Fundamentals of physics and chemistry of the atmosphere: with 14 tables
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2001
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 573 - 584 |
| Beschreibung: | 593 S. Ill., graph. Darst. 1 CD-ROM (12 cm) |
| Format: | Systemvoraussetzungen der CD-ROM-Beil.: any platform supporting Fortran and PC |
| ISBN: | 3540674209 |
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| 245 | 1 | 0 | |a Fundamentals of physics and chemistry of the atmosphere |b with 14 tables |c Guido Visconti |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2001 | |
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Datensatz im Suchindex
| _version_ | 1804128476846882816 |
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| adam_text | Titel: Fundamentals of physics and chemistry of the atmosphere
Autor: Visconti, Guido
Jahr: 2001
Contents
1 Introduction................................................................................................1
1.1 The Essential Information................................................................................1
1.2 Thermal Equilibrium.......................................................................................6
1.2.1 The Radiative Time Constant..................................................................9
1.3 Thermal Structure and Atmospheric Dynamics.............................................11
1.3.1 Slowly Rotating Planets........................................................................12
1.3.2 Fast Rotating Planets.............................................................................13
1.4 Conclusions...................................................................................................16
2 Thermodynamics of the Atmosphere.....................................................19
2.1 Simple Laws..................................................................................................19
2.1.1 The Scale Height...................................................................................20
2.1.2 The Potential Temperature....................................................................21
2.1.3 Static Stability.......................................................................................22
2.2 The Thermodynamics of Water Vapor..........................................................23
2.2.1 The Equation of Clausius-Clapeyron....................................................23
2.3 Some Effects of Water Vapor........................................................................24
2.3.1 Tephigram or Thermodynamic Diagram...............................................27
2.3.2 The Conditional Convective Instability................................................30
2.4 The Distribution of Water Vapor on the Planets...........................................32
2.4.1 Was the Atmosphere Drier During the Ice Age?.................................36
3 Radiation: The First Steps.......................................................................39
3.1 The Definition of Radiometrie Variables......................................................39
3.2 Solar Radiation..............................................................................................40
3.3 Scattering and Absorption of Solar Radiation...............................................45
3.3.1 Rayleigh Scattering...............................................................................45
3.3.2 The Absorption of Solar Radiation.......................................................49
3.4 Infrared Radiation..........................................................................................52
3.4.1 The Equation of Radiative Transfer......................................................54
3.4.2 The Radiative - Convective Atmosphere..............................................57
3.4.3 The Runaway Greenhouse....................................................................59
4 Origin and Evolution of the Atmospheres.............................................63
4.1 The Relevant Data.........................................................................................63
4.2 An Inventory of the Volatile Elements..........................................................65
4.3 A Simple Model for the Nebula.....................................................................67
4.4 The Chemical Composition of the Planets....................................................70
4.5 The Escape Mechanisms...............................................................................73
4.5.1 The Jeans Escape..................................................................................74
4.5.2 The Diffusive Transport in the Atmosphere.........................................77
4.5.3 The Hydrodynamic Escape...................................................................82
4.6 The Steam Atmosphere.................................................................................84
5 The First Laws of Motion.........................................................................91
5.1 Scales and Orders of Magnitude....................................................................91
5.2 The Equations We Absolutely Need..............................................................93
5.2.1 The Total Derivative.............................................................................93
5.2.2 The Continuity Equation.......................................................................95
5.2.3 Pressure Forces.....................................................................................97
5.2.4 Friction Forces......................................................................................97
5.2.5 The Coriolis Acceleration.....................................................................99
5.2.6 The Equations of Motion in an Inertial System..................................101
5.3 Vorticity and Circulation.............................................................................103
5.3.1 Some Properties of Vorticity and Circulation.....................................105
5.3.2 The Sea Breeze...................................................................................108
5.3.3 Some Other Local Winds....................................................................109
6 A Few Simple Applications...................................................................113
6.1 The Isobaric Coordinate System..................................................................113
6.1.1 The Continuity Equation in Isobaric Coordinates...............................115
6.2 The Geostrophic Motion..............................................................................115
6.2.1 The Geostrophic Streamfunction........................................................119
6.2.2 The Quasi-Geostrophy: The Isallobaric Wind....................................120
6.3 The Thermal Wind.......................................................................................122
