Verfügbarkeit: Ocean waves breaking and marine aerosol fluxes

Ocean waves breaking and marine aerosol fluxes:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Massel, Stanisław R. 1939- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York, NY Springer 2007
Schriftenreihe:	Atmospheric and oceanographic sciences library 38
Schlagworte:	Atmospheric aerosols Ocean waves Ocean-atmosphere interaction Water vapor transport Wasserdampftransport Meereswelle Maritime atmosphärische Grenzschicht Atmosphärisches Aerosol Schaum
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVI, 323 S. zahlr. graph. Darst., Kt.
ISBN:	9780387366388 0387366385 9780387690926 0387690921

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Datensatz im Suchindex

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adam_text	OCEAN WAVES BREAKING AND MARINE AEROSOL FLUXES STANISTAW R. MASSEL INSTITUTE OF OCEANOLOGY OF THE POLISH ACADEMY OF SCIENCES, SOPOT, POLAND SPRINGER CONTENTS BASIC PROCESSES NEAR THE AIR-SEA INTERFACE 1 1.1 INTRODUCTION 1 1.2 SEA WATER 2 1.2.1 WATER ON EARTH 2 1.2.2 SEA WATER DENSITY 3 1.2.3 SEA WATER VISCOSITY 4 1.3 THE STATE OF MATTER NEAR THE INTERFACE 5 1.3.1 SURFACE TENSION 5 1.3.2 CHARACTERISTICS OF MOIST AIR 6 1.3.3 SEA SURFACE TEMPERATURE AND THE ENERGY BUDGET . 7 1.3.4 THE LIQUID-GAS INTERFACE AND ROLE OF WAVE BREAKING . 8 1.3.5 TRANSPORT OF GASES ACROSS THE INTERFACE 9 MECHANICS OF STEEP AND BREAKING WAVES 11 2.1 INTRODUCTION 11 2.2 THEORY OF THE ALMOST-HIGHEST WAVES 12 2.3 INSTABILITIES OF UNIFORM WAVE TRAINS 16 2.4 NUMERICAL MODELLING OF STEEP WAVES AND THEIR EVOLUTION TO BREAKING 23 2.4.1 NOTE ON SECOND-ORDER MECHANICALLY GENERATED WAVES 23 2.4.2 NUMERICAL MODELLING OF STEEP WAVE EVOLUTION 24 2.4.3 ONSET OF BREAKING FOR MODULATING SURFACE WAVES . . . . 27 SPECTRAL AND STATISTICAL PROPERTIES OF OCEAN WAVES 31 3.1 INTRODUCTION 31 3.2 SPECTRAL PROPERTIES OF OCEAN WAVES 32 3.2.1 FREQUENCY SPECTRA OF OCEAN WAVES 32 3.2.1.1 SPECTRAL MOMENTS AND SPECTRAL WIDTH PARAMETERS 32 3.2.1.2 TYPICAL SPECTRAL FORMS 34 3.2.2 DIRECTIONAL SPECTRAL FUNCTIONS 38 3.2.3 WAVE ENERGY BALANCE IN SPECTRAL FORM 41 3.3 STATISTICAL PROPERTIES OF OCEAN WAVES 44 3.3.1 PROBABILITY DENSITY FUNCTIONS OF SURFACE ORDINATES . 44 XII CONTENTS 3.3.2 NUMERICAL SIMULATION OF GAUSSIAN AND NON-GAUSSIAN SEA SURFACE 47 3.3.2.1 SIMULATION OF LINEAR RANDOM SEA WITH RANDOM PHASES ONLY 48 3.3.2.2 SIMULATION OF LINEAR RANDOM SEA WITH RANDOM PHASES AND AMPLITUDES 48 3.3.2.3 SIMULATION OF NON-GAUSSIAN RANDOM SEA . 