Physics and modelling of wind erosion:
This book provides a comprehensive summary of the recent developments in wind-erosion research and a clear outline of its future directions. The physics of wind erosion, from particle entrainment to transport and deposition, is described with rigor from the viewpoints of fluid dynamics and soil phys...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin
Springer
2008
|
| Ausgabe: | 2nd revised and expansed edition |
| Schriftenreihe: | Atmospheric and oceanographic sciences library
37 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | This book provides a comprehensive summary of the recent developments in wind-erosion research and a clear outline of its future directions. The physics of wind erosion, from particle entrainment to transport and deposition, is described with rigor from the viewpoints of fluid dynamics and soil physics. The techniques tor quantitative wind-erosion prediction through computational modelling constitutes a unique feature of this book in contrast to others published in the same field. The author has advocated the development of integrated wind-erosion modelling systems which couple dynamic models for the atmosphere and land surface with spatially distributed data for land-surface conditions. The successful applications of such a system have demonstrated its usefulness in wind-erosion assessment and prediction on regional to continental scales. |
| Beschreibung: | peplosphere |
| Beschreibung: | XV, 452 Seiten Illustrationen, Diagramme, Karten |
| ISBN: | 9781402088940 9789048180202 |
Internformat
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| 245 | 1 | 0 | |a Physics and modelling of wind erosion |c Yaping Shao |
| 250 | |a 2nd revised and expansed edition | ||
| 264 | 1 | |a Berlin |b Springer |c 2008 | |
| 300 | |a XV, 452 Seiten |b Illustrationen, Diagramme, Karten | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Atmospheric and oceanographic sciences library |v 37 | |
| 500 | |a peplosphere | ||
| 505 | 8 | |a Wind Erosion and Wind-Erosion Research.- Wind-Erosion Climatology.- Atmospheric Boundary Layer and Atmospheric Modelling.- Land-Surface Modelling.- Basic Aspects of Wind Erosion.- The Dynamics and Modelling of Saltation.- Dust Emission.- Dust Transport and Deposition.- Integrated Wind-Erosion Modelling.- Sand Dunes, Dynamics and Modelling.- Techniques for Wind-Erosion Measurements.- Concluding Remarks. | |
| 520 | 1 | |a This book provides a comprehensive summary of the recent developments in wind-erosion research and a clear outline of its future directions. The physics of wind erosion, from particle entrainment to transport and deposition, is described with rigor from the viewpoints of fluid dynamics and soil physics. The techniques tor quantitative wind-erosion prediction through computational modelling constitutes a unique feature of this book in contrast to others published in the same field. The author has advocated the development of integrated wind-erosion modelling systems which couple dynamic models for the atmosphere and land surface with spatially distributed data for land-surface conditions. The successful applications of such a system have demonstrated its usefulness in wind-erosion assessment and prediction on regional to continental scales. | |
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Datensatz im Suchindex
| _version_ | 1804137818498269184 |
|---|---|
| adam_text | Contents
Preface
1......................................................
v
Preface
2......................................................
