Geochemical modeling of groundwater, vadose, and geothermal systems:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Boca Raton [u.a.]
CRC Press, Taylor & Francis Group
2012
|
| Schriftenreihe: | Multiphysics modeling
5 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and indexes Section 1. Introduction to groundwater geochemistry and fundamentals of hydrogeochemical modeling -- Hydrogeochemistry principles for geochemical modeling / J. Bundschuh & O. Sracek -- Thermodynamics of gas and mineral solubility in the unsaturated zone water / L. Mercury & M. Zilberbrand -- Governing equations and solution algorithms for geochemical modeling / C. Ayora, M.W. Saaltink & J. Carrera -- Fluid flow, solute and heat transport equations / M.W. Saaltink, A. Yakirevich, J. Carrera & C. Ayora -- Numerical solutions of reactive transport equations / M.W. Saaltink, J. Carrera & C. Ayora -- Elaboration of a geochemical model / M. Zilberbrand -- Advances in geochemical modeling for geothermal applications / P. Birkle -- section 2. Case studies -- Integrating field observations and inverse and forward modeling : application at a site with acidic, heavy-metal-contaminated groundwater / P. Glynn & J. Brown -- Models and measurements of porosity and permeability evolution in a sandstone formation / S. Emmanuel, J.J. Ague & O. Walderhaug -- Geochemical modeling of water chemistry evolution in the Guarani Aquifer System in São Paulo, Brazil / O. Sracek & R. Hirata -- Modeling of reactive transport at a site contaminated by petroleum hydrocarbons at Hnevice, Czech Republic / O. Sracek & Z. Vencelides -- Numerical modeling for preliminary assessment of natural remediation of phosphorus in variably saturated soil in a peri-urban settlement in Kampala, Uganda / R.N. Kulabako, R. Thunvik, M. Nalubega & A.L. Soutter |
| Beschreibung: | XXVII, 305 S. Ill., graph. Darst., Kt. |
| ISBN: | 9780415668101 |
Internformat
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| 245 | 1 | 0 | |a Geochemical modeling of groundwater, vadose, and geothermal systems |c eds. Jochen Bundschuh ... |
| 264 | 1 | |a Boca Raton [u.a.] |b CRC Press, Taylor & Francis Group |c 2012 | |
| 300 | |a XXVII, 305 S. |b Ill., graph. Darst., Kt. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Multiphysics modeling |v 5 | |
| 500 | |a Includes bibliographical references and indexes | ||
| 500 | |a Section 1. Introduction to groundwater geochemistry and fundamentals of hydrogeochemical modeling -- Hydrogeochemistry principles for geochemical modeling / J. Bundschuh & O. Sracek -- Thermodynamics of gas and mineral solubility in the unsaturated zone water / L. Mercury & M. Zilberbrand -- Governing equations and solution algorithms for geochemical modeling / C. Ayora, M.W. Saaltink & J. Carrera -- Fluid flow, solute and heat transport equations / M.W. Saaltink, A. Yakirevich, J. Carrera & C. Ayora -- Numerical solutions of reactive transport equations / M.W. Saaltink, J. Carrera & C. Ayora -- Elaboration of a geochemical model / M. Zilberbrand -- Advances in geochemical modeling for geothermal applications / P. Birkle -- section 2. Case studies -- Integrating field observations and inverse and forward modeling : application at a site with acidic, heavy-metal-contaminated groundwater / P. Glynn & J. Brown -- Models and measurements of porosity and permeability evolution in a sandstone formation / S. Emmanuel, J.J. Ague & O. Walderhaug -- Geochemical modeling of water chemistry evolution in the Guarani Aquifer System in São Paulo, Brazil / O. Sracek & R. Hirata -- Modeling of reactive transport at a site contaminated by petroleum hydrocarbons at Hnevice, Czech Republic / O. Sracek & Z. Vencelides -- Numerical modeling for preliminary assessment of natural remediation of phosphorus in variably saturated soil in a peri-urban settlement in Kampala, Uganda / R.N. Kulabako, R. Thunvik, M. Nalubega & A.L. Soutter | ||