49 3.3.3 PROBABILITY DENSITY FUNCTION OF EXTREME WAVE DISPLACEMENTS 51 3.3.4 STRUCTURE OF EXTREME WAVES 53 3.3.5 PROBABILITY DENSITY FUNCTION OF LOCAL SURFACE SLOPES OF SHORT AND LONG CRESTED WAVES 53 3.3.6 PROBABILITY DENSITY FUNCTION OF WAVE HEIGHTS 59 3.3.7 PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES OF NON-GAUSSIAN SEA 64 3.3.8 JOINT PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES AND WAVE PERIODS FOR NARROW BANDWIDTH WAVES 66 3.3.9 PROBABILITY DENSITY FUNCTION OF WAVE PERIODS 68 3.3.10 JOINT PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES AND WAVE PERIODS FOR FINITE BANDWIDTH WAVES 69 3.3.11 PROBABILITY DENSITY FUNCTION OF THE HIGHEST WAVE IN A RECORD 72 4 EXPERIMENTAL INSIGHTS INTO MECHANISMS OF WAVE BREAKING 75 4.1 INTRODUCTION 75 4.2 DEFINITIONS OF PARAMETERS OF STEEP AND BREAKING WAVES 76 4.3 FIELD OBSERVATIONS ON WAVE BREAKING 79 4.3.1 WAVE GAUGE METHOD 79 4.3.2 VISUAL METHOD 82 4.3.3 AIR ENTRAINMENT METHOD 84 4.3.4 ACOUSTIC METHOD 86 4.4 LABORATORY EXPERIMENTS ON WAVE BREAKING 87 4.4.1 BONMARIN'S (1989) EXPERIMENT 87 4.4.2 RAPP AND MELVILLE'S (1990) EXPERIMENT 89 4.4.3 OCEAN BASIN EXPERIMENT 91 4.4.4 OTHER EXPERIMENTS 97 4.4.4.1 SIMULATION OF STEEP RANDOM WAVES IN WAVE TANKS 97 4.4.4.2 CHIRP PULSE GENERATION APPROACH 99 4.4.4.3 IMAGE PROCESSING TECHNIQUE 100 4.4.4.4 AMPLITUDE MODULATED WAVE PACKET APPROACH . 101 4.4.4.5 AIR ENTRAINMENT METHOD 102 CONTENTS XIII 4.4.4.6 ACOUSTIC METHOD 103 4.5 PHYSICAL SIMULATION OF EXTREME OCEAN WAVES IN LARGE SCALE 105 4.6 DETECTION OF BREAKING IN A GIVEN WAVE RECORD 108 4.6.1 INTRODUCTION 108 4.6.2 WAVELET TRANSFORM APPROACH (WT) 109 4.6.3 PHASE-TIME METHOD 112 4.7 SUMMARY OF EXPERIMENTAL DATA 116 4.7.1 GLOBAL BREAKING WAVE CHARACTERISTICS 116 4.7.2 LOCAL BREAKING WAVE CHARACTERISTICS 120 5 WAVE BREAKING CRITERIA AND PROBABILITY OF BREAKING 121 5.1 INTRODUCTION 121 5.2 LIMITING WAVE STEEPNESS CRITERION 123 5.2.1 GLOBAL AND LOCAL LIMITING WAVE STEEPNESS 123 5.2.2 PROBABILITY OF WAVE BREAKING BASED ON THE GLOBAL LIMITING WAVE STEEPNESS CRITERION 123 5.2.3 PROBABILITY OF WAVE BREAKING BASED ON THE LOCAL LIMITING WAVE STEEPNESS CRITERION 125 5.3 LIMITING VERTICAL ACCELERATION CRITERION 128 5.3.1 DEFINITION OF PARTICLE ACCELERATIONS IN THE WAVE FIELD . . 128 5.3.2 LIMITING VERTICAL ACCELERATION FOR REGULAR WAVES 129 5.3.2.1 FENTON'S FIFTH-ORDER STOKES THEORY 129 5.3.2.2 LONGUET-HIGGINS' SOLUTION FOR STEEP WAVES . . 131 5.3.2.3 RELATIONSHIP BETWEEN EULERIAN AND LANGRANGIAN ACCELERATION 131 5.3.3 LIMITING VERTICAL ACCELERATION FOR IRREGULAR WAVES . 