Verfügbarkeit: Infrared thermal imaging

Infrared thermal imaging: fundamentals, research and applications

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Bibliographische Detailangaben
Hauptverfasser:	Vollmer, Michael (VerfasserIn), Möllmann, Klaus-Peter (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH [2018]
Ausgabe:	Second edition
Schlagworte:	Infrarotthermographie Control Systems Technology Electrical & Electronics Engineering Elektrotechnik u. Elektronik Magnetische Resonanz Medical Science Medizin MRI Optics & Photonics Optik u. Photonik Physics Physik Regelungstechnik Thermographie
Online-Zugang:	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-41351-5/ Inhaltsverzeichnis
Beschreibung:	XXIV, 769 Seiten Illustrationen, Diagramme
ISBN:	9783527413515 3527413510

Internformat

MARC


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245	1	0	\|a Infrared thermal imaging \|b fundamentals, research and applications \|c Michael Vollmer and Klaus-Peter Möllmann
250			\|a Second edition
264		1	\|a Weinheim \|b Wiley-VCH \|c [2018]
264		4	\|c © 2018
300			\|a XXIV, 769 Seiten \|b Illustrationen, Diagramme
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653			\|a Electrical & Electronics Engineering
653			\|a Elektrotechnik u. Elektronik
653			\|a Magnetische Resonanz
653			\|a Medical Science
653			\|a Medizin
653			\|a MRI
653			\|a Optics & Photonics
653			\|a Optik u. Photonik
653			\|a Physics
653			\|a Physik
653			\|a Regelungstechnik
653			\|a Thermographie
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700	1		\|a Möllmann, Klaus-Peter \|4 aut
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Datensatz im Suchindex

DE-BY-862_location	2000
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DE-BY-FWS_katkey	1011997
DE-BY-FWS_media_number	083000508750
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adam_text	CONTENTS PREFACE TO SECOND EDITION XVII PREFACE TO FIRST EDITION XIX LIST OF ACRONYMS XXIII 1 FUNDAMENTALS OF INFRARED THERMAL IMAGING 1 1.1 INTRODUCTION I 1.2 INFRARED RADIATION 6 1.2.1 ELECTROMAGNETIC WAVES AND THE ELECTROMAGNETIC SPECTRUM 6 1.2.2 BASICS OF GEOMETRICAL OPTICS FOR INFRARED RADIATION 10 1.2.2.1 GEOMETRIC PROPERTIES OF REFLECTION AND REFRACTION 10 1.2.2.2 SPECULAR AND DIFFUSE REFLECTION 12 1.2.2.3 PORTION OF REFLECTED AND TRANSMITTED RADIATION: FRESNEL EQUATIONS 12 1.3 RADIOMETRY AND THERMAL RADIATION 14 1.3.1 BASIC RADIOMETRY 15 1.3.1.1 RADIANT POWER, EXCITANCE, AND IRRADIANCE 15 1.3.1.2 SPECTRAL DENSITIES OF RADIOMETRIC QUANTITIES 15 1.3.1.3 SOLID ANGLES 16 1.3.1.4 RADIANT INTENSITY, RADIANCE, AND LAMBERTIAN EMITTERS 17 1.3.1.5 RADIATION TRANSFER BETWEEN SURFACES: FUNDAMENTAL LAW OF RADIOMETRY AND VIEW FACTOR 20 1.3.2 BLACKBODY RADIATION 21 1.3.2.1 DEFINITION 21 1.3.2.2 