Hydrogeology: groundwater science and engineering
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton
CRC Press
[2020]
|
| Ausgabe: | First issued in paperback |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xviii, 471 Seiten Diagramme |
| ISBN: | 9780367657147 9781498744003 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804181844843823104 |
|---|---|
| adam_text | Contents
Foreword XV
Preface xvii
Author xix
1 General introduction 1
1 1 Freshwater resources and groundwater resources 1
1 2 Anthropocentric vision 2
1 3 Hydrogeology within hydrology 3
1 4 Basics about groundwater: partially and fully saturated zones 3
1 5 Prospecting groundwater 4
1 6 Content of this book 4
References 6
2 Hydrologic balance and groundwater 9
2 1 Water cycle and balance assessments 9
2 2 Precipitation 13
Time averaged values 14
Spatial averaged values 14
2 3 Evapotranspiration 15
Evaporation 16
Transpiration 16
ET measurements 16
ET estimation equations 19
2 4 Recharge 27
Introduction 27
Water table -fluctuation method 29
Chloride mass balance method 30
2 5 Base flow 32
References 37
3 Groundwater terminology and examples of occurrences 45
3 1 Terminology 45
viii Contents
3 2 Examples of occurrences SO
Aquifers separated by confining units: lateral and vertical leakages 50
Partitioned aquifers resulting from recent horst/graben tectonics SI
Aquifers in successive thrust faults and sheets 51
Fractured bedrock and colluvium of variable lithology SI
Perched aquifer and heterogeneous bedrock aquifer 52
Variable interactions between aquifers induced by human activities S3
A semiconfined to unconfined drained chalk aquifer 54
Karstic groundwater system 54
Groundwater flow direction in a limestone aquifer
and the influence of the base water level 55
Importance of a clear and justified geological interpretation 56
References 58
4 Saturated groundwater flow 59
4 1 Representative elementary volume (REV) concept 59
4 2 Porosities 61
Total porosity 61
Effective porosity 64
Water content 69
4 3 Piezometric heads 69
Introduction 69
Simplified Bernoulli equation and piezometric head 70
Practical measurements of the piezometric head 72
4 4 Darcy’s law and hydraulic conductivity 73
Experimental Darcy’s law 73
Specific discharge and velocities 74
Hydraulic conductivity and intrinsic permeability 75
3D Darcy’s law 77
4 5 Heterogeneity: Upscaled, equivalent, and averaged
hydraulic conductivity values 80
Equivalent averaged hydraulic conductivity values
for flow parallel or perpendicular to stratified layers 80
Geostatistically derived equivalent averaged
hydraulic conductivity values 82
4 6 Application of Darcy’s law in heterogeneous and fractured media 82
Local and regional groundwater flow 82
Hydraulic conductivity and groundwater flow in fractured rocks 87
4 7 Limitations of the validity of Darcy’s law 89
4 8 Transmissivity concept 92
4 9 Equations of the steady-state groundwater flow (saturated conditions) 93
4 10 Storage variation under saturated conditions 95
Specific storage coefficient or specific storativity definition 95
Contents ix
Effective stress and Terzaghi concept 96
Specific storage coefficient and development
of the mass balance equation 97
4 11 Equations of the transient groundwater flow 100
3D groundwater flow equations 100
2D vertical groundwater flow equations 101
Storage coefficient 101
2D horizontal groundwater flow equations in confined conditions 102
2D horizontal groundwater flow equations in unconfined conditions 103
References 104
5 Hydraulic conductivity measurements 107
5 1 Introduction 107
5 2 Laboratory tests 107
Empirical relations based on grain size distribution 108
Constant head permeameter 109
Falling head permeameter 110
Oedometer and isotropic tests 110
5 3 Slug tests 111
Interpretation 112
5 4 Pumping tests 114
Design, procedures, and measurements 115
Interpretation of steady-state data 117
Interpretation of transient data 125
5 5 Other measurements methods 144
Lugeon test or packer test 144
Lefranc method 145
Jacob and Lohman solution for an artesian flowing well test 146