134 5.3.3.1 EXPERIMENTAL DATA ON LAGRANGIAN ACCELERATION 134 5.3.3.2 BEST FIT OF THE FIFTH-ORDER STOKES PROFILE TO THE EXPERIMENTAL PROFILE 135 5.3.3.3 TWO-SCALE METHODOLOGY FOR SHORT WAVE COMPONENTS RIDING ON THE SURFACE OF LONG WAVES 137 5.3.3.4 A LOCAL FOURIER APPROXIMATION 140 5.3.4 LIMITING VERTICAL ACCELERATION CRITERION IN PRESENCE OF SURFACE DRIFT 142 5.3.5 PROBABILITY OF WAVE BREAKING BASED ON THE LIMITING VERTICAL ACCELERATION CRITERION 145 5.4 KINEMATIC BREAKING CRITERION 149 5.5 PROBABILITY OF WAVE BREAKING FOR MODULATED SECOND-ORDER STOKES WAVES 153 6 ENERGY DISSIPATION DUE TO WAVE BREAKING 157 6.1 INTRODUCTION 157 XIV CONTENTS 6.2 EXPERIMENTS ON THE RATES OF ENERGY DISSIPATION IN BREAKING WAVES 158 6.3 THEORETICAL MODELS OF WAVE ENERGY DISSIPATION 164 6.3.1 EQUILIBRIUM RANGE MODEL 164 6.3.2 WHITECAP MODEL OF WAVE ENERGY DISSIPATION FOR FULLY DEVELOPED WIND-SEA SPECTRUM 171 6.3.3 PROBABILITY MODEL OF WAVE ENERGY DISSIPATION FOR VERY NARROW FREQUENCY SPECTRUM 173 6.3.4 PROBABILITY MODEL FOR WAVE ENERGY DISSIPATION BASED ON TWO-DIMENSIONAL PROBABILITY DENSITY FUNCTION F{A,T) 177 6.4 SUMMARY OF FORMULAE FOR WAVE ENERGY DISSIPATION 179 7 WHITECAP COVERAGE OF THE SEA SURFACE 183 7.1 INTRODUCTION 183 7.2 EXPERIMENTAL DATA ON WHITECAP COVERAGE 184 7.3 THEORETICAL MODELS OF WHITECAP COVERAGE 193 7.3.1 WHITECAP COVERAGE MODEL BASED ON THE PHILLIPS THEORY FOR EQUILIBRIUM RANGE 193 7.3.2 WHITECAP COVERAGE MODEL BASED ON THE LIMITING STEEPNESS CRITERION 193 7.3.3 WHITECAP COVERAGE MODEL BASED ON THE VERTICAL ACCELERATION CRITERION 196 7.3.4 WHITECAP COVERAGE MODEL BASED ON THE GEOMETRY OF SPILLING BREAKERS 198 7.3.5 WHITECAP COVERAGE MODEL FOR THE NON-GAUSSIAN WAVE FIELD 201 7.4 SUMMARY OF DATA AND THEORETICAL FORMULAE ON WHITECAP COVERAGE 204 8 FUNDAMENTALS OF MARINE AEROSOLS 207 8.1 INTRODUCTION 207 8.2 BUBBLE ENTRAINMENT IN BREAKING WAVES 208 8.3 DEFINITIONS OF AEROSOL PARTICLE SIZE, CONCENTRATIONS, FLUXES AND SPRAY GENERATION FUNCTIONS 210 8.3.1 SIZE-DEPENDENT NUMBER CONCENTRATIONS 210 8.3.2 SIZE-DEPENDENT MASS CONCENTRATIONS 212 8.3.3 AEROSOL FLUXES 214 8.3.4 SPRAY GENERATION FUNCTIONS 215 8.4 MECHANISMS OF AEROSOL PRODUCTION 216 8.4.1 INTRODUCTION 216 8.4.2 DROPS FROM BURSTING BUBBLES 218 8.4.2.1 JET DROPLETS 219 8.4.2.2 FILM DROPLETS 222 CONTENTS XV 8.4.3 SPUME DROPLETS 224 8.5 REMARKS ON INFLUENCE OF MARINE AEROSOLS ON CLIMATE 225 8.5.1 ATMOSPHERE-OCEAN GAS EXCHANGE DUE TO BUBBLES GENERATED BY WAVE BREAKING 225 8.5.2 CLIMATE CONNECTIONS 227 9 MARINE AEROSOL FLUXES 229 9.1 GENERAL CONSIDERATIONS 229 9.2 METHODS OF DETERMINING SIZE-DEPENDENT SEA SPRAY GENERATION FUNCTIONS 230 9.2.1 WHITECAP METHOD 231 9.2.2 VERTICAL CONCENTRATION GRADIENT METHOD 235 9.2.3 DRY DEPOSITION METHOD 237 9.2.4 WET DEPOSITION MECHANISM 244 9.2.5 EDDY CORRELATION METHOD 244 9.2.6 COMPARISON OF FLUX ESTIMATES 244 9.2.6.1 WHITECAP METHOD 245 9.2.6.2 VERTICAL CONCENTRATION GRADIENT METHOD . . . . 