PLANCK DISTRIBUTION FUNCTION FOR BLACKBODY RADIATION 22 1.3.2.3 DIFFERENT REPRESENTATIONS OF PLANCKS LAW 24 1.3.2.4 STEFAN-BOLTZMANN LAW 26 13.2.5 BAND EMISSION 26 1.3.2.6 ORDER-OF-MAGNITUDE ESTIMATE OF DETECTOR SENSITIVITIES OF IR CAMERAS 29 1.4 EMISSIVITY 31 1.4.1 DEFINITION 31 1.4.2 CLASSIFICATION OF OBJECTS ACCORDING TO EMISSIVITY 32 1.4.3 EMISSIVITY AND KIRCHHOFFS LAW 32 1.4.4 PARAMETERS AFFECTING EMISSIVITY VALUES 34 1.4.4.1 MATERIAL 34 1.4.4.2 IRREGULAR SURFACE STRUCTURE 34 1.4.4.3 VIEWING ANGLE 35 1.4.4.4 REGULAR GEOMETRY EFFECTS 39 1.4.4.5 WAVELENGTH 41 1.4.4.6 TEMPERATURE 42 1.4.4.7 CONCLUSION 43 1.4.5 TECHNIQUES TO MEASURE/GUESS EMISSIVITIES FOR PRACTICAL WORK 44 1.4.6 BLACKBODY RADIATORS: EMISSIVITY STANDARDS FOR CALIBRATION PURPOSES 45 1.5 OPTICAL MATERIAL PROPERTIES IN IR 49 1.5.1 ATTENUATION OF IR RADIATION WHILE PASSING THROUGH MATTER 50 1.5.2 TRANSMISSION OF RADIATION THROUGH THE ATMOSPHERE 51 1.5.3 TRANSMISSION OF RADIATION THROUGH SLABLIKE SOLID MATERIALS 54 1.5.3.1 NONABSORBING SLABS 54 1.5.3.2 ABSORBING SLABS 55 1.5.4 EXAMPLES OF TRANSMISSION SPECTRA OF OPTICAL MATERIALS FOR IR THERMAL IMAGING 56 1.5.4.1 GRAY MATERIALS IN USED IR SPECTRAL RANGES 56 1.5.4.2 SOME SELECTIVE ABSORBERS 61 1.6 THIN FILM COATINGS: IR COMPONENTS WITH TAILORED OPTICAL PROPERTIES 62 1.6.1 INTERFERENCE OF WAVES 63 1.6.2 INTERFERENCE AND OPTICAL THIN FILMS 64 1.6.3 EXAMPLES OF AR COATINGS 65 1.6.4 OTHER OPTICAL COMPONENTS 66 1.7 SOME NOTES ON THE HISTORY OF INFRARED SCIENCE AND TECHNOLOGY 69 1.7.1 INFRARED SCIENCE 69 1.7.1.1 DISCOVERY OF HEAT RAYS AND ATMOSPHERIC ABSORPTION 69 1.7.1.2 BLACKBODIES AND BLACKBODY RADIATION 72 1.7.1.3 RADIATION LAWS 73 1.7.2 DEVELOPMENT OF INFRARED TECHNOLOGY 76 1.7.2.1 PREREQUISITES FOR IR IMAGING 77 1.7.2.2 QUANTITATIVE MEASUREMENTS 84 1.7.2.3 APPLICATIONS AND IMAGING TECHNIQUES 88 REFERENCES 97 2 BASIC PROPERTIES OF IR IMAGING SYSTEMS 107 2.1 INTRODUCTION 107 2.2 DETECTORS AND DETECTOR SYSTEMS 107 2.2.1 PARAMETERS THAT CHARACTERIZE DETECTOR PERFORMANCE 108 2.2.2 NOISE EQUIVALENT TEMPERATURE DIFFERENCE 110 2.2.3 THERMAL DETECTORS 111 2.2.3.1 TEMPERATURE CHANGE OF DETECTOR 111 2.23.2 TEMPERATURE-DEPENDENT RESISTANCE OF BOLOMETER 112 2.233 NEP AND D FOR MICROBOLOMETER 113 2.2.4 PHOTON DETECTORS 117 2.2.4.1 PRINCIPLE OF OPERATION AND RESPONSIVITY 117 2.2A.2 D* FOR SIGNAL-NOISE-LIMITED DETECTION 119 2.2.4.Z D* FOR BACKGROUND NOISE LIMITED DETECTION 120 2.2A4 NECESSITY TO COOL PHOTON DETECTORS 123 2.2.5 TYPES OF PHOTON DETECTORS 125 2.2.5.1 PHOTOCONDUCTORS 125 2.23.2 PHOTODIODES 126 2.2.53 SCHOTTKY BARRIER DETECTORS 128 2.2.5A QUANTUM WELL IR PHOTODETECTORS 128 2.2.53 RECENT DEVELOPMENTS IN IR DETECTOR TECHNOLOGY 132 2.3 BASIC MEASUREMENT PROCESS IN IR IMAGING 142 2.3.1 RADIOMETRIC CHAIN 142 2.3.2 WAVEBANDS FOR