELATION AND VARIANCE OF A SINGLE EXPOSURE RECORDING ....................................................... 133 4.4 CROSS-CORRELATION OF A PAIR OF TWO SINGLY EXPOSED RECORDINGS .......................................................................................... 136 CONTENTS XXI 4.5 CORRELATION OF A DOUBLY EXPOSED RECORDING ................................. 138 4.6 EXPECTED VALUE OF DISPLACEMENT CORRELATION ............................... 141 REFERENCES ...................................................................................................... 143 5 IMAGE EVALUATION METHODS FOR PIV ....................................................... 145 5.1 CORRELATION AND FOURIER TRANSFORM .................................................. 146 5.1.1 CORRELATION ............................................................................ 146 5.1.2 OPTICAL FOURIER TRANSFORM .................................................. 147 5.1.3 DIGITAL FOURIER TRANSFORM .................................................. 149 5.2 OVERVIEW OF PIV EVALUATION METHODS .......................................... 149 5.3 PIV EVALUATION ................................................................................... 150 5.3.1 DISCRETE SPATIAL CORRELATION IN PIV EVALUATION .............. 151 5.3.2 CORRELATION SIGNAL ENHANCEMENT ...................................... 158 5.3.3 EVALUATION OF DOUBLY EXPOSED PIV IMAGES ................... 167 5.3.4 ADVANCED DIGITAL INTERROGATION TECHNIQUES ................... 169 5.3.5 CROSS-CORRELATION PEAK DETECTION .................................... 182 5.3.6 INTERROGATION TECHNIQUES FOR PIV TIME-SERIES .............. 187 5.4 PARTICLE TRACKING VELOCIMETRY ......................................................... 189 5.4.1 PARTICLE IMAGE DETECTION AND POSITION ESTIMATION ......... 190 5.4.2 PARTICLE PAIRING AND DISPLACEMENT ESTIMATION ................. 192 5.4.3 SPATIAL RESOLUTION .............................................................. 192 5.4.4 PERFORMANCE OF PARTICLE TRACKING .................................... 193 5.4.5 MULTI-FRAME PARTICLE TRACKING ........................................... 196 REFERENCES ...................................................................................................... 196 6 PIV UNCERTAINTY AND MEASUREMENT ACCURACY ...................................... 203 6.1 COMMON PIV MEASUREMENT ERROR CONTRIBUTIONS .......................... 203 6.1.1 MEASUREMENT ERROR DUE TO INVALID MEASUREMENTS .... 206 6.1.2 RELATIVE UNCERTAINTY, DYNAMIC VELOCITY RANGE AND DYNAMIC SPATIAL RANGE ............................................. 208 6.1.3 MEASUREMENT ERROR .............................................................. 209 6.1.4 ERROR PROPAGATION ................................................................ 211 6.2 PIV MEASUREMENT ERROR ESTIMATION ............................................... 214 6.2.1 SYNTHETIC PARTICLE IMAGE GENERATION ............................... 216 6.2.2 OPTIMIZATION OF PARTICLE IMAGE DIAMETER ........................ 218 6.2.3 PEAK LOCKING ....................................................................... 219 6.2.4 OPTIMIZATION OF PARTICLE IMAGE DENSITY .......................... 224 6.2.5 EFFECT OF BACKGROUND NOISE ............................................. 225 6.2.6 EFFECT OF PARTICLE IMAGE SHIFT ........................................... 227 6.2.7 EFFECT OF OUT-OF-PLANE MOTION ........................................... 228 6.2.8 EFFECT OF DISPLACEMENT GRADIENTS .................................... 229 6.2.9 EFFECT OF STREAMLINE CURVATURE ........................................ 231 XXII CONTENTS 6.3 OPTIMIZATION OF PIV UNCERTAINTY .................................................... 232 6.4 MULTI-CAMERA SYSTEMS ....................................................................... 235 REFERENCES ...................................................................................................... 238 7 POST-PROCESSING OF PIV DATA ..................................................................... 243 7.1 DATA VALIDATION ................................................................................... 244 7.1.1 VECTOR DIFFERENCE TEST ...................................................... 249 7.1.2 MEDIAN TEST ......................................................................... 249 7.1.3 NORMALIZED MEDIAN TEST .................................................... 