245 9.2.6.3 DRY DEPOSITION METHOD 245 9.2.6.4 SUMMARY REMARKS 245 10 AEROSOL FLUX AS A FUNCTION OF SEA STATE PARAMETERS 247 10.1 INTRODUCTION 247 10.2 GOVERNING RELATIONSHIPS 248 10.3 DEPENDENCE OF ENERGY DISSIPATION RATE ON SEA STATE PARAMETERS 249 10.4 DEPENDENCE OF WHITECAP COVERAGE ON SEA STATE PARAMETERS . . . 252 10.5 DEPENDENCE OF AEROSOL FLUX ON SEA STATE PARAMETERS 253 10.6 DIMENSIONAL ANALYSIS OF AEROSOL FLUX FROM THE SEA SURFACE 257 10.7 ALTERNATIVE REPRESENTATION OF AEROSOL FLUX 258 11 SEASONAL DEPENDENCE OF AEROSOL FLUXES IN THE BALTIC SEA 261 11.1 INTRODUCTION 261 11.2 WIND FIELD IN THE BALTIC SEA 261 11.3 WAVE CLIMATE IN THE BALTIC SEA 263 11.4 SEASONAL DEPENDENCE OF THE AEROSOL BUDGET OVER THE BALTIC SEA 264 APPENDIXES A AMPLITUDES M + , M ( -\ P +) AND P - 271 B WAVELET TRANSFORM 273 B.I INTRODUCTION 273 XVI CONTENTS B.2 DEFINITION OF WAVELETS 274 B.3 TIME AND FREQUENCY RESOLUTION IN WAVELETS 275 B.4 ENERGY PROPERTIES OF WAVELETS 276 C HILBERT TRANSFORM AND INSTANTANEOUS FREQUENCY 279 C.I DEFINITION OF HILBERT TRANSFORM 279 C.2 DIGITAL COMPUTATION OF HILBERT TRANSFORM 280 C.3 STREAM FUNCTION AS A HILBERT TRANSFORM OF VELOCITY POTENTIAL 280 C.4 INSTANTANEOUS FREQUENCY 281 D RELATIONSHIPS BETWEEN SPECTRAL MOMENTS AND SEA STATE PARAM- ETERS 283 D.I SPECTRAL MOMENTS AS A FUNCTION OF NON-DIMENSIONAL WIND FETCH 283 D.2 SPECTRAL MOMENTS AS A FUNCTION OF SIGNIFICANT WAVE HEIGHT AND PEAK FREQUENCY 285 REFERENCES 287 SYMBOLS AND NOTATIONS 307 AUTHOR INDEX 313 SUBJECT INDEX 319
adam_txt	OCEAN WAVES BREAKING AND MARINE AEROSOL FLUXES STANISTAW R. MASSEL INSTITUTE OF OCEANOLOGY OF THE POLISH ACADEMY OF SCIENCES, SOPOT, POLAND SPRINGER CONTENTS BASIC PROCESSES NEAR THE AIR-SEA INTERFACE 1 1.1 INTRODUCTION 1 1.2 SEA WATER 2 1.2.1 WATER ON EARTH 2 1.2.2 SEA WATER DENSITY 3 1.2.3 SEA WATER VISCOSITY 4 1.3 THE STATE OF MATTER NEAR THE INTERFACE 5 1.3.1 SURFACE TENSION 5 1.3.2 CHARACTERISTICS OF MOIST AIR 6 1.3.3 SEA SURFACE TEMPERATURE AND THE ENERGY BUDGET . 7 1.3.4 THE LIQUID-GAS INTERFACE AND ROLE OF WAVE BREAKING . 8 1.3.5 TRANSPORT OF GASES ACROSS THE INTERFACE 9 MECHANICS OF STEEP AND BREAKING WAVES 11 2.1 INTRODUCTION 11 2.2 THEORY OF THE ALMOST-HIGHEST WAVES 12 2.3 INSTABILITIES OF UNIFORM WAVE TRAINS 16 2.4 NUMERICAL MODELLING OF STEEP WAVES AND THEIR EVOLUTION TO BREAKING 23 2.4.1 NOTE ON SECOND-ORDER MECHANICALLY GENERATED WAVES 23 2.4.2 NUMERICAL MODELLING OF STEEP WAVE EVOLUTION 24 2.4.3 ONSET OF BREAKING FOR MODULATING SURFACE WAVES . . . . 27 SPECTRAL AND STATISTICAL PROPERTIES OF OCEAN WAVES 31 3.1 INTRODUCTION 31 3.2 SPECTRAL PROPERTIES OF OCEAN WAVES 32 3.2.1 FREQUENCY SPECTRA OF OCEAN WAVES 32 3.2.1.1 SPECTRAL MOMENTS AND SPECTRAL WIDTH PARAMETERS 32 3.2.1.2 TYPICAL SPECTRAL FORMS 34 3.2.2 DIRECTIONAL SPECTRAL FUNCTIONS 38 3.2.3 WAVE ENERGY BALANCE IN SPECTRAL FORM 41 3.3 STATISTICAL PROPERTIES OF OCEAN WAVES 44 3.3.1 PROBABILITY DENSITY FUNCTIONS OF SURFACE ORDINATES . 