Verfügbarkeit: The airborne microparticle

The airborne microparticle: its physics, chemistry, optics, and transport phenomena

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Davis, E. James (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2002
Schlagworte:	Aerosols Mikropartikel Atmosphäre
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIV, 833 S. graph. Darst.
ISBN:	3540433643

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Datensatz im Suchindex

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adam_text	IMAGE 1 E. JAMES DAVIS * GUSTAV SCHWEIGER THE AIRBORNE MICROPARTICLE ITS PHYSICS, CHEMISTRY, OPTICS, AND TRANSPORT PHENOMENA WITH 353 FIGURES SPRINGER IMAGE 2 CONTENTS 1 BACKGROUND 1 1.1 INTRODUCTION 1 1.2 LIGHT SCATTERING 4 1.2.1 TYNDALL S OBSERVATIONS 4 1.2.2 RAYLEIGH SCATTERING 6 1.2.3 LORENZ-MIE-DEBYE THEORY 8 1.2.4 INELASTIC SCATTERING 12 1.2.5 QUASI-ELASTIC SCATTERING 16 1.3 MICROPARTICLE TRANSPORT PHENOMENA 16 1.3.1 KINETIC THEORY 17 1.3.2 CONTINUUM THEORY 19 1.4 TRANSPORT IN THE TRANSITION REGIME 22 1.4.1 TRANSITION REGIME MASS TRANSFER 24 1.4.2 TRANSITION REGIME HEAT TRANSFER 26 1.4.3 THE CUNNINGHAM CORRECTION 26 1.5 PARTICLE CHARGE 27 1.5.1 THE CAVENDISH LABORATORY EXPERIMENTS 28 1.5.2 MILLIKAN S EXPERIMENTS 30 1.6 APPLICATIONS AND ADAPTATIONS OF MODE 32 1.6.1 BROWNIAN MOTION IN GASES 33 1.6.2 MICRODROPLET EVAPORATION 34 1.6.3 KNUDSEN AEROSOL EVAPORATION 37 1.6.4 A KINETIC THEORY APPROXIMATION 39 1.6.5 LIGHT SCATTERING MEASUREMENTS 40 1.7 PARTICLE LEVITATION INSTRUMENTATION 42 1.7.1 MAGNETIC SUSPENSION 42 1.7.2 ELECTROSTATIC SUSPENSION 43 1.7.3 ELECTRODYNAMIC SUSPENSION 44 1.7.4 OPTICAL LEVITATION 47 1.7.5 ACOUSTIC LEVITATION 49 1.8 THE VIBRATING ORIFICE GENERATOR 49 1.9 APPLICATIONS OF SINGLE PARTICLE DEVICES 50 1.9.1 CONCENTRATED ELECTROLYTE SOLUTIONS 51 1.9.2 MICROPARTICLE SPECTROSCOPIES 51 1.9.3 GAS/PARTICLE CHEMICAL REACTIONS 53 V. IMAGE 3 ** VIII CONTENTS 1.9.4 EVAPORATION/CONDENSATION PROCESSES 54 1.9.5 PHYSICAL AND INTERFACIAL PROPERTIES OF MICROPARTICLES 55 1.10 REFERENCES 57 2 PARTICLE LEVITATION 67 2.1 INTRODUCTION TO LEVITATION PHENOMENA 67 2.2 ELECTROSTATIC BALANCES 69 2.3 ELECTRODYNAMIC BALANCES 71 2.4 PRINCIPLES OF ELECTRODYNAMIC TRAPPING 78 2.4.1 THE EQUATION OF PARTICLE MOTION 78 2.4.2 TRAPPING IN A POTENTIAL WELL 79 2.5 EDB ELECTRIC FIELDS 82 2.5.1 SPHERICAL HARMONICS SOLUTION 84 2.5.2 RING CHARGE SIMULATION 94 2.5.3 ELECTRODE ASYMMETRIES 101 2.5.4 OPTIMUM BALANCE SHAPES 103 2.6 PARTICLE STABILITY IN