THERMAL IMAGING 146 2.3.3 SELECTING THE APPROPRIATE WAVEBAND FOR THERMAL IMAGING 147 2.3.3.1 TOTAL DETECTED AMOUNT OF RADIATION 148 233.2 TEMPERATURE CONTRAST-RADIATION CHANGES UPON TEMPERATURE CHANGES 151 2 3 3 3 INFLUENCE OF BACKGROUND REFLECTIONS 155 2.3.3.4 INFLUENCE OF EMISSIVITY AND EMISSIVITY UNCERTAINTIES 158 233.5 POTENTIAL USE OF BOLOMETERS IN MW OR SW BAND 168 2.4 COMPLETE CAMERA SYSTEMS 173 2.4.1 CAMERA DESIGN - IMAGE FORMATION 173 2.4.1.1 SCANNING SYSTEMS 174 2.4.1.2 STARING SYSTEMS-FOCAL-PLANE ARRAYS 176 2.4.1.3 NONUNIFORMITY CORRECTION 180 2.4.1.4 BAD PIXEL CORRECTION 186 2.4.2 PHOTON DETECTOR VERSUS BOLOMETER CAMERAS 186 2.4.3 DETECTOR TEMPERATURE STABILIZATION AND DETECTOR COOLING 188 2.4.4 OPTICS AND FILTERS 191 2.4.4.1 SPECTRAL RESPONSE 191 2AA.2 CHROMATIC ABERRATIONS 191 2 A A 3 FIELD OF VIEW 192 2.4A4 EXTENDER RINGS 195 2.4A5 NARCISSUS EFFECT 196 2.4A6 SPECTRAL FILTERS 199 2.4.5 CALIBRATION 200 2.4.6 CAMERA OPERATION 204 2.4.6.1 SWITCH-ON BEHAVIOR OF CAMERAS 205 2A.6.2 THERMAL SHOCK BEHAVIOR 206 2.4.7 CAMERA SOFTWARE - SOFTWARE TOOLS 208 2.5 CAMERA PERFORMANCE CHARACTERIZATION 209 2.5.1 TEMPERATURE ACCURACY 209 2.5.2 TEMPERATURE RESOLUTION - NOISE EQUIVALENT TEMPERATURE DIFFERENCE (NETD) 210 2.5.3 SPATIAL RESOLUTION - IFOV AND SLIT RESPONSE FUNCTION 213 2.5.4 IMAGE QUALITY: MTF, MRTD, AND MDTD 216 2.5.5 TIME RESOLUTION - FRAME RATE AND INTEGRATION TIME 221 REFERENCES 226 3 ADVANCED METHODS IN IR IMAGING 229 3.1 INTRODUCTION 229 3.2 SPECTRALLY RESOLVED INFRARED THERMAL IMAGING 229 3.2.1 USING FILTERS 230 3.2.1.1 GLASS FILTERS 231 3.2.1.2 PLASTIC FILTERS 233 3.2.1.3 INFLUENCE OF FILTERS ON OBJECT SIGNAL AND NETD 234 3.2.2 TWO-COLOR OR RATIO THERMOGRAPHY 236 3.2.2.1 NEGLECTING BACKGROUND REFLECTIONS 237 3.2.22 APPROXIMATIONS OF PLANCK*S RADIATION LAW 240 3.22.3 T OH} ERROR FOR TRUE GRAY BODIES WITHIN WIEN APPROXIMATION 242 3.2.2A ADDITIONAL T OH) ERRORS OWING TO NONGRAY OBJECTS 246 3.22.5 RATIO VERSUS SINGLE-BAND-RADIATION THERMOMETRY 247 3.22.6 EXEMPLARY APPLICATION OF TWO-COLOR THERMOGRAPHY 248 3.22.7 EXTENSION OF RATIO METHOD AND APPLICATIONS 254 3.2.3 MULTI- AND HYP ER SPECTRAL INFRARED IMAGING 256 3.2.3.1 PRINCIPAL IDEA 256 32.3.2 BASICS OF FTIR SPECTROMETRY 258 3.2.3.3 ADVANTAGES OF FTIR SPECTROMETERS 262 3.2.3.4 EXAMPLE OF A HYPERSPECTRAL IMAGING INSTRUMENT 263 3.3 SUPERFRAMING 265 3.3.1 METHOD 266 3.3.2 EXAMPLE OF HIGH-SPEED IMAGING AND SELECTED INTEGRATION TIMES 268 3.3.3 CAMERAS WITH FIXED INTEGRATION TIME 270 3.4 POLARIZATION IN INFRARED THERMAL IMAGING 271 3.4.1 POLARIZATION AND THERMAL REFLECTIONS 272 3.4.1.1 TRANSITION FROM DIRECTED TO DIFFUSE REFLECTIONS FROM SURFACES 272 3.4.1.2 REFLECTIVITIES FOR SELECTED MATERIALS IN THE THERMAL INFRARED RANGE 276 3.4.1.3 MEASURING REFLECTIVITY SPECTRA: LABORATORY