Ocean modelling for beginners: using open source software ; [with CD-ROM]
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| Main Author: | |
|---|---|
| Format: | Book |
| Language: | English |
| Published: |
Berlin ; Heidelberg
Springer
2009
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| Subjects: | |
| Online Access: | Inhaltsverzeichnis |
| Physical Description: | XV, 175 S. graph. Darst. 25 cm 1 CD-ROM |
| ISBN: | 9783642008191 |
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| 245 | 1 | 0 | |a Ocean modelling for beginners |b using open source software ; [with CD-ROM] |c Jochen Kämpf |
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Record in the Search Index
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| adam_text | CONTENTS 1 REQUIREMENTS 1 1.1 SOFTWARE OVERVIEW 1 1.2 PROGRAMMING
LANGUAGE AND COMPILER 1 1.3 DATA-VISUALISATION SOFTWARE 2 1.4 TEXT
EDITOR 2 1.5 ORGANISATION OF WORK 3 1.6 STRUCTURE OF THIS BOOK 3 2
MOTIVATION 5 2.1 THE DECAY PROBLEM 5 2.1.1 THE PROBLEM 5 2.1.2 PHYSICAL
INTERPRETATION 5 2.1.3 EXAMPLE 6 2.1.4 HOW TO PRODUCE A SIMPLE GRAPH
WITH SCILAB 7 2.2 FIRST STEPS WITH FINITE DIFFERENCES 8 2.2.1 FINITE
TIME STEP AND TIME LEVEL 8 2.2.2 EXPLICIT TIME-FORWARD ITERATION 8 2.2.3
CONDITION OF NUMERICAL STABILITY FOR EXPLICIT SCHEME 8 2.2.4 IMPLICIT
TIME-FORWARD ITERATION 9 2.2.5 HYBRID SCHEMES 9 2.2.6 OTHER SCHEMES 9
2.2.7 CONDITION OF CONSISTENCY 10 2.2.8 CONDITION OF ACCURACY 10 2.2.9
CONDITION OF EFFICIENCY 10 2.2.10 HOW MODEL CODES WORK 10 2.2.11 THE
FIRST FORTRAN CODE 11 2.2.12 HOW TO COMPILE AND RUN FORTRAN CODES 11
2.2.13 A QUICK START TO FORTRAN 11 2.3 EXERCISE 1 : THE DECAY PROBLEM 13
2.3.1 AIM 13 2.3.2 TASK DESCRIPTION 14 2.3.3 INSTRUCTIONS 14
BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/992751489 DIGITALISIERT
DURCH CONTENTS 2.3.4 SAMPLE CODE 14 2.3.5 RESULTS 14 2.3.6 ADDITIONAL
EXERCISE FOR THE READER 14 2.4 DETECTION AND ELIMINATION OF ERRORS 15
2.4.1 ERROR MESSAGES 15 2.4.2 CORRECT ERRORS ONE BY ONE 15 2.4.3 IGNORE
ERROR MESSAGE TEXT 15 2.4.4 FREQUENT ERRORS 16 2.4.5 TRUST YOUR COMPILER
16 2.4.6 DISPLAY WARNINGS 16 BASICS OF GEOPHYSICAL FLUID DYNAMICS 17 3.1
UNITS 17 3.2 SCALARS AND VECTORS 17 3.2.1 DIFFERENCE BETWEEN SCALARS AND
VECTORS 17 3.2.2 CONTOURS AND CONTOUR INTERVAL 18 3.3 LOCATION AND
VELOCITY 18 3.3.1 LOCATION AND DISTANCE 18 3.3.2 CALCULATION OF
DISTANCES WITH SCILAB 19 3.3.3 VELOCITY 19 3.4 TYPES OF MOTION 20 3.4.1
STEADY-STATE MOTIONS 20 3.4.2 WAVES 20 3.4.3 THE SINUSOIDAL WAVEFORM 20
3.5 VISUALISATION OF A WAVE USING SCILAB 21 3.5.1 A SIMPLE WAVE MADE OF
VERTICALLY MOVING BARS 21 3.5.2 SAMPLE SCRIPT 21 3.5.3 THE FIRST SCILAB
SCRIPT 22 3.5.4 A QUICK-START TO SCILAB 22 3.5.5 THE FIRST GIF ANIMATION
23 3.5.6 MODIFIED ANIMATION SCRIPT 23 3.5.7 CREATION OF AN ANIMATED GIF