Inverse auger hole, infiltrometer, or Porchet method 147
Field-based air permeameter measurements 148
References 149
6 Land subsidence induced by pumping and drainage 155
6 1 Introduction 155
6 2 Effective stress and water pressure variations in depth 155
6 3 Coupling groundwater flow and geomechanical
aspects in porous media 158
Variation of the specific storage coefficient 159
Variation of the permeability 160
6 4 Examples of sinking cities and famous case studies 162
Venice 162
The Netherlands 163
Bangkok 164
x Contents
Mexico City 165
Shanghai 166
6 5 New developments in measurements and remediation 167
References 170
7 Introduction to groundwater quality and hydrochemistry 173
7 1 Introduction and units 173
Phases and constituents 174
Concentration units 174
7 2 Natural solutes and main physicochemical
characteristics of groundwater 178
Major and minor constituents 178
TDS, electrical conductivity, and DOC 179
Electroneutrality or electrical charge balance 181
pH and aqueous reactions 181
Carbonate system, pHs, Langelier saturation index, and hardness 182
Alkalinity 184
Redox potential (Eh) 185
Dissociation, dissolution, and precipitation, rock weathering 186
Cation exchange capacity, sodium adsorption ratio 188
7 3 Graphs, diagrams, and multivariate analysis of
chemical groundwater compositions 188
Conventional bar and pie charts 189
Semi-log Schoeller diagram 190
Stiff diagrams 190
Piper diagrams 192
Principal component analysis and self-organizing maps 194
7 4 Groundwater quality standards 194
General background and context 194
Drinking water quality standards 195
7 5 Groundwater sampling and monitoring strategies 196
Depth-averaged versus multilevel sampling 197
Sampling procedure and representativity of the sampled groundwater 198
References 199
8 Contaminant transport, residence times, prevention, and remediation 203
a l Introduction 203
8 2 Solute transport 204
Diffusion 204
Advection 205
Dispersion 207
Adsorption-desorption 219
Decay/degradation 222
Contents xi
Solute mass conservation equation in groundwater 224
Immobile water effect/matrix diffusion 227
Reactive solute transport 231
8 3 NAPL contaminant transport 235
NAPL solubility in groundwater 235
NAPL affinity for solids and groundwater 237
Vapor mobility of NAPL organic contaminants 237
NAPL mobility in unsaturated and saturated zones 238
8 4 In situ remediation of contaminated groundwater 242
Source cleanup and containment-stabilization 244
Pump and treat systems 245
Soil vapor extraction and air sparging 246
Bioremediation 246
Reactive barriers and zones 247
Phytoremediation 247
8 5 Tracer tests 247
Tracer tests configurations 249
Tracers, injection, and sampling operations 253
8 6 Transport and residence times 255
Piston-flow groundwater age: an idealized concept 255
Groundwater age: A misleading term 256
The statistical approach for calculating ages:
Mean age and residence time 256
8 7 Isotopes and environmental tracer interpretations 260
Stable isotopes 260
Radioactive isotopes 268
8 8 Vulnerability and protection of groundwater 271
Protection zones 272
Vulnerability and sensitivity mapping 273
References 279
9 Groundwater flow and transport under partially saturated conditions 291
9 1 Introduction 291
9 2 Capillary pressures 291
9 3 Partially saturated flow 294
Hydraulic conductivity under partially saturated conditions 294
Darcy-Buckingham law under partially saturated conditions 297
Generalized storage coefficient under partially saturated
conditions or moisture capacity 297
Richards equation for flow under partially saturated conditions 298
9 4 Contamination and transport under partially saturated conditions 299
NAPL contamination and multiphase flow 300
References 303
xii Contents
10 Salinization and density dependent groundwater flow and transport 305
10 1 Salinization processes 305
Evaporite dissolution 305
Evapotranspiration 306
Contamination by seawater 309
Field measurements and sampling 311
10 2 Saltwater-freshwater interface concept 314
10 3 Coupled density dependent groundwater
flow and solute transport equations 315
Density dependent flow equations 315