6.3.1 Thermal Wind and Vorticity...............................................................124
6.3.2 A Few More Things About Geostrophic Wind...................................128
6.4 The Natural Coordinate System...................................................................130
7 The Atmospheric Motions.....................................................................135
7.1 The Rossby Waves......................................................................................135
7.2 The Vorticity Equation................................................................................140
7.3 The Thermodynamic Equation....................................................................145
7.4 The Isentropic Coordinate System..............................................................147
7.4.1 The Vorticity Equation in Isentropic Coordinates..............................150
7.5 The Ertel Potential Vorticity........................................................................151
7.5.1 The Application of the Potential Vorticity..........................................153
7.5.2 Ozone and Vorticity............................................................................155
7.5.3 More on Rossby Waves......................................................................156
7.6 The Non-stationary Solutions......................................................................158
7.6.1 Numerical Solutions of a Flow Above an Obstacle: The Stationary
Case..............................................................................................................159
7.6.2 Numerical Solutions of a Flow Above an Obstacle: the Non-stationary
Case..............................................................................................................162
8 The Planetary Boundary layer..............................................................165
8.1 Turbulence and Diffusion............................................................................165
8.2 Turbulent Friction........................................................................................168
8.2.1 The Mixing Length.............................................................................170
8.3 The Surface Layer.......................................................................................172
8.4 The Ekman Layer........................................................................................175
8.5 The Secondary Circulation..........................................................................179
8.5.1 Spin-Down in a Teacup.......................................................................181
8.6 The Transfer of Sensible and Latent Heat...................................................183
8.6.1 The Fluxes in Presence of Vegetation.................................................185
8.7 Turbulent Diffusion from Discrete Sources.................................................187
8.7.1 The Characteristics of Smoke Plumes.................................................187
8.7.2 The Gaussian Plume............................................................................190
9 Aerosols and Clouds.............................................................................193
9.1 Sources of Atmospheric Aerosols................................................................193
9.2 The Size Distribution of Atmospheric Aerosols..........................................195
9.3 Nucleation and Growth................................................................................197
9.3.1 Nucleation from Water Vapor Condensation......................................198
9.3.2 The Growth by Condensation.............................................................200
9.3.3 Droplet Growth by Collision and Coalescence...................................202
9.3.4 The Statistical Growth........................................................................204
9.4 Formation and Growth of Ice Crystals........................................................205
9.5 A Few Things About Radar.........................................................................210
9.6 Stratospheric Aerosols.................................................................................214
9.6.1 The Sulfate Aerosol layer...................................................................214
9.6.2 Polar Stratospheric Clouds (PSC).......................................................216
10 Waves in the Atmosphere...................................................................219
10.1 Some Properties of the Waves...................................................................219
10.2 Gravity Waves in Shallow Water..............................................................221
10.3 Orographie Waves.....................................................................................223
10.4 Internal Gravity Waves..............................................................................226
10.5 Three Dimensional Rossby Waves............................................................229
10.6 The Physics of Gravity Waves..................................................................232
10.6.1 The Equation of Quasi Geostrophic Potential Vorticity...................232
10.6.2 The Eliassen-Palm Flux....................................................................234
10.6.3 Energetics of Gravity Waves............................................................236
10.7 Breaking, Saturation and Turbulence in the Upper Atmosphere...............238
11 The Data on the Atmospheric Circulation.........................................245
11.1 The General Features.................................................................................245
11.2 The Energy Budget of the Atmosphere.....................................................248
11.2.1 Forms of Energy...............................................................................251
11.2.2 Decomposition of Transport.............................................................254
11.2.3 The Details of the Energy Budget.....................................................255
11.3 The Mean Zonal Circulation......................................................................257
12 Theories on the General Circulation of the Atmosphere.................263
12.1 The Equatorial Circulation........................................................................263
12.1.1 Gill s Symmetric Circulation.............................................................263
12.1.2 The Non-linear Symmetric Circulation.............................................267
12.1.3 The Inviscid Symmetric Circulation.................................................270
12.2 The General Circulation: A Reductionist Approach..................................274
12.2.1 Thelnertial Instability.......................................................................276
12.2.2 A Comparison Among the Planets....................................................277
12.3 The Middle Latitude Circulation...............................................................278