249 7.1.4 Z-SCORE TEST ....................................................................... 251 7.1.5 GLOBAL HISTOGRAM OPERATOR ............................................... 251 7.1.6 OTHER VALIDATION FILTERS .................................................... 253 7.1.7 IMPLEMENTATION OF DATA VALIDATION ALGORITHMS .............. 255 7.2 REPLACEMENT SCHEMES ....................................................................... 256 7.3 DATA ASSIMILATION TECHNIQUES ......................................................... 256 7.3.1 ERROR MINIMIZATION .............................................................. 257 7.3.2 ENHANCING TEMPORAL RESOLUTION ...................................... 257 7.3.3 ENHANCING SPATIAL RESOLUTION ........................................... 259 7.4 VECTOR FIELD OPERATORS ..................................................................... 259 7.5 ESTIMATION OF DIFFERENTIAL QUANTITIES ............................................. 260 7.5.1 STANDARD DIFFERENTIATION SCHEMES .................................... 262 7.5.2 ALTERNATIVE DIFFERENTIATION SCHEMES ................................. 265 7.5.3 UNCERTAINTIES AND ERRORS IN DIFFERENTIAL ESTIMATION ............................................................................ 269 7.6 ESTIMATION OF INTEGRAL QUANTITIES .................................................... 271 7.6.1 PATH INTEGRALS - CIRCULATION ............................................... 271 7.6.2 PATH INTEGRALS - MASS FLOW ............................................... 272 7.6.3 AREA INTEGRALS ..................................................................... 273 7.6.4 PRESSURE AND FORCES FROM PIV DATA ................................... 275 7.7 VORTEX DETECTION ................................................................................ 279 REFERENCES ...................................................................................................... 280 8 STEREOSCOPIC PIV .......................................................................................... 285 8.1 IMPLEMENTATION OF STEREOSCOPIC PIV ............................................. 286 8.1.1 RECONSTRUCTION GEOMETRY .................................................. 287 8.1.2 STEREO VIEWING CALIBRATION ............................................... 290 8.1.3 CAMERA CALIBRATION .............................................................. 292 8.1.4 DISPARITY CORRECTION ........................................................... 296 8.1.5 STEREO-PIV IN LIQUIDS ......................................................... 301 8.1.6 GENERAL RECOMMENDATIONS FOR STEREO PIV ..................... 305 REFERENCES ...................................................................................................... 305 9 TECHNIQUES FOR 3D-PIV .............................................................................. 309 9.1 THREE-COMPONENT PIV MEASUREMENTS IN A VOLUME ........................ 309 9.2 TOMOGRAPHIC PIV .............................................................................. 312 9.2.1 GENERAL FEATURES ................................................................ 312 9.2.2 3D OBJECT RECONSTRUCTION .................................................. 323 9.2.3 3D MOTION ANALYSIS ........................................................... 333 9.2.4 4D-PIV ANALYSIS ................................................................ 335 9.2.5 MEDIA GALLERY .................................................................... 335 9.3 VOLUMETRIE PARTICLE TRACKING VELOCIMETRY .................................... 335 9.3.1 OVERVIEW OF PTV MEASUREMENT TECHNIQUES ................. 336 9.4 SHAKE-THE-BOX LAGRANGIAN PARTICLE TRACKING ............................... 341 9.4.1 ITERATIVE PARTICLE RECONSTRUCTION ................................. 342 9.4.2 CALIBRATION OF OPTICAL TRANSFER FUNCTION ........................ 344 9.4.3 SHAKE-THE-BOX ALGORITHM ............................................... 347 9.4.4 SHAKE-THE-BOX FOR MULTI-PULSE SYSTEMS: 3D LAGRANGIAN PARTICLE TRACKING IN HIGH SPEED FLOWS ......... 351 9.4.5 FITTING PARTICLE POSITIONS ALONG THE TRAJECTORY .............. 353 9.4.6 DATA ASSIMILATION FOR INTERPOLATION TO CARTESIAN MESH ..................................................................................... 354 REFERENCES ...................................................................................................... 358 10 MICRO-PIV ...................................................................................................... 