AN EDB 104 2.6.1 THE ION TRAP 106 2.6.2 THE MICROPARTICLE TRAP 109 2.6.3 MUELLER S SOLUTION 110 2.6.4 CONTINUED FRACTIONS 110 2.6.5 NUMERICAL SOLUTIONS 113 2.7 NONHYPERBOLOIDAL BALANCES 114 2.7.1 THE SINGLE RING 115 2.7.2 STRAUBEL S THREE DISK BALANCE 115 2.8 OPTICAL LEVITATION 117 2.8.1 THE OPTICAL LEVITATOR 117 2.8.2 THE SINGLE-BEAM GRADIENT FORCE TRAP 120 2.9 ACOUSTIC LEVITATION 123 2.9.1 ACOUSTIC PRESSURE 123 2.9.2 THE BAROTROPIC FLUID 125 2.9.3 ENERGY DENSITY OF AN ACOUSTIC WAVE 126 2.9.4 ACOUSTIC PRESSURE ON A SPHERE 127 2.9.5 PARTICLE VELOCITY AND PHASE SHIFT 130 2.9.6 ACOUSTIC LEVITATORS 132 2.9.7 ACOUSTIC MEASUREMENTS 133 2.10 REFERENCES 137 3 ELASTIC LIGHT SCATTERING 143 3.1 INTRODUCTION 143 3.2 MAXWELL EQUATIONS 145 3.2.1 CONSTITUTIVE RELATIONS 146 3.2.2 TIME-HARMONIC FIELDS 147 3.2.3 POWER AND ENERGY DENSITY 148 3.2.4 POLARIZATION 150 IMAGE 4 CONTENTS IX 3.3 DIPOLE RADIATION 151 3.4 CROSS SECTIONS AND RADIATION PRESSURE 153 3.4.1 CROSS SECTIONS AND EFFICIENCIES 154 3.4.2 RADIATION PRESSURE 155 3.4.3 RADIATION PRESSURE MEASUREMENT 156 3.5 RAYLEIGH SCATTERING 157 3.5.1 IRRADIANCE OF SCATTERED LIGHT 158 3.5.2 POLARIZATION OF THE SCATTERED LIGHT 159 3.6 ELECTROMAGNETIC THEORY 160 3.6.1 MULTIPOLE EXPANSION 161 3.6.2 LORENZ-MIETHEORY 162 3.6.3 CROSS SECTIONS AND EFFICIENCIES 166 3.6.4 ANGULAR SCATTERING 167 3.6.5 MORPHOLOGY-DEPENDENT RESONANCES 169 3.6.6 POLARIZATION RATIO 179 3.6.7 ELECTROMAGNETIC ENERGY ABSORPTION 180 3.6.8 COATED SPHERES 183 3.7 COUPLED DIPOLE THEORY 185 3.8 GENERALIZED LORENZ-MIE THEORY 187 3.9 THE T-MATRIX METHOD 190 3.10GEOMETRICALOPTICS 192 3.10.1 BASIC LAWS OF GEOMETRICAL OPTICS 193 3.10.2 INTERFACES 195 3.10.3 TRANSMITTED AND SCATTERED FIELDS 196 3.10.4 OPTICS OF THE RAINBOW 201 3.11 RESONANCES 203 3.11.1 THE LOCALIZATION PRINCIPLE 204 3.11.2 RESONANCE CONDITIONS 205 3.11.3 RESONANCE CONDITION FOR SPHERICAL GEOMETRY 208 3.11.4 QUALITY FACTOR Q AND LINE WIDTH 210 3.12 REFERENCES 213 4 BASIC SINGLE PARTICLE MEASUREMENTS 221 4.1 FORCE MEASUREMENT 221 4.2 AERODYNAMIC DRAG 223 4.3 LEVITATION CHARACTERISTICS 231 4.3.1 DIRECT MEASUREMENT OF C 0 231 4.3.2 STABILITY MEASUREMENTS 233 4.3.3 SHEL DATA 233 4.3.4 DOUBLE-RING MEASUREMENTS 234 4.3.5 MULTIPLE PARTICLE TRAPPING 237 4.4 RADIOMETRIE AND PHORETIC FORCES 238 4.4.1 RADIATION PRESSURE FORCE 238 4.4.2 OPTICAL TRAP MEASUREMENT 239 4.4.3 PHORETIC FORCES 243 K IMAGE 5 X CONTENTS 4.4.4 PHOTOPHORESIS MEASUREMENTS 243 4.4.5 THERMOPHORESIS MEASUREMENTS 245 4.5 MASS MEASUREMENT 247 4.6 AERODYNAMIC