EXPERIMENTS 278 3.4.1.4 IDENTIFICATION AND SUPPRESSION OF THERMAL REFLECTIONS: PRACTICAL EXAMPLES 281 3.4.2 POLARIZATION-SENSITIVE THERMAL IMAGING 284 3.5 PROCESSING OF IR IMAGES 285 3.5.1 BASIC METHODS OF IMAGE PROCESSING 287 3.5.1.1 IMAGE FUSION 287 3.5.1.2 IMAGE BUILDING 289 3.5.1.3 IMAGE SUBTRACTION 290 3.5.1.4 CONSECUTIVE IMAGE SUBTRACTION: TIME DERIVATIVES 293 3.5.1.5 CONSECUTIVE IMAGE SUBTRACTION: HIGH-SENSITIVITY MODE 296 3.5.1.6 IMAGE DERIVATIVE IN SPATIAL DOMAIN 296 3.5.1.7 INFRARED IMAGE CONTRAST AND DIGITAL DETAIL ENHANCEMENT 300 3.5.2 ADVANCED METHODS OF IMAGE PROCESSING 309 3.5.2.1 PREPROCESSING 311 3.5.2.2 GEOMETRICAL TRANSFORMATIONS 313 3.5.2.3 SEGMENTATION 314 3.5.2.4 FEATURE EXTRACTION AND REDUCTION 316 3.5.2.5 PATTERN RECOGNITION 319 3.5.2.6 DEBLURRING OF INFRARED IMAGES 321 3.6 ACTIVE THERMAL IMAGING 327 3.6.1 TRANSIENT HEAT TRANSFER - THERMAL WAVE DESCRIPTION 330 3.6.2 PULSE THERMOGRAPHY 333 3.6.3 LOCK-IN THERMOGRAPHY 337 3.6.3.1 NONDESTRUCTIVE TESTING OF METALS AND COMPOSITE STRUCTURES 340 3.6.3.2 SOLAR CELL INSPECTION 343 3.6.4 PULSED PHASE THERMOGRAPHY 34S REFERENCES 346 4 SOME BASIC CONCEPTS IN HEAT TRANSFER 351 4.1 INTRODUCTION 351 4.2 THE BASIC HEAT TRANSFER MODES: CONDUCTION, CONVECTION, AND RADIATION 352 4.2.1 CONDUCTION 352 4.2.2 CONVECTION 355 4.2.3 RADIATION 356 4.2.4 CONVECTION INCLUDING LATENT HEATS 357 4.3 SELECTED EXAMPLES OF HEAT TRANSFER PROBLEMS 359 4.3.1 OVERVIEW 359 4.3.2 CONDUCTION WITHIN SOLIDS: THE BIOT NUMBER 361 4.3.3 STEADY-STATE HEAT TRANSFER THROUGH ONE-DIMENSIONAL WALLS AND U-VALUE 364 4.3.4 HEAT TRANSFER THROUGH WINDOWS 369 4.3.5 STEADY-STATE HEAT TRANSFER IN TWO- AND THREE-DIMENSIONAL PROBLEMS: THERMAL BRIDGES 370 4.3.6 DEW POINT TEMPERATURES 372 4.4 TRANSIENT EFFECTS: HEATING AND COOLING OF OBJECTS 373 4.4.1 HEAT CAPACITY AND THERMAL DIFFUSIVITY 374 4.4.2 SHORT SURVEY OF QUANTITATIVE TREATMENTS OF TIME-DEPENDENT PROBLEMS 375 4.4.3 DEMONSTRATION OF TRANSIENT HEAT DIFFUSION 377 4.4.4 TYPICAL TIME CONSTANTS FOR TRANSIENT THERMAL PHENOMENA 377 4.4.4.1 COOLING CUBE EXPERIMENT 379 4.4A2 THEORETICAL MODELING OF COOLING OF SOLID CUBES 379 4.4.4.Z TIME CONSTANTS FOR DIFFERENT OBJECTS 382 4.5 SOME THOUGHTS ON THE VALIDITY OF NEWTONS LAW 383 4.5.1 THEORETICAL COOLING CURVES 383 4.5.2 RELATIVE CONTRIBUTIONS OF RADIATION AND CONVECTION 385 4.5.3 EXPERIMENTS: HEATING AND COOLING OF LIGHT BULBS 389 REFERENCES 392 5 BASIC APPLICATIONS FOR TEACHING: DIRECT VISUALIZATION OF PHYSICS PHENOMENA 393 5.1 INTRODUCTION 393 5.2 MECHANICS: TRANSFORMATION OF MECHANICAL ENERGY INTO HEAT 394 5.2.1 SLIDING FRICTION AND WEIGHT 394 5.2.2 SLIDING FRICTION DURING BRAKING OF BICYCLES AND MOTORCYCLES 395 5.2.3 SLIDING FRICTION: THE FINGER OR HAMMER PENCIL 398 5.2.4 INELASTIC COLLISIONS: TENNIS 398 5.2.5 INELASTIC