Density dependent solute transport equation 317
Constitutive or state equations 318
Boussinesq approximation and usual assumptions
for seawater intrusions 318
References 319
11 Heat transfer in aquifers and shallow geothermy 323
11 1 Introduction 323
11 2 Heat transfer processes, equations, and properties 324
Heat conduction 324
Heat advection and convection 326
Thermal dispersion 327
Heat conservation equation 329
Dimensionless numbers for assessing the most important processes 329
11 3 Hydrogeological methodology for shallow geothermal projects 331
Introduction to shallow thermal energy storage systems 331
Closed-loop shallow geothermal systems 336
Open-loop shallow geothermal systems 337
Geothermal systems in old flooded mines 338
References 340
12 Methodology for groundwater flow and solute transport modeling 345
12 1 Introduction and definitions 345
Definitions and terminology 345
Purposes and methodology overview 349
12 2 Conceptual model 349
Processes to be simulated 349
Parsimony or complexity 352
Steady-state versus transient simulations 353
Dimensionality of the model 354
Conceptual choices for fractured and karst media 358
Interactions with surface waters and integrated models 360
Other choices and assumptions 361
Contents xiii
12 3 Initial and boundary conditions 362
Initial conditions 362
Boundary conditions 362
12 4 Model design and data input 372
Geometry and geology 373
Hydrogeological parameters 373
Stress factors 374
Historical data 374
12 5 Calibration, validation, sensitivity analysis, and inverse modeling 374
Optimization 375
Sensitivity analysis 379
Inverse modeling 382
Uncertainty of predictions 386
12 6 Introduction to groundwater geostatistics and probability 387
Continuous random geostatistical variables 387
Probability and Bayesian approach 390
Monte Carlo simulations 391
Geostatistics for modeling heterogeneity 391
12 7 Prediction focused approaches based on Bayesian evidential learning 395
References 396
13 Main principles of numerical techniques used in groundwater
modeling 407
13 1 Introduction and terminology 407
13 2 Numerical techniques for groundwater flow modeling 408
Finite difference method (PDM) 408
Finite element method (FEM) 422
Finite volume method (FVM) 436
13 3 Numerical techniques for solute transport modeling 437
Numerical Peclet and Courant numbers 438
Time integration schemes 439
Eulerian or grid-based methods 440
Eulerian-Lagrangian methods 446
Random walk methods 450
Reactive transport modeling 452
References 453
Index
|
| adam_txt |
Contents
Foreword XV
Preface xvii
Author xix
1 General introduction 1
1 1 Freshwater resources and groundwater resources 1
1 2 Anthropocentric vision 2
1 3 Hydrogeology within hydrology 3
1 4 Basics about groundwater: partially and fully saturated zones 3
1 5 Prospecting groundwater 4
1 6 Content of this book 4
References 6
2 Hydrologic balance and groundwater 9
2 1 Water cycle and balance assessments 9
2 2 Precipitation 13
Time averaged values 14
Spatial averaged values 14
2 3 Evapotranspiration 15
Evaporation 16
Transpiration 16
ET measurements 16
ET estimation equations 19
2 4 Recharge 27
Introduction 27
Water table -fluctuation method 29
Chloride mass balance method 30
2 5 Base flow 32
References 37
3 Groundwater terminology and examples of occurrences 45
3 1 Terminology 45
viii Contents
3 2 Examples of occurrences SO
Aquifers separated by confining units: lateral and vertical leakages 50
Partitioned aquifers resulting from recent horst/graben tectonics SI
Aquifers in successive thrust faults and sheets 51
Fractured bedrock and colluvium of variable lithology SI
Perched aquifer and heterogeneous bedrock aquifer 52
Variable interactions between aquifers induced by human activities S3
A semiconfined to unconfined drained chalk aquifer 54
Karstic groundwater system 54
Groundwater flow direction in a limestone aquifer
and the influence of the base water level 55
Importance of a clear and justified geological interpretation 56
References 58
4 Saturated groundwater flow 59
4 1 Representative elementary volume (REV) concept 59
4 2 Porosities 61