| 650 | 4 | |a Groundwater / Simulation methods | |
| 650 | 4 | |a Zone of aeration / Simulation methods | |
| 650 | 4 | |a Geothermal resources / Simulation methods | |
| 650 | 4 | |a Geochemical modeling | |
| 650 | 4 | |a Hydrologic models | |
| 650 | 4 | |a Water chemistry | |
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Datensatz im Suchindex
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| adam_text | IMAGE 1
TABLE OF CONTENTS
ABOUT THE BOOK SERIES X . ^ J E I B E ^/ VII
EDITORIAL BOARD OF THE BOOK SERIES IX
CONTRIBUTORS XVII
FOREWORD XIX
EDITORS PREFACE XXI
ABOUT THE EDITORS XXV
ACKNOWLEDGEMENTS XXVII
SECTION 1: INTRODUCTION TO GROUNDWATER GEOCHEMISTRY AND FUNDAMENTALS
OF HYDROGEOCHEMICAL MODELING 1 HYDROGEOCHEMISTRY PRINCIPLES FOR
GEOCHEMICAL MODELING (I BUNDSCHUH & O. SRACEK) 3
1.1 SAMPLING AND ANALYSIS OF WATER, SOLIDS AND GASES 3
1.1.1 MEASUREMENT OF FIELD PARAMETERS 5
1.1.2 FILTRATION AND PRESERVATION OF WATER SAMPLES 7
1.1.3 SAMPLING OF SOLID MATERIALS 8
1.1.4 SAMPLING OF GASES 9
1.2 INTRODUCTION TO THERMODYNAMICS 10
1.3 CHEMICAL COMPOSITION OF PRECIPITATION 15
1.4 HYDROCHEMICAL PROCESSES 16
1.4.1 INTRODUCTION 16
1.4.2 OXIDATION-REDUCTION REACTIONS 16
1.4.3 ORGANIC MATTER DECOMPOSITION, PHOTOSYNTHESIS AND AEROBIC
RESPIRATION 17 1.4.4 NITRIFICATION AND DENITRIFICATION 17
1.4.5 SORPTION 18
1.5 KINETICS 22
2 THERMODYNAMICS OF GAS AND MINERAL SOLUBILITY IN THE UNSATURATED-ZONE
WATER (L. MERCURY & M. ZILBERBRAND) 27
2.1 INTRODUCTION 27
2.2 BACKGROUND 27
2.2.1 CAPILLARY WATER 27
2.2.2 CAPILLARIZING THE WATER BY THE DRYNESS OF THE SOIL ATMOSPHERE 30
2.2.3 CAPILLARITY AND SIZE OF PORES 31
2.2.4 CAPILLARY WATER: STABLE OR METASTABLE? 32
2.3 CAPILLARY THERMODYNAMICS 33
2.3.1 CAPILLARY SOLUTIONS AND THE GAS-SOLUTIONS EQUILIBRIA 33
2.3.2 SOLIDS IN CAPILLARY SITUATIONS 34
XI
IMAGE 2
XII TABLE OF CONTENTS
2.3.3 THERMODYNAMIC MODELING OF REACTIONS IN CAPILLARY SYSTEMS 34
2.3.4 SIMPLIFIED MODELING OF SALT SOLUBILITY IN CAPILLARY SYSTEMS 35
2.4 ILLUSTRATIONS IN NATURAL SETTINGS 36
2.4.1 CAPILLARITY AND MINERALOGY OF DESERT ROSES 36
2.4.2 CAPILLARITY AND THE DISSOLUTION OF GASES 38
2.5 HYDROGEOCHEMICAL MODELING IN THE UNSATURATED ZONE 39
2.6 CONCLUSIONS 40
GOVERNING EQUATIONS AND SOLUTION ALGORITHMS FOR GEOCHEMICAL MODELING (C.
AYORA, M. W. SAALTINK & J. CARRERA) 45
3.1 THE FORMULATION OF REACTIONS 45
3.1.1 SPECIES, REACTIONS AND STOICHIOMETRIC COEFFICIENTS 45
3.1.2 EQUILIBRIUM REACTIONS IN TERMS OF THE STOICHIOMETRIC MATRIX 47
3.1.3 PRIMARY AND SECONDARY SPECIES 49
3.1.4 COMPONENTS AND COMPONENT MATRIX 52
3.1.4.1 METHOD 1 (AQUEOUS COMPONENTS) 53
3.1.4.2 METHOD 2 (ELIMINATE CONSTANT ACTIVITY SPECIES) 57
3.1.4.3 OTHER METHODS 57
3.2 HOMOGENEOUS REACTIONS 58
3.2.1 SPECIATION CALCULATIONS 59
3.2.1.1 ALGORITHM 1 60
3.2.1.2 ALGORITHM 2 61
3.3 HETEROGENEOUS REACTIONS 63
3.3.1 SURFACE COMPLEXATION REACTIONS 63
3.3.2 CATION EXCHANGE REACTIONS 68
3.3.3 REACTIONS WITH A SOLID PHASE 71
3.3.4 REACTIONS WITH A GAS PHASE 71
3.4 REACTION PATHS 73
3.5 FORMULATION OF KINETIC REACTIONS 76
FLUID FLOW, SOLUTE AND HEAT TRANSPORT EQUATIONS (M. W. SAALTINK, A.