FILE 24 3.5.8 PHASE SPEED 24 3.5.9 DISPERSION RELATION 24 3.5.10
SUPERPOSITION OF WAVES 25 3.6 EXERCISE 2: WAVE INTERFERENCE 25 3.6.1 AIM
25 3.6.2 TASK DESCRIPTION 25 3.6.3 SAMPLE SCRIPT 26 3.6.4 A GLIMPSE OF
RESULTS 26 3.6.5 A RULE OF THUMB 26 3. CONTENTS 3.7.3 APPARENT FORCES 28
3.7.4 LAGRANGIAN TRAJECTORIES 28 3.7.5 EULERIAN FRAME OF REFERENCE AND
ADVECTION 28 3.7.6 INTERPRETATION OF THE ADVECTION EQUATION 29 3.7.7 THE
NONLINEAR TERMS 29 3.7.8 IMPACTS OF THE NONLINEAR TERMS 30 3.8
FUNDAMENTAL CONSERVATION PRINCIPLES 30 3.8.1 A LIST OF PRINCIPLES 30
3.8.2 CONSERVATION OF MOMENTUM 30 3.8.3 CONSERVATION OF VOLUME - THE
CONTINUITY EQUATION 30 3.8.4 VERTICALLY INTEGRATED FORM OF THE
CONTINUITY EQUATION 32 3.8.5 DIVERGENCE OR CONVERGENCE? 32 3.8.6 THE
CONTINUITY EQUATION FOR STREAMFLOWS 33 3.8.7 DENSITY 34 3.8.8 THE
EQUATION OF STATE FOR SEAWATER 34 3.9 GRAVITY AND THE BUOYANCY FORCE 34
3.9.1 ARCHIMEDES PRINCIPLE 34 3.9.2 REDUCED GRAVITY 35 3.9.3 STABILITY
FREQUENCY 35 3.9.4 STABLE, NEUTRAL AND UNSTABLE CONDITIONS 36 3.10
EXERCISE 3: OSCILLATIONS OF A BUOYANT OBJECT 36 3.10.1 AIM 36 3.10.2
TASK DESCRIPTION 36 3.10.3 MOMENTUM EQUATIONS 36 3.10.4 CODE STRUCTURE
37 3.10.5 FINITE-DIFFERENCE EQUATIONS 37 3.10.6 INITIAL AND BOUNDARY
CONDITIONS 37 3.10.7 SAMPLE CODE AND ANIMATION SCRIPT 38 3.10.8
DISCUSSION OF RESULTS 38 3.10.9 ANALYTICAL SOLUTION 39 3.10.10 INCLUSION
OF FRICTION 39 3.10.11 ADDITIONAL EXERCISES FOR THE READER 41 3.11 THE
PRESSURE-GRADIENT FORCE 41 3.11.1 THE HYDROSTATIC BALANCE 41 3.11.2
WHICH PROCESSES ARE HYDROSTATIC? 41 3.11. CONTENTS 3.12.5 MOTION IN A
ROTATING FLUID AS SEEN IN THE FIXED FRAME OF REFERENCE 47 3.12.6 PARCEL
TRAJECTORY 47 3.12.7 NUMERICAL CODE 48 3.12.8 ANALYTICAL SOLUTION 49
3.12.9 THE CORIOLIS FORCE 49 3.13 THE CORIOLIS FORCE ON EARTH 50 3.13.1
THE LOCAL VERTICAL 50 3.13.2 THE CORIOLIS PARAMETER 51 3.13.3 THE
/-PLANE APPROXIMATION 52 3.13.4 THE BETA-PLANE APPROXIMATION 52 3.14
EXERCISE 4: THE CORIOLIS FORCE IN ACTION 53 3.14.1 AIM 53 3.14.2 FIRST
ATTEMPT 53 3.14.3 IMPROVED SCHEME 1: THE SEMI-IMPLICIT APPROACH 53
3.14.4 IMPROVED SCHEME 2: THE LOCAL-ROTATION APPROACH 55 3.14.5 YES! 55
3.14.6 SAMPLE CODE AND ANIMATION SCRIPT 55 3.14.7 INERTIAL OSCILLATIONS
56 3.14.8 SAMPLE CODE AND ANIMATION SCRIPT 57 3.15 TURBULENCE 57 3.15.1
LAMINAR AND TURBULENT FLOW 57 3.15.2 THE REYNOLDS APPROACH 57 3.15.3
WHAT CAUSES TURBULENCE? 58 3.15.4 THE RICHARDSON NUMBER 58 3.15.5
TURBULENCE CLOSURE AND TURBULENT DIFFUSION 59 3.15.6 PRANDTL S MIXING
LENGTH 59 3.15.7 INTERPRETATION OF THE DIFFUSION EQUATION 59 3.16 THE
NAVIER-STOKES EQUATIONS 60 3.16.1 COMPLETE SET OF EQUATIONS 60 3.16.2
BOUNDARY CONDITIONS FOR OCEANIC APPLICATIONS 61 3.17 SCALING 61 3.17.1
THE IDEA 61 3.17.2 EXAMPLE OF SCALING 62 4 LONG WAVES IN A CHANNEL 65
4.1 MORE ON FINITE DIFFERENCES 65 4.1. CONTENTS 4.2.3 THE SHALLOW-WATER