367 10.1 INTRODUCTION ....................................................................................... 367 10.1.1 MICROFLUIDICS BACKGROUND .................................................. 367 10.1.2 MICROFLUIDIC DIAGNOSTICS .................................................... 369 10.2 TYPICAL IMPLEMENTATION OF 2D PLANAR PPIV ................................. 370 10.3 2D PLANAR MICRO-PIV DEVELOPMENT ............................................... 372 10.4 IMAGING OF VOLUME-ILLUMINATED SMALL PARTICLES IN PPIV ............ 374 10.4.1 THREE-DIMENSIONAL DIFFRACTION PATTERN ............................ 374 10.4.2 DEPTH OF FIELD ..................................................................... 376 10.4.3 DEPTH OF CORRELATION ........................................................... 377 10.4.4 PARTICLE VISIBILITY ................................................................ 381 10.5 3D MICRO-PIV ................................................................................... 384 10.5.1 OVERVIEW .............................................................................. 384 10.5.2 EPI-FLUORESCENCE SCANNING MICROSCOPY .......................... 386 10.6 MULTI CAMERA APPROACHES ................................................................ 387 10.6.1 (SCANNING) STEREOSCOPIC IMAGING ...................................... 387 10.6.2 TOMOGRAPHIC IMAGING ......................................................... 388 10.7 SINGLE CAMERA APPROACHES .............................................................. 390 10.7.1 CONFOCAL SCANNING MICROSCOPY ........................................ 390 10.7.2 TECHNIQUES BASED ON OUT-OF-FOCUS IMAGING WITHOUT APERTURE ................................................................ 392 10.7.3 DEFOCUSED IMAGING WITH APERTURE (THREE-PINHOLE TECHNIQUE) ............................................... 393 10.7.4 IMAGING BASED ON ABERRATIONS (ASTIGMATISM) .............. 397 10.7.5 GENERAL DEFOCUSING PARTICLE TRACKING (GDPT) .............. 402 REFERENCES ...................................................................................................... 403 CONTENTS XXIII XXIV CONTENTS 11 APPLICATIONS: BOUNDARY LAYERS ................................................................ 413 11.1 BOUNDARY LAYER INSTABILITIES ........................................................... 413 11.2 NEAR WALL TURBULENT BOUNDARY LAYER ........................................... 416 11.3 BOUNDARY LAYER CHARACTERIZATION .................................................... 419 11.4 TURBULENT BOUNDARY LAYER ANALYSIS BY MEANS OF LARGE-SCALE PIV AND LONG-RANGE FJPTV ........................................................... 424 11.5 SHOCK WAVE/TURBULENT BOUNDARY LAYER INTERACTION ................... 430 REFERENCES ...................................................................................................... 434 12 APPLICATIONS: TRANSONIC FLOWS ................................................................ 439 12.1 CASCADE BLADE WITH COOLING AIR EJECTION ...................................... 439 12.2 TRANSONIC FLOW ABOVE AN AIRFOIL .................................................. 442 12.3 TRANSONIC FLOW AROUND A FAN BLADE ............................................. 444 12.4 STEREO PIV APPLIED TO A TRANSONIC TURBINE ................................. 449 12.5 PIV APPLIED TO A TRANSONIC CENTRIFUGAL COMPRESSOR ................... 454 12.6 TRANSONIC BUFFETING MEASUREMENTS ON A 1:60 SCALE ARIANE 5 LAUNCHER USING HIGH SPEED PIV ................................................ 461 12.7 SUPERSONIC PIV MEASUREMENTS ON A SPACE SHUTTLE MODEL ......... 466 12.8 PIV IN A HIGH-SPEED WIND TUNNEL ................................................ 469 REFERENCES ...................................................................................................... 474 13 APPLICATIONS: HELICOPTER AERODYNAMICS .................................................. 477 13.1 ROTOR FLOW INVESTIGATION .................................................................. 477 13.2 WIND TUNNEL MEASUREMENTS OF ROTOR BLADE VORTICES ................. 478 13.3 MEASUREMENT OF ROTOR BLADE VORTICES IN HOVER .......................... 481 13.3.1 THE EXPERIMENTAL SETUP .................................................... 482 13.3.2 EVALUATION AND ANALYSIS .................................................... 483 13.3.3 CONCLUSIONS .......................................................................... 