12.3.1 The Baroclinic Instability: Qualitative Treatment.............................279
12.3.2 The Baroclinic Instability: The Eady Problem..................................281
12.3.3 The Baroclinic Instability: The Charney Problem............................286
12.3.4 The Baroclinic Instability: Two Levels Model.................................287
12.4 Energetics of the Baroclinic Waves...........................................................292
12.4.1 Energy in the Two Levels Model......................................................295
12.4.2 The Parameterization of Transport....................................................297
13 Radiation for Different Uses................................................................301
13.1 Parameterization of Gaseous Absorption..................................................301
13.1.1 The Ozone Absorption......................................................................302
13.1.2 The Water Vapor Absorption............................................................304
13.2 The Interaction of Solar Radiation with Particulates in the Atmosphere...307
13.2.1 Optical Properties of the Particles.....................................................309
13.2.2 Phase Functions and Mie Scattering.................................................315
13.3 Radiative Transfer in the Presence of Scattering.......................................316
13.3.1 A Few Simple Applications of the ¿-Eddington Approximation.....320
13.4 The Transfer of Infrared Radiation............................................................323
13.4.1 The Formal Solution.........................................................................323
13.5 Molecular Spectra......................................................................................324
13.5.1 Spectral Line Shape..........................................................................326
13.6 Models for the Line Absorption................................................................328
13.6.1 A Formulation of the Infrared Flux...................................................330
13.6.2 The Band Absorptivities According to Cess and Ramanathan..........331
13.7 d-Eddington in the Infrared.......................................................................333
14 Simple Climate Models........................................................................335
14.1 Energy Budget...........................................................................................335
14.2 Zero Dimensional Models and Feedback..................................................336
14.3 One Dimensional Energy Balance Climate Models..................................341
14.3.1 The North Model...............................................................................342
14.3.2 The Stability of the One Dimensional Model...................................346
14.3.3 The Sellers Model.............................................................................348
14.4 The radiative - convective models.............................................................350
14.4.1 The Radiative-Convective Models and the Greenhouse Effect.........355
14.4.2 Can We Put Together the Radiative-Convective and Energy Balance
Climate Models?..........................................................................................357
15 The Application of the Simple Climate Models.................................359
15.1 The Climate System...................................................................................359
15.2 The Solar Radiation and the Orbital Parameters........................................363
15.3 Some Experimental Data on the Ice Ages.................................................366
15.4 The 100 kyear Cycle and the Lithosphère - Atmosphere Coupling..........369
15.5 Stochastic Resonance................................................................................374
15.6 The Global Wanning: A Simple Exercise.................................................378
15.6.1 The Near Future Climate of the Earth as a Problem of Electrical
Engineering..................................................................................................378
15.7 The General Circulation Models ..............................................................384
15.7.1 The Model Equations........................................................................385
15.7.2 The Performances of the GCMs........................................................387
16 Chemistry of the Troposphere............................................................393
16.1 Introduction...............................................................................................393
16.2 A Chemistry Refresher..............................................................................394
16.3 The Minor Gas Inventory..........................................................................397
16.3.1 Methane............................................................................................399
16.3.2 Nitrous Oxide....................................................................................399
16.3.3 Atmospheric Chlorine.......................................................................400
16.4 The Biogeochemical Cycle for Carbon.....................................................403
16.4.1 Carbonate/CO, System: A Bit of Marine Chemistry.........................405
16.4.2 How Long Will the Biosphere Survive?...........................................410
16.5 Chemistry of the Troposphere...................................................................414
16.5.1 Methane Oxidation............................................................................416
16.5.2 The Chemistry of Urban Air.............................................................418
16.5.3 The Atmospheric Sulfur Cycle..........................................................422
16.6. Modes of a Chemical System...................................................................424
16.7 Transport of Chemical Species in the Troposphere...................................427
17 Dynamics of the Middle Atmosphere.................................................431
17.1 Thermal Structure of the Stratosphere.......................................................431
17.2 The Eulerian Mean Circulation.................................................................433
17.2.1 The Transformed Eulerian Mean......................................................435
17.2.2 An Attempt to Understand the Origin of the Residual Circulation ...437
17.2.3 The Sudden Stratospheric Warming.................................................438
17.3 Tracers Transport in the Stratosphere........................................................440
17.3.1 The Two-Dimensional Diffusion Coefficients..................................442
17.3.2 Self Consistent Transport in Two Dimensions..................................445
17.3.3 Troposphere-Stratosphere Exchange................................................447