MODEL 68 4.2.4 THE GOVERNING EQUATIONS 69 4.2.5 ANALYTICAL WAVE SOLUTION
69 4.2.6 ANIMATION SCRIPT 70 4.2.7 NUMERICAL GRID 71 4.2.8
FINITE-DIFFERENCE SCHEME 71 4.2.9 STABILITY CRITERION 72 4.2.10
FIRST-ORDER SHAPIRO FILTER 73 4.2.11 LAND AND COASTLINES 73 4.2.12
LATERAL BOUNDARY CONDITIONS 73 4.2.13 MODULAR FORTRAN SCRIPTING 74
4.2.14 STRUCTURE OF THE FOLLOWING FORTRAN CODES 75 4.3 EXERCISE 5: LONG
WAVES IN A CHANNEL 76 4.3.1 AIM 76 4.3.2 INSTRUCTIONS 76 4.3.3 SAMPLE
CODE AND ANIMATION SCRIPT 77 4.3.4 RESULTS 77 4.4 EXERCISE 6: THE
FLOODING ALGORITHM 77 4.4.1 AIM 77 4.4.2 REDEFINITION OF WET AND DRY 79
4.4.3 ENABLING HOODING OF DRY GRID CELLS 79 4.4.4 FLOODING OF SLOPING
BEACHES 79 4.4.5 ULTIMATE CRASH TESTS 80 4.4.6 SAMPLE CODE AND ANIMATION
SCRIPT 80 4.4.7 RESULTS 81 4.5 THE MULTI-LAYER SHALLOW-WATER MODEL 82
4.5.1 BASICS 82 4.6 EXERCISE 7: LONG WAVES IN A LAYERED FLUID 84 4.6.1
AIM 84 4.6.2 TASK DESCRIPTION 84 4.6.3 SAMPLE CODE AND ANIMATION SCRIPT
85 4.6.4 RESULTS 85 4.6.5 PHASE SPEED OF LONG INTERNAL WAVES 86 4.6.6
NATURAL OSCILLATIONS IN CLOSED BODIES OF FLUID 86 4.6.7 MERIAN S FORMULA
87 4.6.8 CO-OSCILLATIONS IN BAYS 88 4.6.9 ADDITIONAL EXERCISE FOR THE
READER 88 2D SHALLOW-WATER MODELLING 9 CONTENTS 5.1.5 STABILITY
CRITERION 94 5.2 EXERCISE 8: LONG WAVES IN A SHALLOW LAKE 94 5.2.1 AIM
94 5.2.2 TASK DESCRIPTION 94 5.2.3 SAMPLE CODE AND ANIMATION SCRIPT 94
5.2.4 SNAPSHOT RESULTS 95 5.2.5 ADDITIONAL EXERCISE FOR THE READER 95
5.3 EXERCISE 9: WAVE REFRACTION 95 5.3.1 AIM 95 5.3.2 BACKGROUND 95
5.3.3 TASK DESCRIPTION 96 5.3.4 LATERAL BOUNDARY CONDITIONS 96 5.3.5
SAMPLE CODE AND ANIMATION SCRIPT 98 5.3.6 RESULTS 98 5.3.7 ADDITIONAL
EXERCISE FOR THE READER 98 5.4 THE WIND-FORCED SHALLOW-WATER MODEL 99
5.4.1 THE GOVERNING EQUATIONS 99 5.4.2 SEMI-IMPLICIT APPROACH FOR BOTTOM
FRICTION 99 5.4.3 FINITE-DIFFERENCE EQUATIONS 100 5.5 EXERCISE 10:
WIND-DRIVEN FLOW IN A LAKE 101 5.5.1 AIM 101 5.5.2 CREATION OF VARIABLE
BATHYMETRY 101 5.5.3 SAMPLE CODE 101 5.5.4 TASK DESCRIPTION 101 5.5.5
TRICKS FOR LONG MODEL SIMULATIONS 102 5.5.6 RESULTS 102 5.5.7 SAMPLE
CODE AND ANIMATION SCRIPT 103 5.5.8 CAUTION 103 5.5.9 ADDITIONAL
EXERCISE FOR THE READER 104 5.6 MOVEMENT OF TRACERS 104 5.6.1 LAGRANGIAN
VERSUS EULERIAN TRACERS 104 5.6.2 A DIFFICULT TASK 104 5.6.3 EULERIAN
ADVECTION SCHEMES 104 5.6.4 STABILITY CRITERION FOR THE ADVECTION
EQUATION 106 5.7 EXERCISE 11 : EULERIAN ADVECTION 106 5.7.1 AIM 106
5.7.2 TASK DESCRIPTION 107 5.7.3 RESULTS 107 5.7. CONTENTS 5.9 EXERCISE
13: INCLUSION OF NONLINEAR TERMS . 5.9.1 AIM 5.9.2 FORMULATION OF THE
NONLINEAR TERMS 5.9.3 SAMPLE CODE 5.9.4 RESULTS 5.10 EXERCISE 14: ISLAND
WAKES 5.10.1 AIM 5.10.2 THE REYNOLDS NUMBER 5.10.3 INCLUSION OF LATERAL
FRICTION AND MOMENTUM DIFFUSION. 5.10.4 STABILITY CRITERION FOR
DIFFUSION TERMS 5.10.5 FULL-SLIP, SEMI-SLIP AND NO-SLIP CONDITIONS