vii
Acknowledgements
............................................ ix
1
Wind Erosion and Wind-Erosion Research
................. 1
1.1
Wind-Erosion Phenomenon
............................... 1
1.2
Wind-Erosion Research
.................................. 7
1.3
Integrated Wind-Erosion Modelling
........................ 9
2
Wind-Erosion Climatology
................................. 13
2.1
Climatic Background for Wind Erosion
..................... 13
2.2
Geographic Background for Wind Erosion
.................. 18
2.3
Atmospheric Systems
.................................... 20
2.3.1
Monsoon Winds
................................... 21
2.3.2
Cyclones and Frontal Systems
....................... 23
2.3.3
Squall Lines
...................................... 24
2.4
Global Wind-Erosion Patterns
............................ 26
2.5
Major Wind-Erosion Regions
............................. 29
2.5.1
Dust Weather Records and Satellite Remote
Sensing
.......................................... 29
2.5.2
North Africa
...................................... 30
2.5.3
The Middle East
.................................. 34
2.5.4
Central Asia
...................................... 36
2.5.5
Southwest Asia
................................... 37
2.5.6
Northeast Asia
.................................... 39
2.5.7
The United States
................................. 44
2.5.8
Australia
......................................... 45
Contents
Atmospheric Boundary Layer and Atmospheric
Modelling
................................................. 49
3.1
Atmospheric Boundary Layer
............................. 49
3.2
Governing Equations for Atmospheric Boundary-Layer Flows
. 52
3.3
Reynolds Averaging and Turbulent Flux
.................... 56
3.4
Equations for Mean Flows
................................ 59
3.5
Equations for Turbulent Fluxes and Variances
............... 60
3.5.1
Turbulent Dust Flux and Dust Concentration
Variance
......................................... 60
3.5.2
Turbulent Kinetic Energy
.......................... 61
3.5.3
Features of Different Atmospheric Boundary Layers
.... 63
3.6
Surface Layer
........................................... 67
3.6.1
Flux-Gradient Relationship
......................... 67
3.6.2
Friction Velocity
.................................. 68
3.6.3
Logarithmic Wind Profile and Roughness Length
...... 71
3.6.4
Stability Measures
................................. 72
3.7
Similarity Theories
...................................... 74
3.7.1
Monin-Obukhov Similarity Theory
.................. 75
3.7.2
Mixed-Layer Similarity Theory
..................... 78
3.8
Turbulent Flow Models
................................... 79
3.9
Meso-scale, Regional and Global Atmospheric Models
........ 85
Land-Surface Modelling
................................... 91
4.1
General Aspects
......................................... 92
4.2
Surface Energy Balance
.................................. 94
4.3
Soil Moisture
........................................... 96
4.4
Soil Temperature
........................................101
4.5
Calculation of Surface Fluxes
.............................101
4.6
Land-Surface Parameters
.................................106
4.7
Examples of Land-Surface Simulation
......................110
4.8
Treatment of Heterogeneous Surfaces
......................112
Basic Aspects of Wind Erosion
............................117
5.1
Soil-Particle Characteristics
...............................117
5.2
Forces on an Airborne Particle
............................124
5.3
Particle Terminal Velocity
................................129
5.4
Modes of Particle Motion
.................................131
5.5
Threshold Friction Velocity for Sand Particles
...............134
5.5.1
The Bagnold Scheme
..............................135
5.5.2
The Greeley-Iversen Scheme
........................138
5.5.3
The Shao-Lu Scheme and the McKenna
Neuman
Scheme
..........................................139
5.6
Threshold Friction Velocity for Dust Particles
...............142
5.6.1
Relative Importance of Forces
.......................142
5.6.2
Stochastic Nature of Threshold Friction Velocity
......145
Contents xiii
The Dynamics
and Modelling of Saltation
.................149
6.1
Equations of Particle Motion
..............................150
6.2
Uniform Saltation
.......................................152
6.3
Non-Uniform Saltation
...................................154
6.4
Streamwise Saltation Flux
................................156
6.5
The Bagnold-Owen Saltation Equation
.....................157
6.5.1
The Bagnold Model
...............................157
6.5.2
The Owen Model
..................................158
6.6
Other Saltation Equations
................................163
6.7
The Owen Effect
........................................165
6.7.1
The Formulation of Owen
..........................165
6.7.2
The Formulation of Raupach
........................166
6.7.3
Other Formulations
................................171
6.7.4
Profile of Saltation Flux
............................171
6.8
Independent Saltation
....................................172
6.9
Supply-Limited Saltation
.................................175