YAKIREVICH, J. CARRERA & C. AYORA) 83
4.1 INTRODUCTION 83
4.2 GROUNDWATER FLOW EQUATIONS 83
4.2.1 SINGLE PHASE FLOW 84
4.2.1.1 THE CONSERVATION MASS FOR THE FLUID 84
4.2.1.2 THE MOMENTUM MASS BALANCE EQUATIONS FOR THE FLUID 84
4.2.1.3 FLOW EQUATIONS 87
4.2.2 MULTIPHASE FLOW 90
4.2.2.1 MULTIPHASE SYSTEM 90
4.3 TRANSPORT OF CONSERVATIVE SOLUTES 92
4.3.1 ADVECTION, DIFFUSION AND DISPERSION 92
4.3.1.1 ADVECTION 92
4.3.1.2 DIFFUSION 93
4.3.1.3 DISPERSION 94
4.3.2 TRANSPORT EQUATIONS OF CONSERVATIVE SOLUTES 96
4.4 HEAT TRANSPORT EQUATIONS 97
4.4.1 CONDUCTION AND CONVECTION 97
4.4.1.1 HEAT CONDUCTION 97
4.4.1.2 HEAT CONVECTION 98
4.4.2 HEAT TRANSPORT IN SINGLE FLUID PHASE SYSTEMS 98
4.4.3 HEAT TRANSPORT IN MULTIPLE FLUID PHASES SYSTEMS 99
IMAGE 3
TABLE OF CONTENTS XIII
4.5 REACTIVE TRANSPORT 99
4.5.1 THE NEED FOR REACTIVE TRANSPORT: CALCITE DISSOLUTION IN THE
FRESH-SALT WATER MIXING ZONE 99
4.5.2 MASS BALANCE EQUATIONS 102
4.5.3 CONSTANT ACTIVITY SPECIES 106
4.5.4 ANALYTICAL SOLUTION FOR A BINARY SYSTEM: EQUILIBRIUM REACTION
RATES 108 4.5.4.1 PROBLEM STATEMENT 108
4.5.4.2 METHODOLOGY OF SOLUTION 109
4.5.4.3 AN ANALYTICAL SOLUTION: PULSE INJECTION IN A BINARY SYSTEM 112
4.6 THE EFFECT OF HETEROGENEITY AND NON-LOCAL FORMULATIONS 115
4.6.1 THE LIMITATIONS OF TRADITIONAL FORMULATIONS AND THE NEED FOR
UPSCALING 116
4.6.2 SOLUTION OF REACTIVE TRANSPORT IN MRMT FORMULATIONS 119
5 NUMERICAL SOLUTIONS OF REACTIVE TRANSPORT EQUATIONS (M.W. SAALTINK, J.
CARRERA & C. AY OR A) 127
5.1 INTRODUCTION 127
5.2 METHODS FOR DISCRETIZING SPACE AND TIME 127
5.2.1 FINITE DIFFERENCES 127
5.2.1.1 FUNDAMENTALS 127
5.2.1.2 APPLICATION TO CONSERVATIVE TRANSPORT 129
5.2.2 FINITE ELEMENTS 131
5.2.3 INSTABILITY AND NUMERICAL DISPERSION 134
5.3 METHODS FOR SOLVING REACTIVE TRANSPORT EQUATIONS 135
5.3.1 SEQUENTIAL ITERATION APPROACH (SIA) 136
5.3.2 DIRECT SUBSTITUTION APPROACH (DSA) 138
5.3.3 COMPARISON BETWEEN SIA AND DSA 140
6 ELABORATION OF A GEOCHEMICAL MODEL (M. ZILBERBRAND) 143
6.1 INTRODUCTION 143
6.2 MODEL TYPES AND THE MOST POPULAR EXISTING SOFTWARE PACKAGES 143
6.2.1 SPECIATION-SOLUBILITY MODELS 143
6.2.2 REACTION-PATH MODELS 145
6.2.3 INVERSE (MASS-BALANCE) MODELS 145
6.2.4 REACTIVE TRANSPORT MODELS 145
6.3 DATA REQUIRED FOR GEOCHEMICAL MODELING 145
6.3.1 DATA FOR SPECIATION-SOLUBILITY MODELS 145
6.3.2 DATA FOR REACTION-PATH MODELS 147
6.3.3 DATA FOR INVERSE (MASS-BALANCE) MODELS 147
6.3.4 DATA FOR REACTIVE TRANSPORT MODELS 147
6.4 SCHEMATIZATION AND CHOICE OF THERMODYNAMIC DATABASE 147