5.10.6 TASK DESCRIPTION 5.10.7 SAMPLE CODE 5.10.8 RESULTS 5.10.9
ADDITIONAL EXERCISES FOR THE READER 11 11 11 12 12 12 13 13 15 15 16 17
17 18 6 ROTATIONAL EFFECTS 119 6.1 THE COMPLETE SHALLOW-WATER EQUATIONS
119 6.1.1 DESCRIPTION 119 6.1.2 IMPLEMENTATION OF THE CORIOLIS FORCE 119
6.2 COASTAL KELVIN WAVES 120 6.2.1 THEORY 120 6.3 EXERCISE 15: COASTAL
KELVIN WAVES 121 6.3.1 AIM 121 6.3.2 TASK DESCRIPTION 121 6.3.3 RESULTS
122 6.3.4 SAMPLE CODES AND ANIMATION SCRIPT 122 6.3.5 ADDITIONAL
EXERCISE FOR THE READER 122 6.4 GEOSTROPHIC FLOW 122 6.4.1 SCALING 122
6.4.2 THE GEOSTROPHIC BALANCE 123 6.4.3 GEOSTROPHIC EQUATIONS 123 6.4.4
VORTICITY 124 6.4.5 CONSERVATION OF POTENTIAL VORTICITY 126 6.4.6
TOPOGRAPHIC STEERING 127 6.4. CONTENTS 6.6 INSTABILITY OF LATERAL SHEAR
FLOWS 132 6.6.1 THEORY 132 6.6.2 INSTABILITY TO LONG WAVES 134 6.7
EXERCISE 17: BAROTROPIC INSTABILITY 134 6.7.1 AIM 134 6.7.2 MODEL
EQUATIONS 134 6.7.3 TASK DESCRIPTION 134 6.7.4 RESULTS 135 6.7.5 SAMPLE
CODE AND ANIMATION SCRIPT 136 6.7.6 ADDITIONAL EXERCISE FOR THE READER
137 6.8 THE WIND-DRIVEN CIRCULATION OF THE OCEAN 137 6.8.1 THE DYNAMICAL
STRUCTURE OF THE OCEAN 137 6.8.2 STEADY-STATE DYNAMICS AND VOLUME
TRANSPORT 137 6.8.3 A SIMPLIFIED MODEL OF THE WIND-DRIVEN CIRCULATION
138 6.8.4 THE SURFACE EKMAN LAYER 139 6.8.5 EKMAN-LAYER TRANSPORT 139
6.8.6 EKMAN PUMPING 140 6.8.7 THE SVERDRUP BALANCE 141 6.8.8
INTERPRETATION OF THE SVERDRUP RELATION 141 6.8.9 THE BOTTOM EKMAN LAYER
142 6.8.10 WESTERN BOUNDARY CURRENTS 143 6.8.11 THE ROLE OF LATERAL
MOMENTUM DIFFUSION 144 6.9 EXERCISE 18: THE WIND-DRIVEN CIRCULATION 144
6.9.1 AIM 144 6.9.2 TASK DESCRIPTION 144 6.9.3 RESULTS 146 6.9.4 SAMPLE
CODE AND ANIMATION SCRIPT 147 6.9.5 ADDITIONAL EXERCISES FOR THE READER
147 6.10 EXERCISE 19: BAROCLINIC COMPENSATION 148 6.10.1 BACKGROUND 148
6.10.2 AIM 148 6.10.3 TASK DESCRIPTION 148 6.10.4 RESULTS 149 6.10.5
SAMPLE CODE AND SCILAB ANIMATION SCRIPT 149 6.10.6 ADDITIONAL EXERCISE
FOR THE READER 149 6.11 THE REDUCED-GRAVITY CONCEPT 149 6.11. CONTENTS
XV 6.13.3 RESULTS 156 6.13.4 SAMPLE CODE AND ANIMATION SCRIPT 157 6.13.5
ADDITIONAL EXERCISE FOR THE READER 157 6.14 BAROCLINIC INSTABILITY 157
6.14.1 BRIEF DESCRIPTION 157 6.15 EXERCISE 21 : FRONTAL INSTABILITY 158
6.15.1 AIM 158 6.15.2 TASK DESCRIPTION 158 6.15.3 RESULTS 159 6.15.4
SAMPLE CODE AND ANIMATION SCRIPT 161 6.15.5 ADDITIONAL EXERCISE FOR THE
READER 162 6.16 DENSITY-DRIVEN FLOWS 162 6.16.1 BACKGROUND 162 6.17
EXERCISE 22: REDUCED-GRAVITY PLUMES 163 6.17.1 AIM 163 6.17.2 TASK
DESCRIPTION 163 6.17.3 WRITE A NEW SIMULATION CODE? 164 6.17.4 RESULTS
164 6.17.5 SAMPLE CODE AND ANIMATION SCRIPT 166 6.17.6 ADDITIONAL
EXERCISE FOR THE READER 167 6.18 TECHNICAL INFORMATION 167 BIBLIOGRAPHY
169 LIST OF EXERCISES 171 INDEX 173
|
| any_adam_object | 1 |