6.10
Evolution of Streamwise Sand Transport with Distance
.......176
6.11
Splash Entrainment
......................................178
6.11.1
Wind-Tunnel
Observations
.........................178
6.11.2
Numerical Simulations
.............................179
6.12
Numerical Modelling of Saltation
..........................186
6.12.1
Simple Flow Model
................................186
6.12.2
Large-Eddy Simulation Model
.......................187
6.12.3
Particle Motion
...................................188
6.12.4
Aerodynamic Entrainment
..........................190
6.12.5
Splash Scheme
....................................191
6.13
Understanding of Saltation from Numerical
Simulations
.............................................194
6.13.1
Importance of Splash Entrainment
...................194
6.13.2
Particle-Momentum Flux. Saltation Flux
and Roughness Length
.............................197
6.14
Saltation in Turbulence
..................................199
6.14.1
Intermittency of Saltation
..........................201
6.14.2
Aeolian Streamers
.................................205
6.14.3
Dynamical Similarity of Saltation
...................206
Dust Emission
.............................................211
7.1
Dust Flux and Friction Velocity
...........................211
7.2
Mechanisms for Dust Emission
............................216
7.3
Aerodynamic Dust Entrainment
...........................222
7.4
Energy-Based Dust-Emission Scheme
......................222
7.5
Volume-Removal-Based Dust-Emission Scheme
..............226
7.5.1
Motion of Ploughing Particle and Volume
Removal
.........................................230
7.5.2
Vertical Dust Flux
.................................232
Contents
7.6
Comparison of Dust Schemes
.............................233
7.7
Spectral Dust-Emission Scheme
...........................235
7.8
Discussions on Dust Schemes
.............................245
Dust Transport and Deposition
............................247
8.1
Evidence of Dust Transport and Deposition
.................247
8.2
Lagrangian Dust-Transport Model
.........................252
8.3
Eulerian Dust-Transport Model
...........................255
8.4
Vertical Dust Transport by Diffusion
.......................261
8.5
Vertical Dust Transport by Convection
.....................273
8.5.1
Convective Adjustment
............................273
8.5.2
Cumulus Parameterisation
..........................275
8.6
Dry Deposition
..........................................277
8.6.1
Two-Layer Dry-Deposition Model: Smooth
Surface
...........................................278
8.6.2
Two-Layer Dry-Deposition Model:
Vegetation
........................................282
8.6.3
Single-Layer Dry-Deposition Model
..................286
8.7
Wet Deposition
.........................................288
8.7.1
The Theory of Slinn
...............................289
8.7.2
Scavenging Rate
..................................295
8.7.3
Scavenging Ratio
..................................299
Integrated Wind-Erosion Modelling
.......................303
9.1
System Structure
........................................304
9.2
Wind-Erosion Parameterisation Scheme
....................307
9.3
Threshold Friction Velocity for Natural Surfaces
.............308
9.3.1
Drag Partition: Approach I
.........................310
9.3.2
Drag Partition: Approach II
........................316
9.3.3
Relationship of A and z0
...........................317
9.3.4
Double Drag Partition
.............................321
9.3.5
Soil Moisture
.....................................323
9.3.6
Chemical Binding and Crust
........................327
9.4
Sand Drift and Dust Emission of Soils with Multiple
Particle Sizes
...........................................328
9.5
Climatic Constraints on Dust Emission
.....................333
9.5.1
Erodibility Derived from Synoptic Data
..............333
9.5.2
Erodibility Derived from Satellite Data
...............336
9.5.3
Wind-Erosion Hot Spots
...........................336
9.6
Land-Surface Parameters
.................................336
9.6.1
Soil Particle-Size Distribution
.......................337
9.6.2
Soil-Binding Strength
..............................342
9.6.3
Frontal-Area Index
................................344
9.6.4
Soil Moisture
.....................................347
9.7
Manipulation of
GIS
Data
................................347
Contents xv
9.8
Examples of Integrated Wind-Erosion Modelling
.............350
9.8.1
Wind-Erosion Time Series
..........................350
9.8.2
Wind-Erosion Predictions on Global, Regional
and Local Scales
..................................351
9.9
Data Assimilation
.......................................359
10
Sand Dunes, Dynamics and Modelling
.....................361
10.1
Classification of Sand Dunes
..............................363
10.2
Migration Speed of Transverse Dunes
......................370
10.3
Basic Features of Flow over a Sand Dune
...................373
10.4
Sand Transport
.........................................377
10.5
Computational Fluid Dynamic Simulation
..................381
10.5.1
Flow-Model Implementation: Non-hydrostatic Model.