487 13.4 FLOW DIAGNOSTICS OF DYNAMIC STALL ON A PITCHING AIRFOIL ......... 488 13.5 INVESTIGATION OF LAMINAR SEPARATION BUBBLE ON HELICOPTER BLADES ................................................................................................. 493 REFERENCES ...................................................................................................... 497 14 APPLICATIONS: AEROACOUSTIC AND PRESSURE MEASUREMENTS ................... 501 14.1 PIV APPLIED TO AEROACOUSTICS ......................................................... 501 14.2 PIV IN TRAILING-EDGE NOISE ESTIMATION ........................................ 505 14.3 A HIGH-SPEED PIV STUDY ON TRAILING-EDGE NOISE SOURCES .... 508 14.4 THREE-DIMENSIONAL VORTEX AND PRESSURE DYNAMICS OF REVOLVING WINGS .............................................................................. 512 14.5 PIV-BASED PRESSURE AND LOAD DETERMINATION IN TRANSONIC AIRCRAFT PROPELLERS .............................................................................. 516 REFERENCES ...................................................................................................... 520 * \|15 APPLICATIONS: FLOWS AT DIFFERENT TEMPERATURES ................................... 523 ^ 15.1 STUDY OF THERMAL CONVECTION AND COUETTE FLOWS ....................... 523 15.2 COMBINED PIT/PIV OF AIR FLOWS USING THERMOCHROMIC LIQUID CRYSTALS ................................................................................... 528 I 15.3 PIV FOR CHARACTERISATION OF PLASMA ACTUATORS .............................. 532 15.4 PIV IN REACTING FLOWS ..................................................................... 536 ^ 15.5 FLOW FIELD MEASUREMENTS ABOVE WING OF HIGH-LIFT AIRCRAFT CONFIGURATION AT HIGH REYNOLDS NUMBER ...................................... 541 REFERENCES ...................................................................................................... 544 16 APPLICATIONS: MICRO PIV ............................................................................ 547 16.1 FLOW IN A MICROCHANNEL .................................................................. 547 16.1.1 ANALYTICAL SOLUTION TO CHANNEL FLOW ............................... 547 16.1.2 EXPERIMENTAL MEASUREMENTS ............................................. 549 16.2 FLOW IN AN ELECTROTHERMAL MICRO-VORTEX ...................................... 551 16.3 PROPER ORTHOGONAL RECONSTRUCTION OF 3D MICRO PIV DATA ......... 555 16.4 HYBRID EXPERIMENTAL-NUMERICAL TECHNIQUE FOR 3D RECONSTRUCTION ................................................................................... 556 16.5 PARTICLE VELOCIMETRY USING EVANESCENT-WAVE ILLUMINATION FOR NEAR-WALL FLOWS .......................................................................... 558 16.6 MEASUREMENTS OF THE FLOW AROUND A GROWING HYDROGEN BUBBLE USING LONG-RANGE /RPIV AND SHADOWGRAPHY ................. 565 16.7 IN VIVO BLOOD FLOW MEASUREMENTS USING MICRO-PIV ................. 571 16.8 RECONSTRUCTION OF FLUID INTERFACES USING 3D ASTIGMATIC PARTICLE TRACKING VELOCIMETRY ......................................................... 574 REFERENCES ...................................................................................................... 580 17 APPLICATIONS: STEREO PIV AND MULTIPLANE STEREO PIV ........................ 585 17.1 STEREO PIV APPLIED TO A VORTEX RING FLOW ................................. 585 17.2 MULTIPLANE STEREO PIV ....................................................................... 590 REFERENCES ...................................................................................................... 596 18 APPLICATIONS: VOLUMETRIC FLOW MEASUREMENTS .................................... 597 18.1 VORTICITY DYNAMICS OF JETS WITH TOMOGRAPHIC PIV ..................... 597 18.2 NEAR-WALL TURBULENCE CHARACTERIZATION IN A TURBULENT BOUNDARY LAYER USING SHAKE-THE-BOX ........................................ 600 18.3 LARGE-SCALE VOLUMETRIC ROW MEASUREMENT OF A THERMAL PLUME USING LAGRANGIAN PARTICLE TRACKING (SHAKE-THE-BOX) ................................................................................. 606 18.4 LAGRANGIAN PARTICLE TRACKING IN A LARGE-SCALE IMPINGING JET USING SHAKE-THE-BOX ................................................................ 610 18.5 3D LAGRANGIAN PARTICLE TRACKING OF A HIGH-SUBSONIC JET USING FOUR-PULSE SHAKE-THE-BOX ............................................. 