SIZE MEASUREMENT 249 4.6.1 THE LAMINAR JET EDB 249 4.6.2 SEDIMENTATION 250 4.6.3 PARTICLE STABILITY MEASUREMENTS 252 4.6.4 PHASE LAG MEASUREMENTS 254 4.7 0PTICAL SIZE 262 4.7.1 PHASE FUNCTIONS 262 4.7.3 POLARIZATION RATIO MEASUREMENT 265 4.7.4 RESONANCE SPECTRA 266 4.7.5 DIFFRACTION 270 4.7.6 PHASE DOPPLER ANEMOMETRY 276 4.8 CHARGE MEASUREMENT 287 4.8.1 EVAPORATING DROPLETS 287 4.8.2 THE RAYLEIGH LIMIT OF CHARGE 289 4.8.3 DROPLET CHAIN CHARGE MEASUREMENT 290 4.9 PHOTOELECTRIC WORK FUNCTION 290 4.10REFERENCES 295 5 CONTINUUM TRANSPORT PROCESSES 301 5.1 TRANSPORT REGIMES 301 5.2 THERMAL ENERGY EQUATION 303 5.3 CONVECTIVE DIFFUSION EQUATION 305 5.4EQUATIONS OF MOTION 306 5.4.1 STOKES FLOW 307 5.4.2 HIGHER ORDER SOLUTIONS 308 5.4.3 FLUID SPHERES 309 5.4.4 ELLIPSOIDAL PARTICLES 310 5.4.5 OTHER NON-SPHERICAL PARTICLES 314 5.5 HEAT TRANSFER 317 5.5.1 STAGNANT FLUID 317 5.5.2 ELECTROMAGNETIC HEATING 320 5.5.3 INTERNAL TEMPERATURES WITH PULSED HEATING 321 5.5.4 EXTERNAL TEMPERATURES IN PULSED HEATING 330 5.5.5 PARTICLE COOLING BY THERMAL EMISSION 332 5.6 MASS TRANSFER 333 5.6.1 HEAT AND MASS FLUX RELATIONS 334 5.6.2 SINGLE COMPONENT DROPLET EVAPORATION 336 5.6.3 QUASI-STEADY STATE 345 5.6.4 MULTICOMPONENT EVAPORATION MEASUREMENTS 357 5.6.5 CONDENSATIONAL PARTICLE GROWTH 361 5.7 CONVECTIVE TRANSPORT PROCESSES 363 5.7.1 HEAT AND MASS TRANSFER WITH STOKES FLOW 363 IMAGE 6 CONTENTS XI 5.7.2 HEAT AND MASS TRANSFER FOR LARGE PECLET NUMBERS 365 5.7.3 HEAT AND MASS TRANSFER FOR RE 0.1 367 5.8 REFERENCES 370 6 NON-CONTINUUM PROCESSES 375 6.1 INTRODUCTION 375 6.1.1 APPLICATIONS 377 6.1.2 HISTORICAL PERSPECTIVE 378 6.2 STATISTICAL MECHANICS 379 6.2.1 INTERMOLECULAR FORCES 382 6.2.2 THE EQUILIBRIUM GAS 384 6.2.3 THE GAS PRESSURE 387 6.2.4 PROPERTIES OF A UNIFORM GAS 389 6.3 COLLISION PROCESSES 392 6.3.1 SCATTERING CROSS SECTIONS 395 6.3.2 MEAN FREE PATH 397 6.4 THE BOLTZMANN EQUATION 399 6.4.1 COLLISION INTEGRAL FOR HARD SPHERES 401 6.4.2 COLLISION INTEGRAL FOR MAXWELLIAN MOLECULES 402 6.4.3 BGK APPROXIMATION 403 6.4.4 LINEARIZED BOLTZMANN EQUATION 404 6.5 THE NON-UNIFORM GAS 405 6.6 THE FREE-MOLECULE REGIME 407 6.6.1 THE MASS FLUX 408 6.6.2 THE MOMENTUM AND KINETIC ENERGY FLUXES 409 6.6.3 THE DRAG FORCE 412 6.7 THE TRANSITION REGIME 414 6.7.1 SINGLE COMPONENT EVAPORATION AND CONDENSATION 415 6.7.2 DRAG FORCE ON SPHERES 420 6.7.3 EVAPORATION AND CONDENSATION 422 6.7.4 INTERPOLATION FORMULAS FOR HEAT TRANSFER 430 6.8 REFERENCES 432 7 THERMODYNAMIC AND TRANSPORT PROPERTIES 