44 XII CONTENTS 3.3.2 NUMERICAL SIMULATION OF GAUSSIAN AND NON-GAUSSIAN SEA SURFACE 47 3.3.2.1 SIMULATION OF LINEAR RANDOM SEA WITH RANDOM PHASES ONLY 48 3.3.2.2 SIMULATION OF LINEAR RANDOM SEA WITH RANDOM PHASES AND AMPLITUDES 48 3.3.2.3 SIMULATION OF NON-GAUSSIAN RANDOM SEA . 49 3.3.3 PROBABILITY DENSITY FUNCTION OF EXTREME WAVE DISPLACEMENTS 51 3.3.4 STRUCTURE OF EXTREME WAVES 53 3.3.5 PROBABILITY DENSITY FUNCTION OF LOCAL SURFACE SLOPES OF SHORT AND LONG CRESTED WAVES 53 3.3.6 PROBABILITY DENSITY FUNCTION OF WAVE HEIGHTS 59 3.3.7 PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES OF NON-GAUSSIAN SEA 64 3.3.8 JOINT PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES AND WAVE PERIODS FOR NARROW BANDWIDTH WAVES 66 3.3.9 PROBABILITY DENSITY FUNCTION OF WAVE PERIODS 68 3.3.10 JOINT PROBABILITY DENSITY FUNCTION OF WAVE AMPLITUDES AND WAVE PERIODS FOR FINITE BANDWIDTH WAVES 69 3.3.11 PROBABILITY DENSITY FUNCTION OF THE HIGHEST WAVE IN A RECORD 72 4 EXPERIMENTAL INSIGHTS INTO MECHANISMS OF WAVE BREAKING 75 4.1 INTRODUCTION 75 4.2 DEFINITIONS OF PARAMETERS OF STEEP AND BREAKING WAVES 76 4.3 FIELD OBSERVATIONS ON WAVE BREAKING 79 4.3.1 WAVE GAUGE METHOD 79 4.3.2 VISUAL METHOD 82 4.3.3 AIR ENTRAINMENT METHOD 84 4.3.4 ACOUSTIC METHOD 86 4.4 LABORATORY EXPERIMENTS ON WAVE BREAKING 87 4.4.1 BONMARIN'S (1989) EXPERIMENT 87 4.4.2 RAPP AND MELVILLE'S (1990) EXPERIMENT 89 4.4.3 OCEAN BASIN EXPERIMENT 91 4.4.4 OTHER EXPERIMENTS 97 4.4.4.1 SIMULATION OF STEEP RANDOM WAVES IN WAVE TANKS 97 4.4.4.2 CHIRP PULSE GENERATION APPROACH 99 4.4.4.3 IMAGE PROCESSING TECHNIQUE 100 4.4.4.4 AMPLITUDE MODULATED WAVE PACKET APPROACH . 101 4.4.4.5 AIR ENTRAINMENT METHOD 102 CONTENTS XIII 4.4.4.6 ACOUSTIC METHOD 103 4.5 PHYSICAL SIMULATION OF EXTREME OCEAN WAVES IN LARGE SCALE 105 4.6 DETECTION OF BREAKING IN A GIVEN WAVE RECORD 108 4.6.1 INTRODUCTION 108 4.6.2 WAVELET TRANSFORM APPROACH (WT) 109 4.6.3 PHASE-TIME METHOD 112 4.7 SUMMARY OF EXPERIMENTAL DATA 116 4.7.1 GLOBAL BREAKING WAVE CHARACTERISTICS 116 4.7.2 LOCAL BREAKING WAVE CHARACTERISTICS 120 5 WAVE BREAKING CRITERIA AND PROBABILITY OF BREAKING 121 5.1 INTRODUCTION 121 5.2 LIMITING WAVE STEEPNESS CRITERION 123 5.2.1 GLOBAL AND LOCAL LIMITING WAVE STEEPNESS 123 5.2.2 PROBABILITY OF WAVE BREAKING BASED ON THE GLOBAL LIMITING WAVE STEEPNESS CRITERION 123 5.2.3 PROBABILITY OF WAVE BREAKING BASED ON THE LOCAL LIMITING WAVE STEEPNESS CRITERION 125 5.3 LIMITING VERTICAL ACCELERATION CRITERION 128 5.3.1 DEFINITION OF PARTICLE ACCELERATIONS IN THE WAVE FIELD . . 128 5.3.2 LIMITING VERTICAL ACCELERATION FOR REGULAR WAVES 129 5.3.2.1 FENTON'S FIFTH-ORDER STOKES THEORY 129 5.3.2.2 LONGUET-HIGGINS' SOLUTION FOR STEEP WAVES . . 