. . 382
10.5.2
Flow-Model Implementation: Large-Eddy Model
.......384
10.5.3
Computation of Erosion and Deposition Rates
........385
10.6
Discrete Lattice Simulation
...............................388
11
Techniques for Wind-Erosion Measurements
...............391
11.1
Wind-Tunnel Measurements
..............................391
11.2
Sand Measurements
......................................393
11.2.1
Passive Samplers
..................................393
11.2.2
Active Samplers
...................................396
11.2.3
Impact Sensors: Sensit, Saltiphone and
Safire
.........397
11.2.4
Sand Particle Counter
.............................399
11.3
Dust Measurements
......................................400
11.3.1
High- and Low-Volume Air Samplers
.................400
11.3.2
Optical Particle Counter
...........................402
11.4
Deposition Collectors
....................................403
11.5
Field Measurements
.....................................404
11.6
Particle-Size Analysis
....................................407
11.6.1
Dry Sieving
.......................................407
11.6.2
Settling Tube and Elutriator
........................408
11.6.3
Electro-Sensing Methods
...........................410
11.6.4
Laser Granulometry
...............................412
11.7
Abrasion Emitter
........................................412
12
Concluding Remarks
......................................415
12.1
Current Research Topics
.................................415
12.2
Dust Cycle in the Earth System
...........................419
References
.....................................................421
Index
..........................................................447
|
| adam_txt |
Contents
Preface
1.
v
Preface
2.
vii
Acknowledgements
. ix
1
Wind Erosion and Wind-Erosion Research
. 1
1.1
Wind-Erosion Phenomenon
. 1
1.2
Wind-Erosion Research
. 7
1.3
Integrated Wind-Erosion Modelling
. 9
2
Wind-Erosion Climatology
. 13
2.1
Climatic Background for Wind Erosion
. 13
2.2
Geographic Background for Wind Erosion
. 18
2.3
Atmospheric Systems
. 20
2.3.1
Monsoon Winds
. 21
2.3.2
Cyclones and Frontal Systems
. 23
2.3.3
Squall Lines
. 24
2.4
Global Wind-Erosion Patterns
. 26
2.5
Major Wind-Erosion Regions
. 29
2.5.1
Dust Weather Records and Satellite Remote
Sensing
. 29
2.5.2
North Africa
. 30
2.5.3
The Middle East
. 34
2.5.4
Central Asia
. 36
2.5.5
Southwest Asia
. 37
2.5.6
Northeast Asia
. 39
2.5.7
The United States
. 44
2.5.8
Australia
. 45
Contents
Atmospheric Boundary Layer and Atmospheric
Modelling
. 49
3.1
Atmospheric Boundary Layer
. 49
3.2
Governing Equations for Atmospheric Boundary-Layer Flows
. 52
3.3
Reynolds Averaging and Turbulent Flux
. 56
3.4
Equations for Mean Flows
. 59
3.5
Equations for Turbulent Fluxes and Variances
. 60
3.5.1
Turbulent Dust Flux and Dust Concentration
Variance
. 60
3.5.2
Turbulent Kinetic Energy
. 61
3.5.3
Features of Different Atmospheric Boundary Layers
. 63
3.6
Surface Layer
. 67
3.6.1
Flux-Gradient Relationship
. 67
3.6.2
Friction Velocity
. 68
3.6.3
Logarithmic Wind Profile and Roughness Length
. 71
3.6.4
Stability Measures
. 72
3.7
Similarity Theories
. 74
3.7.1
Monin-Obukhov Similarity Theory
. 75
3.7.2
Mixed-Layer Similarity Theory
. 78
3.8
Turbulent Flow Models
. 79
3.9
Meso-scale, Regional and Global Atmospheric Models
. 85
Land-Surface Modelling
. 91
4.1
General Aspects
. 92
4.2
Surface Energy Balance
. 94
4.3
Soil Moisture
. 96
4.4
Soil Temperature
.101
4.5
Calculation of Surface Fluxes
.101
4.6
Land-Surface Parameters
.106
4.7
Examples of Land-Surface Simulation
.110
4.8
Treatment of Heterogeneous Surfaces
.112
Basic Aspects of Wind Erosion
.117
5.1
Soil-Particle Characteristics
.117
5.2
Forces on an Airborne Particle
.124
5.3
Particle Terminal Velocity
.129
5.4
Modes of Particle Motion
.131
5.5
Threshold Friction Velocity for Sand Particles
.134
5.5.1
The Bagnold Scheme
.135
5.5.2