COLLISIONS: THE HUMAN BALANCE 401 5.2.6 TEMPERATURE RISE OF FLOOR AND FEET WHILE WALKING 402 5.2.7 TEMPERATURE RISE OF TIRES DURING NORMAL DRIVING OF A VEHICLE 403 5.2.8 GENERATING HEAT BY PERIODIC STRETCHING OF RUBBER 404 5.3 THERMAL PHYSICS PHENOMENA 406 5.3.1 CONVENTIONAL HOT-WATER-FILLED HEATERS 407 5.3.2 THERMAL CONDUCTIVITIES 407 5.3.3 CONDUCTION OF HEAT IN STACK OF PAPER 410 5.3.4 CONVECTION IN LIQUIDS 410 5.3.5 CONVECTION EFFECTS DUE TO GASES 414 5.3.6 EVAPORATIVE COOLING 414 5.3.7 ADIABATIC HEATING AND COOLING 417 5.3.8 HEATING OF CHEESE CUBES 418 5.3.9 COOLING OF BOTTLES AND CANS 422 5.4 ELECTROMAGNETISM 424 5.4.1 ENERGY AND POWER IN SIMPLE ELECTRIC CIRCUITS 424 5.4.2 EDDY CURRENTS 426 5.4.3 THERMOELECTRIC EFFECTS 427 5.4.4 EXPERIMENTS WITH MICROWAVE OVENS 429 5.4.4.1 SETUP 429 5.4.4.2 VISUALIZATION OF HORIZONTAL MODES 430 5.4.4.3 VISUALIZATION OF VERTICAL MODES 431 5.4.4.4 ALUMINUM FOIL IN MICROWAVE OVENS 431 5.5 OPTICS AND RADIATION PHYSICS 432 5.5.1 TRANSMISSION OF WINDOW GLASS, NACL, AND SILICON WAFERS 433 5.5.2 FROM SPECULAR TO DIFFUSE REFLECTION 435 5.5.3 SOME LIGHT SOURCES 437 5.5.4 BLACKBODY CAVITIES 437 5.5.5 EMISSIVITIES AND LESLIE CUBE 439 5.5.6 FROM ABSORPTION TO EMISSION OF CAVITY RADIATION 441 5.5.7 SELECTIVE ABSORPTION AND EMISSION OF GASES 443 REFERENCES 444 6 SHORTWAVE INFRARED THERMAL IMAGING 447 6.1 INTRODUCTION 447 6.2 THE WHY AND HOW OF SW INFRARED IMAGING 447 6.3 SOME APPLICATIONS OF SW INFRARED IMAGING 450 6.3.1 WATER OPTICAL MATERIAL PROPERTIES 452 6.3.2 CAMERAS USED IN THE EXPERIMENTS 452 6.3.3 SELECTED EXAMPLES OF SW IMAGING 454 6.3.3.1 HIGH-TEMPERATURE MEASUREMENTS 454 6.3.3.2 VEGETATION STUDIES 456 6.3.3.3 SKY-TO-CLOUD CONTRAST ENHANCEMENT 458 6.3.3.4 SORTING PLASTICS AND DETECTING LIQUID LEVELS IN PLASTIC CONTAINERS 460 6.3.3.5 LOOKING BENEATH THE SURFACE 461 6.3.3.6 UNDAMAGED FRESH FRUIT/VEGETABLE TEST 466 6.3.3.7 MATERIAL PROPERTIES OF LIQUIDS 467 6.3.3.S MOISTURE ON WALLS 470 633.9 OTHER APPLICATIONS OF SW IMAGING 470 6.4 SURVEY OF COMMERCIAL SYSTEMS 472 REFERENCES 472 1 IR IMAGING OF BUILDINGS AND INFRASTRUCTURE 477 7.1 INTRODUCTION 477 7.1.1 PUBLICITY OF IR IMAGES OF BUILDINGS 478 7.1.2 JUST COLORFUL IMAGES? 479 7.1.2.1 LEVEL AND SPAN 480 7.1.2.2 CHOICE OF COLOR PALETTE 480 7.1.2.3 MORE ON PALETTE, LEVEL, AND SPAN 480 7.1.3 GENERAL PROBLEMS ASSOCIATED WITH INTERPRETATION OF IR IMAGES 485 7.1.4 ENERGY STANDARD REGULATIONS FOR BUILDINGS 488 7.2 SOME STANDARD EXAMPLES FOR BUILDING THERMOGRAPHY 490 7.2.1 HALF-TIMBERED HOUSES BEHIND PLASTER 490 7.2.2 OTHER EXAMPLES WITH OUTSIDE WALLS 493 7.2.3 DETERMINING WHETHER A DEFECT IS ENERGETICALLY RELEVANT 494 7.2.4 THE ROLE OF INSIDE THERMAL INSULATION 497 7.2.5 FLOOR HEATING SYSTEMS 498 7.3 GEOMETRICAL THERMAL BRIDGES VERSUS STRUCTURAL PROBLEMS 500 