616 CONTENTS XXV XXVI CONTENTS 18.6 FLOW OVER A FULL-SCALE CYCLIST MODEL BY TOMOGRAPHIC PTV . . . 623 REFERENCES ...................................................................................................... 629 19 RELATED TECHNIQUES ..................................................................................... 633 19.1 DEFORMATION MEASUREMENT BY DIGITAL IMAGE CORRELATION (DIC) .............................................................................. 634 19.1.1 DEFORMATION MEASUREMENT IN A HIGH-PRESSURE FACILITY ................................................................................ 635 19.2 BACKGROUND-ORIENTED SCHLIEREN TECHNIQUE (BOS) ........................ 638 19.2.1 INTRODUCTION ......................................................................... 638 19.2.2 PRINCIPLE OF THE BOS TECHNIQUE ...................................... 638 19.2.3 APPLICATION OF THE BOS TO COMPRESSIBLE VORTICES .... 641 19.2.4 CONCLUSIONS ......................................................................... 647 REFERENCES ...................................................................................................... 648 APPENDIX A: SUGGESTED TEXT BOOKS ................................................................. 651 APPENDIX B: MATHEMATICAL APPENDIX ............................................................. 655 APPENDIX C: LIST OF SYMBOLS AND ACRONYMS ............................................... 657 INDEX ....................................................................................................................... 665
any_adam_object	1
author	Raffel, Markus 1962-
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edition	Third edition
format	Electronic eBook
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illustrated	Not Illustrated
indexdate	2024-08-01T13:18:02Z
institution	BVB
isbn	9783319688527
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030328190
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physical	1 Online-Ressource (XXVI, 669 Seiten) Illustrationen
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spellingShingle	Raffel, Markus 1962- Particle Image Velocimetry A Practical Guide Engineering Chemical engineering Fluids Physical measurements Measurement Thermodynamics Heat engineering Heat transfer Mass transfer Fluid mechanics Engineering Fluid Dynamics Measurement Science and Instrumentation Fluid- and Aerodynamics Industrial Chemistry/Chemical Engineering Signal, Image and Speech Processing Engineering Thermodynamics, Heat and Mass Transfer Particle-Image-Velocimetry (DE-588)4333165-8 gnd
subject_GND	(DE-588)4333165-8
title	Particle Image Velocimetry A Practical Guide
title_auth	Particle Image Velocimetry A Practical Guide
title_exact_search	Particle Image Velocimetry A Practical Guide
title_full	Particle Image Velocimetry A Practical Guide Markus Raffel, Christian E. Willert, Fulvio Scarano, Christian J. Kähler, Steve T. Wereley, Jürgen Kompenhans
title_fullStr	Particle Image Velocimetry A Practical Guide Markus Raffel, Christian E. Willert, Fulvio Scarano, Christian J. Kähler, Steve T. Wereley, Jürgen Kompenhans
title_full_unstemmed	Particle Image Velocimetry A Practical Guide Markus Raffel, Christian E. Willert, Fulvio Scarano, Christian J. Kähler, Steve T. Wereley, Jürgen Kompenhans
title_short	Particle Image Velocimetry
title_sort	particle image velocimetry a practical guide
title_sub	A Practical Guide
topic	Engineering Chemical engineering Fluids Physical measurements Measurement Thermodynamics Heat engineering Heat transfer Mass transfer Fluid mechanics Engineering Fluid Dynamics Measurement Science and Instrumentation Fluid- and Aerodynamics Industrial Chemistry/Chemical Engineering Signal, Image and Speech Processing Engineering Thermodynamics, Heat and Mass Transfer Particle-Image-Velocimetry (DE-588)4333165-8 gnd
topic_facet	Engineering Chemical engineering Fluids Physical measurements Measurement Thermodynamics Heat engineering Heat transfer Mass transfer Fluid mechanics Engineering Fluid Dynamics Measurement Science and Instrumentation Fluid- and Aerodynamics Industrial Chemistry/Chemical Engineering Signal, Image and Speech Processing Engineering Thermodynamics, Heat and Mass Transfer Particle-Image-Velocimetry
url	https://doi.org/10.1007/978-3-319-68852-7 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030328190&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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