The Greeley-Iversen Scheme
.138
5.5.3
The Shao-Lu Scheme and the McKenna
Neuman
Scheme
.139
5.6
Threshold Friction Velocity for Dust Particles
.142
5.6.1
Relative Importance of Forces
.142
5.6.2
Stochastic Nature of Threshold Friction Velocity
.145
Contents xiii
The Dynamics
and Modelling of Saltation
.149
6.1
Equations of Particle Motion
.150
6.2
Uniform Saltation
.152
6.3
Non-Uniform Saltation
.154
6.4
Streamwise Saltation Flux
.156
6.5
The Bagnold-Owen Saltation Equation
.157
6.5.1
The Bagnold Model
.157
6.5.2
The Owen Model
.158
6.6
Other Saltation Equations
.163
6.7
The Owen Effect
.165
6.7.1
The Formulation of Owen
.165
6.7.2
The Formulation of Raupach
.166
6.7.3
Other Formulations
.171
6.7.4
Profile of Saltation Flux
.171
6.8
Independent Saltation
.172
6.9
Supply-Limited Saltation
.175
6.10
Evolution of Streamwise Sand Transport with Distance
.176
6.11
Splash Entrainment
.178
6.11.1
Wind-Tunnel
Observations
.178
6.11.2
Numerical Simulations
.179
6.12
Numerical Modelling of Saltation
.186
6.12.1
Simple Flow Model
.186
6.12.2
Large-Eddy Simulation Model
.187
6.12.3
Particle Motion
.188
6.12.4
Aerodynamic Entrainment
.190
6.12.5
Splash Scheme
.191
6.13
Understanding of Saltation from Numerical
Simulations
.194
6.13.1
Importance of Splash Entrainment
.194
6.13.2
Particle-Momentum Flux. Saltation Flux
and Roughness Length
.197
6.14
Saltation in Turbulence
.199
6.14.1
Intermittency of Saltation
.201
6.14.2
Aeolian Streamers
.205
6.14.3
Dynamical Similarity of Saltation
.206
Dust Emission
.211
7.1
Dust Flux and Friction Velocity
.211
7.2
Mechanisms for Dust Emission
.216
7.3
Aerodynamic Dust Entrainment
.222
7.4
Energy-Based Dust-Emission Scheme
.222
7.5
Volume-Removal-Based Dust-Emission Scheme
.226
7.5.1
Motion of Ploughing Particle and Volume
Removal
.230
7.5.2
Vertical Dust Flux
.232
Contents
7.6
Comparison of Dust Schemes
.233
7.7
Spectral Dust-Emission Scheme
.235
7.8
Discussions on Dust Schemes
.245
Dust Transport and Deposition
.247
8.1
Evidence of Dust Transport and Deposition
.247
8.2
Lagrangian Dust-Transport Model
.252
8.3
Eulerian Dust-Transport Model
.255
8.4
Vertical Dust Transport by Diffusion
.261
8.5
Vertical Dust Transport by Convection
.273
8.5.1
Convective Adjustment
.273
8.5.2
Cumulus Parameterisation
.275
8.6
Dry Deposition
.277
8.6.1
Two-Layer Dry-Deposition Model: Smooth
Surface
.278
8.6.2
Two-Layer Dry-Deposition Model:
Vegetation
.282
8.6.3
Single-Layer Dry-Deposition Model
.286
8.7
Wet Deposition
.288
8.7.1
The Theory of Slinn
.289
8.7.2
Scavenging Rate
.295
8.7.3
Scavenging Ratio
.299
Integrated Wind-Erosion Modelling
.303
9.1
System Structure
.304
9.2
Wind-Erosion Parameterisation Scheme
.307
9.3
Threshold Friction Velocity for Natural Surfaces
.308
9.3.1
Drag Partition: Approach I
.310
9.3.2
Drag Partition: Approach II
.316
9.3.3
Relationship of A and z0
.317
9.3.4
Double Drag Partition
.321
9.3.5
Soil Moisture
.323
9.3.6
Chemical Binding and Crust
.327
9.4
Sand Drift and Dust Emission of Soils with Multiple
Particle Sizes
.328
9.5
Climatic Constraints on Dust Emission
.333
9.5.1
Erodibility Derived from Synoptic Data
.333
9.5.2
Erodibility Derived from Satellite Data
.336
9.5.3
Wind-Erosion Hot Spots
.336
9.6
Land-Surface Parameters
.336
9.6.1
Soil Particle-Size Distribution
.337
9.6.2
Soil-Binding Strength
.342
9.6.3
Frontal-Area Index
.344
9.6.4
Soil Moisture
.347
9.7
Manipulation of
GIS
Data
.347
Contents xv
9.8
Examples of Integrated Wind-Erosion Modelling
.350
9.8.1
Wind-Erosion Time Series
.350
9.8.2
Wind-Erosion Predictions on Global, Regional
and Local Scales
.351
9.9
Data Assimilation
.359
10
Sand Dunes, Dynamics and Modelling
.361
10.1
Classification of Sand Dunes
.363
10.2
Migration Speed of Transverse Dunes
.370
10.3
Basic Features of Flow over a Sand Dune
.373
10.4
Sand Transport
.377
10.5
Computational Fluid Dynamic Simulation
.381
10.5.1
Flow-Model Implementation: Non-hydrostatic Model.