7.3.1 GEOMETRICAL THERMAL BRIDGES 500 7.3.2 STRUCTURAL DEFECTS 504 7.4 EXTERNAL INFLUENCES 507 7.4.1 WIND 507 7.4.2 EFFECT OF MOISTURE IN THERMAL IMAGES 509 7.4.3 SOLAR LOAD AND SHADOWS 513 7.4.3.1 MODELING TRANSIENT EFFECTS DUE TO SOLAR LOAD 513 7.4.3.2 EXPERIMENTAL TIME CONSTANTS 516 7.4.3.3 SHADOWS 518 7.4.3.4 SOLAR LOAD OF STRUCTURES WITHIN WALLS 519 7.4.3.5 DIRECT SOLAR REFLECTIONS 520 7.4.4 GENERAL VIEW FACTOR EFFECTS IN BUILDING THERMOGRAPHY 525 7.4.5 NIGHT SKY RADIANT COOLING AND THE VIEW FACTOR 528 7.4.5.1 CARS PARKED OUTSIDE OR BELOW A CARPORT 529 7A5.2 WALLS OF HOUSES FACING A CLEAR SKY 531 7.4.5.3 VIEW FACTOR EFFECTS: PARTIAL SHIELDING OF WALLS BY CARPORT 531 7.4.5.4 VIEW FACTOR EFFECTS: THE INFLUENCE OF NEIGHBORING BUILDINGS AND ROOF OVERHANG 533 7.5 WINDOWS 534 7.5.1 GENERAL FEATURES 534 7.5.2 OPTICALLY INDUCED THERMAL EFFECTS 539 7.6 THERMOGRAPHY AND BLOWER-DOOR TESTS 541 7.6.1 CLOSE-UP STUDIES 543 7.6.2 OVERVIEW STUDIES 547 I N QUANTITATIVE IR IMAGING: TOTAL HEAT TRANSFER THROUGH BUILDING ENVELOPE 549 7.8 NEW DEVELOPMENTS AND CONCLUSIONS 552 REFERENCES 556 8 INDUSTRIAL APPLICATION: DETECTION OF GASES 561 8.1 INTRODUCTION 561 8.2 SPECTRA OF MOLECULAR GASES 561 8.3 INFLUENCES OF GASES ON IR IMAGING: ABSORPTION, SCATTERING, AND EMISSION OF RADIATION 567 8.3.1 INTRODUCTION 567 8.3.2 INTERACTION OF GASES WITH IR RADIATION 567 8.3.3 INFLUENCE OF GASES ON IR SIGNALS FROM OBJECTS 569 8.4 ABSORPTION BY COLD GASES: QUANTITATIVE ASPECTS 572 8.4.1 ATTENUATION OF RADIATION BY A COLD GAS 572 8.4.2 FROM TRANSMISSION SPECTRA TO ABSORPTION CONSTANTS 574 8.4.3 TRANSMISSION SPECTRA FOR ARBITRARY GAS CONDITIONS AND IR CAMERA SIGNAL CHANGES 574 8.4.4 CALIBRATION CURVES FOR GAS DETECTION 577 8.4.5 PROBLEM: THE ENORMOUS VARIETY OF MEASUREMENT CONDITIONS 578 8.5 THERMAL EMISSION FROM HOT GASES 580 8.6 NEW DEVELOPMENTS 582 8.7 PRACTICAL EXAMPLES: GAS DETECTION WITH COMMERCIAL IR CAMERAS 588 8.7.1 ORGANIC COMPOUNDS 588 8.7.2 SOME INORGANIC COMPOUNDS 591 8.7.3 C 0 2: GAS OF THE CENTURY 594 8.7.3.1 COMPARISON OF BROADBAND AND NARROWBAND DETECTION 596 8.73.2 DETECTING VOLUME CONCENTRATION OF C 0 2 IN EXHALED AIR 597 8.133 ABSORPTION, SCATTERING, AND THERMAL EMISSION OF IR RADIATION 597 8.73.4 QUANTITATIVE RESULT: DETECTING MINUTE AMOUNTS OF C 0 2 IN AIR 599 8.73.5 QUANTITATIVE RESULT: DETECTION OF WELL-DEFINED C 0 2 GAS FLOWS FROM A TUBE 599 8.A APPENDIX: SURVEY OF TRANSMISSION SPECTRA OF VARIOUS GASES 602 8.A.1 INORGANIC COMPOUNDS 1 604 8.A.2 INORGANIC COMPOUNDS 2 605 8.A.3 SIMPLE HYDROCARBONS 1 606 8.A.4 SIMPLE HYDROCARBONS 2 607 8.A.5 SIMPLE MULTIPLE BOND COMPOUNDS AND SOME ALCOHOLS 608 8.A.6 SOME KETONES/ETHERS 609 8.A.7 SOME BENZENE COMPOUNDS 610 8.A.8 SOME HYDROCARBONS WITH HALOGENS 611 REFERENCES 612 9 MICROSYSTEMS 615 9.1 INTRODUCTION 