Total porosity 61
Effective porosity 64
Water content 69
4 3 Piezometric heads 69
Introduction 69
Simplified Bernoulli equation and piezometric head 70
Practical measurements of the piezometric head 72
4 4 Darcy’s law and hydraulic conductivity 73
Experimental Darcy’s law 73
Specific discharge and velocities 74
Hydraulic conductivity and intrinsic permeability 75
3D Darcy’s law 77
4 5 Heterogeneity: Upscaled, equivalent, and averaged
hydraulic conductivity values 80
Equivalent averaged hydraulic conductivity values
for flow parallel or perpendicular to stratified layers 80
Geostatistically derived equivalent averaged
hydraulic conductivity values 82
4 6 Application of Darcy’s law in heterogeneous and fractured media 82
Local and regional groundwater flow 82
Hydraulic conductivity and groundwater flow in fractured rocks 87
4 7 Limitations of the validity of Darcy’s law 89
4 8 Transmissivity concept 92
4 9 Equations of the steady-state groundwater flow (saturated conditions) 93
4 10 Storage variation under saturated conditions 95
Specific storage coefficient or specific storativity definition 95
Contents ix
Effective stress and Terzaghi concept 96
Specific storage coefficient and development
of the mass balance equation 97
4 11 Equations of the transient groundwater flow 100
3D groundwater flow equations 100
2D vertical groundwater flow equations 101
Storage coefficient 101
2D horizontal groundwater flow equations in confined conditions 102
2D horizontal groundwater flow equations in unconfined conditions 103
References 104
5 Hydraulic conductivity measurements 107
5 1 Introduction 107
5 2 Laboratory tests 107
Empirical relations based on grain size distribution 108
Constant head permeameter 109
Falling head permeameter 110
Oedometer and isotropic tests 110
5 3 Slug tests 111
Interpretation 112
5 4 Pumping tests 114
Design, procedures, and measurements 115
Interpretation of steady-state data 117
Interpretation of transient data 125
5 5 Other measurements methods 144
Lugeon test or packer test 144
Lefranc method 145
Jacob and Lohman solution for an artesian flowing well test 146
Inverse auger hole, infiltrometer, or Porchet method 147
Field-based air permeameter measurements 148
References 149
6 Land subsidence induced by pumping and drainage 155
6 1 Introduction 155
6 2 Effective stress and water pressure variations in depth 155
6 3 Coupling groundwater flow and geomechanical
aspects in porous media 158
Variation of the specific storage coefficient 159
Variation of the permeability 160
6 4 Examples of sinking cities and famous case studies 162
Venice 162
The Netherlands 163
Bangkok 164
x Contents
Mexico City 165
Shanghai 166
6 5 New developments in measurements and remediation 167
References 170
7 Introduction to groundwater quality and hydrochemistry 173
7 1 Introduction and units 173
Phases and constituents 174
Concentration units 174
7 2 Natural solutes and main physicochemical
characteristics of groundwater 178
Major and minor constituents 178
TDS, electrical conductivity, and DOC 179
Electroneutrality or electrical charge balance 181
pH and aqueous reactions 181
Carbonate system, pHs, Langelier saturation index, and hardness 182
Alkalinity 184
Redox potential (Eh) 185
Dissociation, dissolution, and precipitation, rock weathering 186
Cation exchange capacity, sodium adsorption ratio 188
7 3 Graphs, diagrams, and multivariate analysis of
chemical groundwater compositions 188
Conventional bar and pie charts 189
Semi-log Schoeller diagram 190
Stiff diagrams 190
Piper diagrams 192
Principal component analysis and self-organizing maps 194
7 4 Groundwater quality standards 194
General background and context 194
Drinking water quality standards 195
7 5 Groundwater sampling and monitoring strategies 196
Depth-averaged versus multilevel sampling 197
Sampling procedure and representativity of the sampled groundwater 198
References 199
8 Contaminant transport, residence times, prevention, and remediation 203
a l Introduction 203
8 2 Solute transport 204
Diffusion 204
Advection 205
Dispersion 207
Adsorption-desorption 219