. . 382
10.5.2
Flow-Model Implementation: Large-Eddy Model
.384
10.5.3
Computation of Erosion and Deposition Rates
.385
10.6
Discrete Lattice Simulation
.388
11
Techniques for Wind-Erosion Measurements
.391
11.1
Wind-Tunnel Measurements
.391
11.2
Sand Measurements
.393
11.2.1
Passive Samplers
.393
11.2.2
Active Samplers
.396
11.2.3
Impact Sensors: Sensit, Saltiphone and
Safire
.397
11.2.4
Sand Particle Counter
.399
11.3
Dust Measurements
.400
11.3.1
High- and Low-Volume Air Samplers
.400
11.3.2
Optical Particle Counter
.402
11.4
Deposition Collectors
.403
11.5
Field Measurements
.404
11.6
Particle-Size Analysis
.407
11.6.1
Dry Sieving
.407
11.6.2
Settling Tube and Elutriator
.408
11.6.3
Electro-Sensing Methods
.410
11.6.4
Laser Granulometry
.412
11.7
Abrasion Emitter
.412
12
Concluding Remarks
.415
12.1
Current Research Topics
.415
12.2
Dust Cycle in the Earth System
.419
References
.421
Index
.447 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Shao, Yaping |
| author_GND | (DE-588)124299260X |
| author_facet | Shao, Yaping |
| author_role | aut |
| author_sort | Shao, Yaping |
| author_variant | y s ys |
| building | Verbundindex |
| bvnumber | BV023424296 |
| callnumber-first | Q - Science |
| callnumber-label | QE597 |
| callnumber-raw | QE597 |
| callnumber-search | QE597 |
| callnumber-sort | QE 3597 |
| callnumber-subject | QE - Geology |
| classification_rvk | RB 10271 |
| contents | Wind Erosion and Wind-Erosion Research.- Wind-Erosion Climatology.- Atmospheric Boundary Layer and Atmospheric Modelling.- Land-Surface Modelling.- Basic Aspects of Wind Erosion.- The Dynamics and Modelling of Saltation.- Dust Emission.- Dust Transport and Deposition.- Integrated Wind-Erosion Modelling.- Sand Dunes, Dynamics and Modelling.- Techniques for Wind-Erosion Measurements.- Concluding Remarks. |
| ctrlnum | (OCoLC)233934655 (DE-599)DNB989263444 |
| dewey-full | 551.372 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 551 - Geology, hydrology, meteorology |
| dewey-raw | 551.372 |
| dewey-search | 551.372 |
| dewey-sort | 3551.372 |
| dewey-tens | 550 - Earth sciences |
| discipline | Geologie / Paläontologie Physik Geographie |
| discipline_str_mv | Geologie / Paläontologie Physik Geographie |
| edition | 2nd revised and expansed edition |
| format | Book |
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| id | DE-604.BV023424296 |
| illustrated | Illustrated |
| index_date | 2024-07-02T21:32:09Z |
| indexdate | 2024-07-09T21:18:20Z |
| institution | BVB |
| isbn | 9781402088940 9789048180202 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016606681 |
| oclc_num | 233934655 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-12 DE-188 |
| owner_facet | DE-355 DE-BY-UBR DE-12 DE-188 |
| physical | XV, 452 Seiten Illustrationen, Diagramme, Karten |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Springer |
| record_format | marc |
| series | Atmospheric and oceanographic sciences library |
| series2 | Atmospheric and oceanographic sciences library |
| spelling | Shao, Yaping Verfasser (DE-588)124299260X aut Physics and modelling of wind erosion Yaping Shao 2nd revised and expansed edition Berlin Springer 2008 XV, 452 Seiten Illustrationen, Diagramme, Karten txt rdacontent n rdamedia nc rdacarrier Atmospheric and oceanographic sciences library 37 peplosphere Wind Erosion and Wind-Erosion Research.- Wind-Erosion Climatology.- Atmospheric Boundary Layer and Atmospheric Modelling.- Land-Surface Modelling.- Basic Aspects of Wind Erosion.- The Dynamics and Modelling of Saltation.- Dust Emission.