437 7.1 DROPLET THERMODYNAMICS 437 7.2 SINGLE COMPONENT SYSTEMS 439 7.2.1 ESTIMATION OF LENNARD-JONES PARAMETERS 440 7.2.2 DETERMINATION OF P , G N 8* 443 7.2.3 ALTERNATE VAPOR PRESSURE DETERMINATION 445 7.3 MULTICOMPONENT SYSTEMS 452 7.3.1 AQUEOUS SALT SOLUTION DROPLETS 453 7.3.2 THEORY OF ELECTROLYTE SOLUTIONS 454 7.3.3 ACTIVITY MEASUREMENT 458 7.3.4 DELIQUESCENCE 467 7.3.5 CRYSTALLIZATION 470 7.4 NON-AQUEOUS SYSTEMS 473 IMAGE 7 XII CONTENTS ACTIVITY COEFFICIENT MEASUREMENT 473 7.5 PARTIALLY MISCIBLE SYSTEMS 479 7.5.1 SURFACTANT SOLUTIONS 479 7.5.2 AGRICULTURAL SPRAYS 483 7.5.3 COATED DROPLETS 486 7.6 REFERENCES 489 8 INELASTIC LIGHT SCATTERING 493 8.1 INTRODUCTION 493 8.2 RAMAN SCATTERING: CLASSICAL DESCRIPTION 495 8.2.1 STOKES AND ANTI-STOKES RAMAN SCATTERING 496 8.2.2 INTENSITY OF RAMAN SCATTERING 497 8.2.3 SELECTION RULES 498 8.2.4 STATE OF POLARIZATION OF SCATTERED LIGHT 499 8.3 QUANTUM MECHANICAL DESCRIPTION 502 8.3.1 REVIEW OF SOME BASIC RELATIONS 503 8.3.2 QUANTUM STATES OF ATOMS AND MOLECULES 505 8.3.3 LIGHT SCATTERING 509 8.3.4 PLACZEK S POLARIZABILITY THEORY 513 8.3.5 PROPERTIES OF RAMAN SCATTERING 520 8.3.6 RESONANCE RAMAN SCATTERING 527 8.4 ABSORPTION AND EMISSION OF RADIATION 529 8.4.1 THE ELECTRON OSCILLATOR MODEL 530 8.4.2 LINE SHAPE 531 8.4.3 DEPOLARIZATION 534 8.4.4 EINSTEIN COEFFICIENTS 534 8.4.5 BLACK BODY RADIATION 537 8.4.6 AMPLIFICATION OF LIGHT 538 8.4.7 RESONANT CAVITIES 540 8.5 NONLINEAR PROCESSES 541 8.5.1 THE NONLINEAR WAVE EQUATION 543 8.5.2 STIMULATED RAMAN SCATTERING 544 8.6 PARTICLE SPECIFIC EFFECTS 547 8.6.1 MULTIPOLE EXPANSION 548 8.6.2 RAY TRACING 552 8.6.3 SCATTERING CROSS SECTION 554 8.6.4 MORPHOLOGY DEPENDENT RESONANCE EFFECTS 564 8.6.5 STIMULATED PROCESSES 569 8.7 REFERENCES 578 9 SPECTROSCOPIES AND MASS SPECTROMETRY 585 9.1 SPECTROSCOPIC AND SPECTROMETRIC TECHNIQUES 585 9.2 PHOTOTHERMAL SPECTROSCOPIES 587 9.3 PHASE FLUCTUATION OPTICAL HETERODYNING 588 9.4 PHOTOTHERMAL MODULATION 593 9.4.1 PRINCIPLES OF SRMS 594 IMAGE 8 CONTENTS XIII 9.4.2 PHOTOTHERMAL MODULATION OF SCATTERED LIGHT 598 9.4.3 PHOTOTHERMAL MODULATION OF MDRS 601 9.4.4 FT1R MICRODROPLET SPECTROSCOPY 604 9.5 PHOTOPHORETIC SPECTROSCOPY 609 9.6 LINEAR RAMAN SPECTROSCOPY 612 9.6.1 INSTRUMENTATION 612 9.6.2 EVAPORATING LIQUID PARTICLES 614 9.6.3 RADIAL PROFILING 618 9.6.4 LIQUID SOLID AND SOLID LIQUID PHASE CHANGES 619 9.6.5 TEMPERATURE MEASUREMENTS 623 9.7 NONLINEAR SPECTROSCOPIC METHODS 624 9.7.1 STIMULATED RAMAN SCATTERING 624 9.7.2 RESONANCE RAMAN SCATTERING 