Decay/degradation 222
Contents xi
Solute mass conservation equation in groundwater 224
Immobile water effect/matrix diffusion 227
Reactive solute transport 231
8 3 NAPL contaminant transport 235
NAPL solubility in groundwater 235
NAPL affinity for solids and groundwater 237
Vapor mobility of NAPL organic contaminants 237
NAPL mobility in unsaturated and saturated zones 238
8 4 In situ remediation of contaminated groundwater 242
Source cleanup and containment-stabilization 244
Pump and treat systems 245
Soil vapor extraction and air sparging 246
Bioremediation 246
Reactive barriers and zones 247
Phytoremediation 247
8 5 Tracer tests 247
Tracer tests configurations 249
Tracers, injection, and sampling operations 253
8 6 Transport and residence times 255
Piston-flow groundwater age: an idealized concept 255
Groundwater age: A misleading term 256
The statistical approach for calculating ages:
Mean age and residence time 256
8 7 Isotopes and environmental tracer interpretations 260
Stable isotopes 260
Radioactive isotopes 268
8 8 Vulnerability and protection of groundwater 271
Protection zones 272
Vulnerability and sensitivity mapping 273
References 279
9 Groundwater flow and transport under partially saturated conditions 291
9 1 Introduction 291
9 2 Capillary pressures 291
9 3 Partially saturated flow 294
Hydraulic conductivity under partially saturated conditions 294
Darcy-Buckingham law under partially saturated conditions 297
Generalized storage coefficient under partially saturated
conditions or moisture capacity 297
Richards equation for flow under partially saturated conditions 298
9 4 Contamination and transport under partially saturated conditions 299
NAPL contamination and multiphase flow 300
References 303
xii Contents
10 Salinization and density dependent groundwater flow and transport 305
10 1 Salinization processes 305
Evaporite dissolution 305
Evapotranspiration 306
Contamination by seawater 309
Field measurements and sampling 311
10 2 Saltwater-freshwater interface concept 314
10 3 Coupled density dependent groundwater
flow and solute transport equations 315
Density dependent flow equations 315
Density dependent solute transport equation 317
Constitutive or state equations 318
Boussinesq approximation and usual assumptions
for seawater intrusions 318
References 319
11 Heat transfer in aquifers and shallow geothermy 323
11 1 Introduction 323
11 2 Heat transfer processes, equations, and properties 324
Heat conduction 324
Heat advection and convection 326
Thermal dispersion 327
Heat conservation equation 329
Dimensionless numbers for assessing the most important processes 329
11 3 Hydrogeological methodology for shallow geothermal projects 331
Introduction to shallow thermal energy storage systems 331
Closed-loop shallow geothermal systems 336
Open-loop shallow geothermal systems 337
Geothermal systems in old flooded mines 338
References 340
12 Methodology for groundwater flow and solute transport modeling 345
12 1 Introduction and definitions 345
Definitions and terminology 345
Purposes and methodology overview 349
12 2 Conceptual model 349
Processes to be simulated 349
Parsimony or complexity 352
Steady-state versus transient simulations 353
Dimensionality of the model 354
Conceptual choices for fractured and karst media 358
Interactions with surface waters and integrated models 360
Other choices and assumptions 361
Contents xiii
12 3 Initial and boundary conditions 362
Initial conditions 362
Boundary conditions 362
12 4 Model design and data input 372
Geometry and geology 373
Hydrogeological parameters 373
Stress factors 374
Historical data 374
12 5 Calibration, validation, sensitivity analysis, and inverse modeling 374
Optimization 375
Sensitivity analysis 379
Inverse modeling 382
Uncertainty of predictions 386
12 6 Introduction to groundwater geostatistics and probability 387
Continuous random geostatistical variables 387
Probability and Bayesian approach 390
Monte Carlo simulations 391
Geostatistics for modeling heterogeneity 391
12 7 Prediction focused approaches based on Bayesian evidential learning 395