17.3.4 Eddies and the Troposphere-Stratosphere Flux................................449
17.4 Transport in Isentropic Coordinates..........................................................452
17.4.1 Stratospheric Dynamics and Ertel potential vorticity........................453
17.4.2 The Slope of the Tracers...................................................................455
17.4.3 The Tracer Correlation: Age of Air and Transport...........................458
17.4.4 The Conservative Coordinates..........................................................463
18 Stratospheric Chemistry.....................................................................469
18.1 The Ozone Distribution.............................................................................470
18.2 The Homogeneous Ozone Chemistry........................................................472
18.2.1 The Catalytic Cycles in the Gaseous Phase......................................474
18.2.2 The Odd Hydrogen Catalytic Cycle..................................................475
18.2.3 The Odd Nitrogen Catalytic Cycle....................................................477
18.2.4 The Bromine and Chlorine Catalytic Cycles.....................................478
18.2.5 The Effects of the Catalytic Cycles...................................................480
18.3 Heterogeneous Chemistry..........................................................................483
18.4 The Perturbations to the Ozone Layer.......................................................486
18.4.1 The Global Ozone Trend...................................................................488
18.4.2 Natural and Anthropogenic Perturbations: Volcanic Eruptions........491
18.4.3 Natural and Anthropogenic Perturbations: The Effect of Aviation...497
18.5 Polar Ozone...............................................................................................500
18.5.1 The Theory of the Polar Ozone.........................................................502
19 Chaos in the Atmosphere 507
19.1 Simple Examples from the Theory of Dynamical Systems.......................507
19.1.1 The Poincarè Section........................................................................508
19.1.2 Fractal Dimension.............................................................................510
19.2 The Climate...............................................................................................512
19.3 Is El Niño Chaotic?....................................................................................517
19.4 Dimensions of Weather and Climate Attractors........................................521
Appendix A................................................................................................525
A.I Constructing a Tephigram..........................................................................525
Appendix ?................................................................................................529
B.I Flow Over an Obstacle: The Numerical Solution.......................................529
AppendixC................................................................................................541
C.I The Quasi Geostrophic Potential Vorticity in log-p Coordinates...............541
C.2 The Eliassen and Palm Flux Terms.............................................................541
C.3 Energy and EP Flux....................................................................................542
C.4 The WKB Approximation...........................................................................543
C.5 The Numerical Solution to the Wave Equation..........................................544
Appendix D................................................................................................553
D.I Band Parameterization forCO2, O3 and H20..............................................553
Appendix E.................................................................................................555
E. 1 A Listing for the North s Spectral Model....................................................555
E.2 Program for the Sellers Model....................................................................559
Appendix F.................................................................................................565
F.I The Model for Stochastic Resonance..........................................................565
F.2. The FORTRAN Program...........................................................................566
Symbols......................................................................................................569
References.................................................................................................573
Subject Index.............................................................................................586
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| indexdate | 2024-07-09T18:49:51Z |
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| publisher | Springer |
| record_format | marc |
| spelling | Visconti, Guido Verfasser aut Fundamentals of physics and chemistry of the atmosphere with 14 tables Guido Visconti Berlin [u.a.] Springer 2001 593 S. Ill., graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Literaturverz. S. 573 - 584 Systemvoraussetzungen der CD-ROM-Beil.: any platform supporting Fortran and PC Chemie (DE-588)4009816-3 gnd rswk-swf Physik (DE-588)4045956-1 gnd rswk-swf Atmosphäre (DE-588)4003397-1 gnd rswk-swf Atmosphäre (DE-588)4003397-1 s Chemie (DE-588)4009816-3 s DE-604 Physik (DE-588)4045956-1 s HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009337276&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Visconti, Guido Fundamentals of physics and chemistry of the atmosphere with 14 tables Chemie (DE-588)4009816-3 gnd Physik (DE-588)4045956-1 gnd Atmosphäre (DE-588)4003397-1 gnd |
| subject_GND | (DE-588)4009816-3 (DE-588)4045956-1 (DE-588)4003397-1 |
| title | Fundamentals of physics and chemistry of the atmosphere with 14 tables |
| title_auth | Fundamentals of physics and chemistry of the atmosphere with 14 tables |
| title_exact_search | Fundamentals of physics and chemistry of the atmosphere with 14 tables |
| title_full | Fundamentals of physics and chemistry of the atmosphere with 14 tables Guido Visconti |
| title_fullStr | Fundamentals of physics and chemistry of the atmosphere with 14 tables Guido Visconti |
| title_full_unstemmed | Fundamentals of physics and chemistry of the atmosphere with 14 tables Guido Visconti |
| title_short | Fundamentals of physics and chemistry of the atmosphere |
| title_sort | fundamentals of physics and chemistry of the atmosphere with 14 tables |
| title_sub | with 14 tables |
| topic | Chemie (DE-588)4009816-3 gnd Physik (DE-588)4045956-1 gnd Atmosphäre (DE-588)4003397-1 gnd |
| topic_facet | Chemie Physik Atmosphäre |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009337276&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT viscontiguido fundamentalsofphysicsandchemistryoftheatmospherewith14tables |