| author | Kämpf, Jochen |
| author_GND | (DE-588)137330286 |
| author_facet | Kämpf, Jochen |
| author_role | aut |
| author_sort | Kämpf, Jochen |
| author_variant | j k jk |
| building | Verbundindex |
| bvnumber | BV036538652 |
| ctrlnum | (OCoLC)845485280 (DE-599)DNB992751489 |
| dewey-full | 551.46015118 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 551 - Geology, hydrology, meteorology |
| dewey-raw | 551.46015118 |
| dewey-search | 551.46015118 |
| dewey-sort | 3551.46015118 |
| dewey-tens | 550 - Earth sciences |
| discipline | Geologie / Paläontologie |
| format | Book |
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| id | DE-604.BV036538652 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:42:22Z |
| institution | BVB |
| isbn | 9783642008191 |
| language | English |
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| physical | XV, 175 S. graph. Darst. 25 cm 1 CD-ROM |
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| spelling | Kämpf, Jochen Verfasser (DE-588)137330286 aut Ocean modelling for beginners using open source software ; [with CD-ROM] Jochen Kämpf Berlin ; Heidelberg Springer 2009 XV, 175 S. graph. Darst. 25 cm 1 CD-ROM txt rdacontent n rdamedia nc rdacarrier Meereskunde (DE-588)4074685-9 gnd rswk-swf Numerisches Modell (DE-588)4338132-7 gnd rswk-swf Meereskunde (DE-588)4074685-9 s Numerisches Modell (DE-588)4338132-7 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020460466&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kämpf, Jochen Ocean modelling for beginners using open source software ; [with CD-ROM] Meereskunde (DE-588)4074685-9 gnd Numerisches Modell (DE-588)4338132-7 gnd |
| subject_GND | (DE-588)4074685-9 (DE-588)4338132-7 |
| title | Ocean modelling for beginners using open source software ; [with CD-ROM] |
| title_auth | Ocean modelling for beginners using open source software ; [with CD-ROM] |
| title_exact_search | Ocean modelling for beginners using open source software ; [with CD-ROM] |
| title_full | Ocean modelling for beginners using open source software ; [with CD-ROM] Jochen Kämpf |
| title_fullStr | Ocean modelling for beginners using open source software ; [with CD-ROM] Jochen Kämpf |
| title_full_unstemmed | Ocean modelling for beginners using open source software ; [with CD-ROM] Jochen Kämpf |
| title_short | Ocean modelling for beginners |
| title_sort | ocean modelling for beginners using open source software with cd rom |
| title_sub | using open source software ; [with CD-ROM] |
| topic | Meereskunde (DE-588)4074685-9 gnd Numerisches Modell (DE-588)4338132-7 gnd |
| topic_facet | Meereskunde Numerisches Modell |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020460466&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kampfjochen oceanmodellingforbeginnersusingopensourcesoftwarewithcdrom |