615 9.2 SPECIAL REQUIREMENTS FOR THERMAL IMAGING 616 9.2.1 MECHANICAL STABILITY OF SETUP 616 9.2.2 MICROSCOPE OBJECTIVES, CLOSE-UP LENSES, EXTENDER RINGS 616 9.2.3 HIGH-SPEED RECORDING 618 9.2.4 TEMPERATURE MEASUREMENT 618 9.3 MICROFLUIDIC SYSTEMS 619 9.3.1 MICROREACTORS 619 93.1.1 STAINLESS STEEL FALLING FILM MICROREACTOR 619 93.1.2 GLASS MICROREACTOR 623 9.3.13 SILICON MICROREACTOR 625 9.3.2 MICRO HEAT EXCHANGERS 626 9.4 MICROSENSORS 628 9.4.1 THERMAL IR SENSORS 628 9.4.1.1 IR THERMOPILE SENSORS 629 9.4.1.2 IR BOLOMETER SENSORS 632 9.4.2 SEMICONDUCTOR GAS SENSORS 635 9.5 MICROSYSTEMS WITH ELECTRIC TO THERMAL ENERGY CONVERSION 637 9.5.1 MINIATURIZED IR EMITTERS 637 9.5.2 MICRO PELTIER ELEMENTS 639 9.5.3 CRYOGENIC ACTUATORS 640 REFERENCES 642 10 SELECTED TOPICS IN INDUSTRY 645 10.1 INTRODUCTION 645 10.2 MISCELLANEOUS INDUSTRIAL APPLICATIONS 645 10.2.1 PREDICTIVE MAINTENANCE AND QUALITY CONTROL 645 10.2.2 PIPES AND VALVES IN A POWER PLANT 647 10.2.3 LEVELS OF LIQUIDS IN TANKS IN PETROCHEMICAL INDUSTRY 648 10.2.4 POLYMER MOLDING 651 10.2.5 RACK-STORAGE FIRE TESTING 652 10.3 LOW-VOLTAGE ELECTRICAL APPLICATIONS 653 10.3.1 EARLY MICROELECTRONIC BOARDS 654 10.3.2 MACROSCOPIC ELECTRIC BOARDS 655 10.3.3 MODERN MICROELECTRONIC BOARDS 656 10.4 HIGH-VOLTAGE ELECTRICAL APPLICATIONS 656 10.4.1 SUBSTATION TRANSFORMERS 657 10.4.2 OVERHEATED HIGH-VOLTAGE LINE 659 10.4.3 ELECTRIC FAN DEFECTS 660 10.4.4 OIL LEVELS IN HIGH-VOLTAGE BUSHINGS 660 10.5 METAL INDUSTRY AND HIGH TEMPERATURES 662 10.5.1 DIRECT IMAGING OF HOT METAL MOLDS 662 10.5.2 MANUFACTURING HOT SOLID METAL STRIPS: THERMAL REFLECTIONS 663 10.5.3 DETERMINATION OF METAL TEMPERATURES IF EMISSIVITY IS KNOWN 665 10.5.4 DETERMINING METAL TEMPERATURES FOR UNKNOWN EMISSIVITY: GOLD CUP METHOD 666 10.5.5 DETERMINING METAL TEMPERATURES FOR UNKNOWN EMISSIVITY: WEDGE AND BLACK EMITTER METHOD 667 10.5.6 OTHER APPLICATIONS OF IR IMAGING IN METAL INDUSTRY OR AT HIGH TEMPERATURES 669 10.6 AUTOMOBILE INDUSTRY 670 10.6.1 QUALITY CONTROL OF HEATING SYSTEMS 671 10.6.2 ACTIVE AND PASSIVE IR NIGHT VISION SYSTEMS 672 10.6.3 IR IMAGING OF RACE CARS 675 10.6.4 MOTORCYCLES 676 10.7 AIRPLANE AND SPACECRAFT INDUSTRY 676 10.7.1 IMAGING OF AIRCRAFT 676 10.7.2 IMAGING OF SPACECRAFT 678 10.8 PLASTIC FOILS 683 10.8.1 SPECTRA: SELECTIVE EMITTERS 683 10.8.2 IMAGES: LOOKING THROUGH PLASTICS 685 10.9 SURVEILLANCE AND SECURITY: RANGE OF IR CAMERAS 687 10.9.1 APPLICATIONS IN SURVEILLANCE 687 10.9.2 RANGE OF IR CAMERAS 688 10.10 LINE SCANNING THERMOMETRY OF MOVING OBJECTS 694 10.11 REMOTE SENSING USING IR IMAGING 695 10.11.1 SURVEY OF METHODS 695 10.11.2 SOME IR IMAGING APPLICATIONS USING DRONES 699 REFERENCES 702 11 SELECTED APPLICATIONS IN OTHER FIELDS 709 11.1 MEDICAL APPLICATIONS 709 11.1.1 INTRODUCTION 709 11.1.2 DIAGNOSIS