627 9.7.3 LASING 629 9.8 LASER INDUCED FLUORESCENCE 631 9.8.1 SINGLE PARTICLES AND SPRAYS 631 9.8.2 PARTICLE TEMPERATURE 633 9.8.3 BIOLOGICAL AEROSOL PARTICLES 635 9.9 LASER INDUCED INCANDESCENCE 637 9.9.1 ENERGY AND MASS BALANCE 638 9.9.2 PARTICLE SIZING 641 9.9.3 SOOT-VOLUME FRACTION 643 9.10 MASS SPECTROMETRY 646 9.10.1 INSTRUMENTATION 646 9.10.2 PARTICLE SIZING 651 9.10.3 MASS SPECTROMETRY RESULTS 656 9.11 REFERENCES 661 10 PARTICLE CHEMICAL REACTIONS 669 10.1 INTRODUCTION 669 10.2 ATMOSPHERIC PARTICLES 670 10.3 OZONE DEPLETION 673 10.4 DESULFURIZATION 674 10.5 MICROPARTICLE REACTORS 677 10.5.1 FLOW REACTORS 678 10.5.2 VOAG REACTORS 682 10.5.3 EDB REACTORS 686 10.5.4 EDB RAMAN SYSTEMS 695 10.5.5 OPTICAL LEVITATION RAMAN SYSTEMS 704 10.6 MICROPARTICLE REACTION MEASUREMENTS 706 10.6.1 SINGLE PARTICLE DESULFURIZATION REACTIONS 707 10.6.2 OTHER MICROPARTICLE REACTIONS 710 10.7 MICROPARTICLE PRODUCTION 714 10.7.1 METAL OXIDE AEROSOL PROCESSES 715 10.7.2 POLYMERIE MICROSPHERES VIA AEROSOL PROCESSES 718 K IMAGE 9 XIV CONTENTS 10.8 GAS/DROPLET REACTION RATE THEORY 722 10.8.1 GAS UPTAKE WITH A PSEUDO-FIRST ORDER REACTION 724 10.8.2 GAS UPTAKE WITH NO REACTION 727 10.8.3 TIME-VARYING GAS CONCENTRATION 729 10.8.5 THE SMALL PENETRATION APPROXIMATION 731 10.8.6 THE RESISTANCE MODEL OF GAS UPTAKE 734 10.8.7 FORMATION OF COATED PARTICLES 741 10.9 REFERENCES 746 11 PHORETIC AND RADIOMETRIE PHENOMENA 755 11.1 INTRODUCTION TO PHORETIC FORCES 755 11.2 RADIATION FORCE 760 11.3 CONTINUUM AND NEAR-CONTINUUM TRANSPORT 763 11.3.1 GOVERNING EQUATIONS 763 11.3.2 VELOCITY SLIP 763 11.3.3 TEMPERATURE JUMP 765 11.3.4 THERMAL CREEP 766 11.3.5 DIFFUSION SLIP 768 11.4 PHORETIC FORCES IN THE NEAR-CONTINUUM REGIME 769 11.4.1 SOLID SPHERE IN A PURE ISOTHERMAL GAS WITH SLIP FLOW 769 11.4.2 SOLID IN A PURE GAS WITH EXTERNAL TEMPERATURE GRADIENT 771 11.4.3 SOLID IN A DIFFUSING ISOTHERMAL BINARY GAS 777 11.4.4 COUNTERDIFFUSION WITH NO BULK FLOW 777 11.4.5 DIFFUSION THROUGH A STATIONARY GAS 778 11.4.6 COMBINED DIFFUSIOPHORESIS AND THERMOPHORESIS 779 11.5 PHOTOPHORESIS IN THE NEAR-CONTINUUM REGIME 780 11.5.1 PHOTOPHORESIS OF A STRONGLY ABSORBING SPHERE 780 11.5.2 PHOTOPHORESIS OF A VOLATILE DROPLET 785 11.5.3 PHOTOPHORESIS WITH DIFFUSION-CONTROLLED EVAPORATION 787 11.5.4 PHOTOPHORESIS WITH CONVECTIVE EVAPORATION 788 11.6 THERMOPHORESIS 789 11.7 PHORETIC FORCES IN THE KNUDSEN REGIME 791 11.7.1 THERMOPHORESIS IN THE TRANSITION REGIME 792 11.7.2 THERMOPHORESIS MEASUREMENTS 797 11.7.3 STATE OF THE ART OF THERMOPHORESIS 805 11.8 REFERENCES 806 INDEX 811