References 396
13 Main principles of numerical techniques used in groundwater
modeling 407
13 1 Introduction and terminology 407
13 2 Numerical techniques for groundwater flow modeling 408
Finite difference method (PDM) 408
Finite element method (FEM) 422
Finite volume method (FVM) 436
13 3 Numerical techniques for solute transport modeling 437
Numerical Peclet and Courant numbers 438
Time integration schemes 439
Eulerian or grid-based methods 440
Eulerian-Lagrangian methods 446
Random walk methods 450
Reactive transport modeling 452
References 453
Index |
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| author | Dassargues, Alain |
| author_GND | (DE-588)1170610544 |
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| building | Verbundindex |
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| ctrlnum | (OCoLC)1220912184 (DE-599)BVBBV046941886 |
| dewey-full | 551.49 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 551 - Geology, hydrology, meteorology |
| dewey-raw | 551.49 |
| dewey-search | 551.49 |
| dewey-sort | 3551.49 |
| dewey-tens | 550 - Earth sciences |
| discipline | Geologie / Paläontologie |
| discipline_str_mv | Geologie / Paläontologie |
| edition | First issued in paperback |
| format | Book |
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| id | DE-604.BV046941886 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T15:38:23Z |
| indexdate | 2024-07-10T08:58:07Z |
| institution | BVB |
| isbn | 9780367657147 9781498744003 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032350586 |
| oclc_num | 1220912184 |
| open_access_boolean | |
| owner | DE-29 DE-83 DE-20 |
| owner_facet | DE-29 DE-83 DE-20 |
| physical | xviii, 471 Seiten Diagramme |
| publishDate | 2020 |
| publishDateSearch | 2020 |
| publishDateSort | 2020 |
| publisher | CRC Press |
| record_format | marc |
| spelling | Dassargues, Alain Verfasser (DE-588)1170610544 aut Hydrogeology groundwater science and engineering Alain Dassargues First issued in paperback Boca Raton CRC Press [2020] xviii, 471 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Hydrogeology Groundwater flow Grundwasserstrom (DE-588)4121396-8 gnd rswk-swf Hydrogeologie (DE-588)4026307-1 gnd rswk-swf Grundwasser (DE-588)4022369-3 gnd rswk-swf Geologie (DE-588)4020227-6 gnd rswk-swf Hydrogeologie (DE-588)4026307-1 s Grundwasserstrom (DE-588)4121396-8 s Geologie (DE-588)4020227-6 s Grundwasser (DE-588)4022369-3 s DE-604 Erscheint auch als Online-Ausgabe 978-0-429-89441-1 HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032350586&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Dassargues, Alain Hydrogeology groundwater science and engineering Hydrogeology Groundwater flow Grundwasserstrom (DE-588)4121396-8 gnd Hydrogeologie (DE-588)4026307-1 gnd Grundwasser (DE-588)4022369-3 gnd Geologie (DE-588)4020227-6 gnd |
| subject_GND | (DE-588)4121396-8 (DE-588)4026307-1 (DE-588)4022369-3 (DE-588)4020227-6 |
| title | Hydrogeology groundwater science and engineering |
| title_auth | Hydrogeology groundwater science and engineering |
| title_exact_search | Hydrogeology groundwater science and engineering |
| title_exact_search_txtP | Hydrogeology groundwater science and engineering |
| title_full | Hydrogeology groundwater science and engineering Alain Dassargues |
| title_fullStr | Hydrogeology groundwater science and engineering Alain Dassargues |
| title_full_unstemmed | Hydrogeology groundwater science and engineering Alain Dassargues |
| title_short | Hydrogeology |
| title_sort | hydrogeology groundwater science and engineering |
| title_sub | groundwater science and engineering |
| topic | Hydrogeology Groundwater flow Grundwasserstrom (DE-588)4121396-8 gnd Hydrogeologie (DE-588)4026307-1 gnd Grundwasser (DE-588)4022369-3 gnd Geologie (DE-588)4020227-6 gnd |
| topic_facet | Hydrogeology Groundwater flow Grundwasserstrom Hydrogeologie Grundwasser Geologie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032350586&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT dassarguesalain hydrogeologygroundwaterscienceandengineering |