AND MONITORING OF PAIN 712 11.1.3 ACUPUNCTURE 716 11.1.4 BREAST THERMOGRAPHY AND DETECTION OF BREAST CANCER 718 11.1.5 OTHER MEDICAL APPLICATIONS 719 11.1.5.1 RAYNAUDS PHENOMENON 719 11.1.5.2 PRESSURE ULCERS 720 11.2 ANIMALS AND VETERINARY APPLICATIONS 721 11.2.1 PETS 722 11.2.2 ZOO ANIMALS 723 11.2.3 EQUINE THERMOGRAPHY 725 11.2.4 WILDLIFE 726 11.3 SPORTS 729 11.3.1 HIGH-SPEED RECORDING OF TENNIS SERVE 729 11.3.2 SQUASH AND VOLLEYBALL 732 11.3.3 OTHER APPLICATIONS IN SPORTS 734 11.4 ARTS: MUSIC, CONTEMPORARY DANCING, AND PAINTINGS 735 11.4.1 MUSICAL INSTRUMENTS 735 11.4.2 CONTEMPORARY DANCE 737 11.4.3 PAINTINGS 740 11.5 NATURE 742 11.5.1 SKY AND CLOUDS 742 11.5.2 WILDFIRES 746 11.5.3 SUN AND MOON 749 11.5.4 INFRARED MIRAGES 752 11.5.5 GEOTHERMAL PHENOMENA 754 11.5.5.1 GEYSERS AND HOT SPRINGS 754 11.5.5.2 IR THERMAL IMAGING IN VOLCANOLOGY 756 REFERENCES 760 INDEX 765
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author	Vollmer, Michael Möllmann, Klaus-Peter
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isbn	9783527413515 3527413510
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030065614
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physical	XXIV, 769 Seiten Illustrationen, Diagramme
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spellingShingle	Vollmer, Michael Möllmann, Klaus-Peter Infrared thermal imaging fundamentals, research and applications Infrarotthermographie (DE-588)4242353-3 gnd
subject_GND	(DE-588)4242353-3
title	Infrared thermal imaging fundamentals, research and applications
title_auth	Infrared thermal imaging fundamentals, research and applications
title_exact_search	Infrared thermal imaging fundamentals, research and applications
title_full	Infrared thermal imaging fundamentals, research and applications Michael Vollmer and Klaus-Peter Möllmann
title_fullStr	Infrared thermal imaging fundamentals, research and applications Michael Vollmer and Klaus-Peter Möllmann
title_full_unstemmed	Infrared thermal imaging fundamentals, research and applications Michael Vollmer and Klaus-Peter Möllmann
title_short	Infrared thermal imaging
title_sort	infrared thermal imaging fundamentals research and applications
title_sub	fundamentals, research and applications
topic	Infrarotthermographie (DE-588)4242353-3 gnd
topic_facet	Infrarotthermographie
url	http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-41351-5/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030065614&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT vollmermichael infraredthermalimagingfundamentalsresearchandapplications AT mollmannklauspeter infraredthermalimagingfundamentalsresearchandapplications AT wileyvch infraredthermalimagingfundamentalsresearchandapplications

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