131 5.3.2.3 RELATIONSHIP BETWEEN EULERIAN AND LANGRANGIAN ACCELERATION 131 5.3.3 LIMITING VERTICAL ACCELERATION FOR IRREGULAR WAVES . 134 5.3.3.1 EXPERIMENTAL DATA ON LAGRANGIAN ACCELERATION 134 5.3.3.2 BEST FIT OF THE FIFTH-ORDER STOKES PROFILE TO THE EXPERIMENTAL PROFILE 135 5.3.3.3 TWO-SCALE METHODOLOGY FOR SHORT WAVE COMPONENTS RIDING ON THE SURFACE OF LONG WAVES 137 5.3.3.4 A LOCAL FOURIER APPROXIMATION 140 5.3.4 LIMITING VERTICAL ACCELERATION CRITERION IN PRESENCE OF SURFACE DRIFT 142 5.3.5 PROBABILITY OF WAVE BREAKING BASED ON THE LIMITING VERTICAL ACCELERATION CRITERION 145 5.4 KINEMATIC BREAKING CRITERION 149 5.5 PROBABILITY OF WAVE BREAKING FOR MODULATED SECOND-ORDER STOKES WAVES 153 6 ENERGY DISSIPATION DUE TO WAVE BREAKING 157 6.1 INTRODUCTION 157 XIV CONTENTS 6.2 EXPERIMENTS ON THE RATES OF ENERGY DISSIPATION IN BREAKING WAVES 158 6.3 THEORETICAL MODELS OF WAVE ENERGY DISSIPATION 164 6.3.1 EQUILIBRIUM RANGE MODEL 164 6.3.2 WHITECAP MODEL OF WAVE ENERGY DISSIPATION FOR FULLY DEVELOPED WIND-SEA SPECTRUM 171 6.3.3 PROBABILITY MODEL OF WAVE ENERGY DISSIPATION FOR VERY NARROW FREQUENCY SPECTRUM 173 6.3.4 PROBABILITY MODEL FOR WAVE ENERGY DISSIPATION BASED ON TWO-DIMENSIONAL PROBABILITY DENSITY FUNCTION F{A,T) 177 6.4 SUMMARY OF FORMULAE FOR WAVE ENERGY DISSIPATION 179 7 WHITECAP COVERAGE OF THE SEA SURFACE 183 7.1 INTRODUCTION 183 7.2 EXPERIMENTAL DATA ON WHITECAP COVERAGE 184 7.3 THEORETICAL MODELS OF WHITECAP COVERAGE 193 7.3.1 WHITECAP COVERAGE MODEL BASED ON THE PHILLIPS THEORY FOR EQUILIBRIUM RANGE 193 7.3.2 WHITECAP COVERAGE MODEL BASED ON THE LIMITING STEEPNESS CRITERION 193 7.3.3 WHITECAP COVERAGE MODEL BASED ON THE VERTICAL ACCELERATION CRITERION 196 7.3.4 WHITECAP COVERAGE MODEL BASED ON THE GEOMETRY OF SPILLING BREAKERS 198 7.3.5 WHITECAP COVERAGE MODEL FOR THE NON-GAUSSIAN WAVE FIELD 201 7.4 SUMMARY OF DATA AND THEORETICAL FORMULAE ON WHITECAP COVERAGE 204 8 FUNDAMENTALS OF MARINE AEROSOLS 207 8.1 INTRODUCTION 207 8.2 BUBBLE ENTRAINMENT IN BREAKING WAVES 208 8.3 DEFINITIONS OF AEROSOL PARTICLE SIZE, CONCENTRATIONS, FLUXES AND SPRAY GENERATION FUNCTIONS 210 8.3.1 SIZE-DEPENDENT NUMBER CONCENTRATIONS 210 8.3.2 SIZE-DEPENDENT MASS CONCENTRATIONS 212 8.3.3 AEROSOL FLUXES 214 8.3.4 SPRAY GENERATION FUNCTIONS 215 8.4 MECHANISMS OF AEROSOL PRODUCTION 216 8.4.1 INTRODUCTION 216 8.4.2 DROPS FROM BURSTING BUBBLES 218 8.4.2.1 JET DROPLETS 219 8.4.2.2 FILM DROPLETS 222 CONTENTS XV 8.4.3 SPUME DROPLETS 224 8.5 REMARKS ON INFLUENCE OF MARINE AEROSOLS ON CLIMATE 225 8.5.1 ATMOSPHERE-OCEAN GAS EXCHANGE DUE TO BUBBLES GENERATED BY WAVE BREAKING 225 8.5.2 CLIMATE CONNECTIONS 227 9 MARINE AEROSOL FLUXES 229 9.1 GENERAL CONSIDERATIONS 229 9.2 METHODS OF DETERMINING SIZE-DEPENDENT SEA SPRAY GENERATION FUNCTIONS 230 9.2.1 WHITECAP METHOD 231 9.2.2 VERTICAL CONCENTRATION GRADIENT METHOD 235 9.2.3 DRY DEPOSITION METHOD 237 9.2.4 WET DEPOSITION MECHANISM 244 9.2.5 EDDY CORRELATION METHOD 244 9.2.6 COMPARISON OF FLUX ESTIMATES 244 9.2.6.1 WHITECAP METHOD 245 9.2.6.2 VERTICAL CONCENTRATION GRADIENT METHOD . . . . 