- Dust Transport and Deposition.- Integrated Wind-Erosion Modelling.- Sand Dunes, Dynamics and Modelling.- Techniques for Wind-Erosion Measurements.- Concluding Remarks. This book provides a comprehensive summary of the recent developments in wind-erosion research and a clear outline of its future directions. The physics of wind erosion, from particle entrainment to transport and deposition, is described with rigor from the viewpoints of fluid dynamics and soil physics. The techniques tor quantitative wind-erosion prediction through computational modelling constitutes a unique feature of this book in contrast to others published in the same field. The author has advocated the development of integrated wind-erosion modelling systems which couple dynamic models for the atmosphere and land surface with spatially distributed data for land-surface conditions. The successful applications of such a system have demonstrated its usefulness in wind-erosion assessment and prediction on regional to continental scales. Wind erosion Modell (DE-588)4039798-1 gnd rswk-swf Wind (DE-588)4066257-3 gnd rswk-swf Äolisches Sediment (DE-588)4384468-6 gnd rswk-swf Physik (DE-588)4045956-1 gnd rswk-swf Deflation Geologie (DE-588)4148990-1 gnd rswk-swf Erosion (DE-588)4015366-6 gnd rswk-swf Wind (DE-588)4066257-3 s Erosion (DE-588)4015366-6 s Äolisches Sediment (DE-588)4384468-6 s DE-604 Deflation Geologie (DE-588)4148990-1 s Physik (DE-588)4045956-1 s Modell (DE-588)4039798-1 s Atmospheric and oceanographic sciences library 37 (DE-604)BV010783916 37 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016606681&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Shao, Yaping Physics and modelling of wind erosion Atmospheric and oceanographic sciences library Wind Erosion and Wind-Erosion Research.- Wind-Erosion Climatology.- Atmospheric Boundary Layer and Atmospheric Modelling.- Land-Surface Modelling.- Basic Aspects of Wind Erosion.- The Dynamics and Modelling of Saltation.- Dust Emission.- Dust Transport and Deposition.- Integrated Wind-Erosion Modelling.- Sand Dunes, Dynamics and Modelling.- Techniques for Wind-Erosion Measurements.- Concluding Remarks. Wind erosion Modell (DE-588)4039798-1 gnd Wind (DE-588)4066257-3 gnd Äolisches Sediment (DE-588)4384468-6 gnd Physik (DE-588)4045956-1 gnd Deflation Geologie (DE-588)4148990-1 gnd Erosion (DE-588)4015366-6 gnd |
| subject_GND | (DE-588)4039798-1 (DE-588)4066257-3 (DE-588)4384468-6 (DE-588)4045956-1 (DE-588)4148990-1 (DE-588)4015366-6 |
| title | Physics and modelling of wind erosion |
| title_auth | Physics and modelling of wind erosion |
| title_exact_search | Physics and modelling of wind erosion |
| title_exact_search_txtP | Physics and modelling of wind erosion |
| title_full | Physics and modelling of wind erosion Yaping Shao |
| title_fullStr | Physics and modelling of wind erosion Yaping Shao |
| title_full_unstemmed | Physics and modelling of wind erosion Yaping Shao |
| title_short | Physics and modelling of wind erosion |
| title_sort | physics and modelling of wind erosion |
| topic | Wind erosion Modell (DE-588)4039798-1 gnd Wind (DE-588)4066257-3 gnd Äolisches Sediment (DE-588)4384468-6 gnd Physik (DE-588)4045956-1 gnd Deflation Geologie (DE-588)4148990-1 gnd Erosion (DE-588)4015366-6 gnd |
| topic_facet | Wind erosion Modell Wind Äolisches Sediment Physik Deflation Geologie Erosion |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016606681&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV010783916 |
| work_keys_str_mv | AT shaoyaping physicsandmodellingofwinderosion |