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open_access_boolean
owner	DE-91G DE-BY-TUM DE-703 DE-20 DE-522 DE-634 DE-83
owner_facet	DE-91G DE-BY-TUM DE-703 DE-20 DE-522 DE-634 DE-83
physical	XIV, 833 S. graph. Darst.
publishDate	2002
publishDateSearch	2002
publishDateSort	2002
publisher	Springer
record_format	marc
spelling	Davis, E. James Verfasser aut The airborne microparticle its physics, chemistry, optics, and transport phenomena E. James Davis, Gustav Schweiger Berlin [u.a.] Springer 2002 XIV, 833 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Aerosols Mikropartikel (DE-588)4336527-9 gnd rswk-swf Atmosphäre (DE-588)4003397-1 gnd rswk-swf Atmosphäre (DE-588)4003397-1 s Mikropartikel (DE-588)4336527-9 s DE-604 Schweiger, Gustav Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009879712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Davis, E. James The airborne microparticle its physics, chemistry, optics, and transport phenomena Aerosols Mikropartikel (DE-588)4336527-9 gnd Atmosphäre (DE-588)4003397-1 gnd
subject_GND	(DE-588)4336527-9 (DE-588)4003397-1
title	The airborne microparticle its physics, chemistry, optics, and transport phenomena
title_auth	The airborne microparticle its physics, chemistry, optics, and transport phenomena
title_exact_search	The airborne microparticle its physics, chemistry, optics, and transport phenomena
title_full	The airborne microparticle its physics, chemistry, optics, and transport phenomena E. James Davis, Gustav Schweiger
title_fullStr	The airborne microparticle its physics, chemistry, optics, and transport phenomena E. James Davis, Gustav Schweiger
title_full_unstemmed	The airborne microparticle its physics, chemistry, optics, and transport phenomena E. James Davis, Gustav Schweiger
title_short	The airborne microparticle
title_sort	the airborne microparticle its physics chemistry optics and transport phenomena
title_sub	its physics, chemistry, optics, and transport phenomena
topic	Aerosols Mikropartikel (DE-588)4336527-9 gnd Atmosphäre (DE-588)4003397-1 gnd
topic_facet	Aerosols Mikropartikel Atmosphäre
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009879712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT davisejames theairbornemicroparticleitsphysicschemistryopticsandtransportphenomena AT schweigergustav theairbornemicroparticleitsphysicschemistryopticsandtransportphenomena

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