245 9.2.6.3 DRY DEPOSITION METHOD 245 9.2.6.4 SUMMARY REMARKS 245 10 AEROSOL FLUX AS A FUNCTION OF SEA STATE PARAMETERS 247 10.1 INTRODUCTION 247 10.2 GOVERNING RELATIONSHIPS 248 10.3 DEPENDENCE OF ENERGY DISSIPATION RATE ON SEA STATE PARAMETERS 249 10.4 DEPENDENCE OF WHITECAP COVERAGE ON SEA STATE PARAMETERS . . . 252 10.5 DEPENDENCE OF AEROSOL FLUX ON SEA STATE PARAMETERS 253 10.6 DIMENSIONAL ANALYSIS OF AEROSOL FLUX FROM THE SEA SURFACE 257 10.7 ALTERNATIVE REPRESENTATION OF AEROSOL FLUX 258 11 SEASONAL DEPENDENCE OF AEROSOL FLUXES IN THE BALTIC SEA 261 11.1 INTRODUCTION 261 11.2 WIND FIELD IN THE BALTIC SEA 261 11.3 WAVE CLIMATE IN THE BALTIC SEA 263 11.4 SEASONAL DEPENDENCE OF THE AEROSOL BUDGET OVER THE BALTIC SEA 264 APPENDIXES A AMPLITUDES M + , M ( -\ P +) AND P - 271 B WAVELET TRANSFORM 273 B.I INTRODUCTION 273 XVI CONTENTS B.2 DEFINITION OF WAVELETS 274 B.3 TIME AND FREQUENCY RESOLUTION IN WAVELETS 275 B.4 ENERGY PROPERTIES OF WAVELETS 276 C HILBERT TRANSFORM AND INSTANTANEOUS FREQUENCY 279 C.I DEFINITION OF HILBERT TRANSFORM 279 C.2 DIGITAL COMPUTATION OF HILBERT TRANSFORM 280 C.3 STREAM FUNCTION AS A HILBERT TRANSFORM OF VELOCITY POTENTIAL 280 C.4 INSTANTANEOUS FREQUENCY 281 D RELATIONSHIPS BETWEEN SPECTRAL MOMENTS AND SEA STATE PARAM- ETERS 283 D.I SPECTRAL MOMENTS AS A FUNCTION OF NON-DIMENSIONAL WIND FETCH 283 D.2 SPECTRAL MOMENTS AS A FUNCTION OF SIGNIFICANT WAVE HEIGHT AND PEAK FREQUENCY 285 REFERENCES 287 SYMBOLS AND NOTATIONS 307 AUTHOR INDEX 313 SUBJECT INDEX 319
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author_GND	(DE-588)121118290
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callnumber-first	G - Geography, Anthropology, Recreation
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dewey-sort	3551.5246
dewey-tens	550 - Earth sciences
discipline	Geologie / Paläontologie
discipline_str_mv	Geologie / Paläontologie
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spelling	Massel, Stanisław R. 1939- Verfasser (DE-588)121118290 aut Ocean waves breaking and marine aerosol fluxes Stanisław R. Massel New York, NY Springer 2007 XVI, 323 S. zahlr. graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Atmospheric and oceanographic sciences library 38 Atmospheric aerosols Ocean waves Ocean-atmosphere interaction Water vapor transport Wasserdampftransport (DE-588)4297605-4 gnd rswk-swf Meereswelle (DE-588)4038334-9 gnd rswk-swf Maritime atmosphärische Grenzschicht (DE-588)4637519-3 gnd rswk-swf Atmosphärisches Aerosol (DE-588)4201505-4 gnd rswk-swf Schaum (DE-588)4116372-2 gnd rswk-swf Meereswelle (DE-588)4038334-9 s Schaum (DE-588)4116372-2 s Wasserdampftransport (DE-588)4297605-4 s Atmosphärisches Aerosol (DE-588)4201505-4 s Maritime atmosphärische Grenzschicht (DE-588)4637519-3 s b DE-604 Atmospheric and oceanographic sciences library 38 (DE-604)BV010783916 38 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2835373&prov=M&dok_var=1&dok_ext=htm Inhaltstext GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015718938&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Massel, Stanisław R. 1939- Ocean waves breaking and marine aerosol fluxes Atmospheric and oceanographic sciences library Atmospheric aerosols Ocean waves Ocean-atmosphere interaction Water vapor transport Wasserdampftransport (DE-588)4297605-4 gnd Meereswelle (DE-588)4038334-9 gnd Maritime atmosphärische Grenzschicht (DE-588)4637519-3 gnd Atmosphärisches Aerosol (DE-588)4201505-4 gnd Schaum (DE-588)4116372-2 gnd
subject_GND	(DE-588)4297605-4 (DE-588)4038334-9 (DE-588)4637519-3 (DE-588)4201505-4 (DE-588)4116372-2
title	Ocean waves breaking and marine aerosol fluxes
title_auth	Ocean waves breaking and marine aerosol fluxes
title_exact_search	Ocean waves breaking and marine aerosol fluxes
title_exact_search_txtP	Ocean waves breaking and marine aerosol fluxes
title_full	Ocean waves breaking and marine aerosol fluxes Stanisław R. Massel
title_fullStr	Ocean waves breaking and marine aerosol fluxes Stanisław R. Massel
title_full_unstemmed	Ocean waves breaking and marine aerosol fluxes Stanisław R. Massel
title_short	Ocean waves breaking and marine aerosol fluxes
title_sort	ocean waves breaking and marine aerosol fluxes
topic	Atmospheric aerosols Ocean waves Ocean-atmosphere interaction Water vapor transport Wasserdampftransport (DE-588)4297605-4 gnd Meereswelle (DE-588)4038334-9 gnd Maritime atmosphärische Grenzschicht (DE-588)4637519-3 gnd Atmosphärisches Aerosol (DE-588)4201505-4 gnd Schaum (DE-588)4116372-2 gnd
topic_facet	Atmospheric aerosols Ocean waves Ocean-atmosphere interaction Water vapor transport Wasserdampftransport Meereswelle Maritime atmosphärische Grenzschicht Atmosphärisches Aerosol Schaum
url	http://deposit.dnb.de/cgi-bin/dokserv?id=2835373&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015718938&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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work_keys_str_mv	AT masselstanisławr oceanwavesbreakingandmarineaerosolfluxes

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