6.5 MODELING AND INTERPRETATION OF ITS RESULTS 149
6.6 POSSIBLE ERRORS AND MISCONCEPTIONS IN MODEL ELABORATION 150
7 ADVANCES IN GEOCHEMICAL MODELING FOR GEOTHERMAL APPLICATIONS (RBIRKLE)
153
7.1 INTRODUCTION 153
7.2 DEVELOPMENT OF GEOTHERMAL RESERVOIR TOOLS 153
7.3 TYPES OF GEOCHEMICAL MODELS FOR GEOTHERMAL SYSTEMS 155
7.4 REQUIREMENTS FOR GEOCHEMICAL SIMULATIONS OF GEOTHERMAL RESERVOIRS
156 7.5 POPULAR COMPUTER SOFTWARE FOR GEOTHERMAL SYSTEM MODELING 156
IMAGE 4
XIV TABLE OF CONTENTS
7.6 FLOW AND GEOCHEMICAL MODEL CALIBRATION 159
7.7 SELECTION OF RECENT APPLICATIONS (2000-2010)-CASE STUDIES 160
7.7.1 GENERAL APPLICATIONS 160
7.7.2 CONCEPTUAL RESERVOIR MODELS 160
7.7.3 LUMPED PARAMETER MODELS 164
7.7.4 ADVANCED NUMERICAL MODELING 165
7.7.4.1 RESERVOIR DESIGN AND MAGNITUDE-RECONSTRUCTION OF RESERVOIR
PARAMETERS 165
7.7.4.2 ORIGIN OF ACIDITY FOR RESERVOIR FLUIDS 165
7.7.4.3 MINERAL-FLUID EQUILIBRIA 165
7.7.4.4 FLUID REINJECTION-SCALING EFFECTS 165
7.7.4.5 HOT-DRY ROCK (HDR) SYSTEMS (SOULTZ-SOUS-FORETS, FRANCE) 168
7.7.4.6 CO, INJECTION INTO GEOTHERMAL RESERVOIRS 169
7.8 CONCLUSIONS-FUTURE CHALLENGES 170
SECTION 2: CASES STUDIES
8 INTEGRATING FIELD OBSERVATIONS AND INVERSE AND FORWARD MODELING:
APPLICATION AT A SITE WITH ACIDIC, HEAVY-METAL-CONTAMINATED GROUNDWATER
(P.GLYNN&J. BROWN) 181
8.1 INTRODUCTION 181
8.2 GEOCHEMICAL MODELING: COMPUTER CODES, THEORY AND ASSUMPTIONS 182
8.2.1 INVERSE GEOCHEMICAL MODELING 182
8.2.1.1 PRINCIPLES, CODES AND THEORY 182
8.2.1.2 ASSUMPTIONS USED IN INVERSE MODELING 183
8.2.2 FORWARD GEOCHEMICAL MODELING 186
8.2.2.1 PRINCIPLES AND CODES 186
8.3 THE PINAL CREEK BASIN SITE: BRIEF DESCRIPTION 188
8.3.1 GEOLOGY 189
8.3.2 HYDROLOGY AND GROUNDWATER FLOW 190
8.4 INVERSE GEOCHEMICAL MODELING AT THE PINAL CREEK SITE 190
8.4.1 EXAMINATION OF END-MEMBER WATERS AND THEIR CONSERVATIVE
CONSTITUENTS 191
8.4.2 THE THERMODYNAMIC STATE OF THE END-MEMBER WATERS 192
8.4.3 NETPATH INVERSE MODELING: SIMULATION RESULTS 194
8.4.4 INVERSE GEOCHEMICAL MODELING WITH PHREEQC 200
8.5 REACTIVE-TRANSPORT MODELING AT THE PINAL CREEK SITE 203
8.5.1 SUMMARY OF PREVIOUS REACTIVE-TRANSPORT MODELING 205
8.5.2 A REACTIVE-TRANSPORT SENSITIVITY ANALYSIS ON THE MOVEMENT OF PH
AND PE-CONTROLLING MINERAL FRONTS 206
8.5.2.1 A SIMPLE MODEL FOR ADVECTIVE TRANSPORT OF A REACTIVE FRONT: THE
MNO 2 DISSOLUTION FRONT 206
8.5.2.2 DETERMINATION OF THE INITIAL MNO 2 S AND CARBONATE MINERAL
CONCENTRATIONS 207
8.5.2.3 SETUP OF THE 1-D REACTIVE-TRANSPORT SIMULATIONS 209
8.5.2.4 SIMULATION RESULTS: MOVEMENT OF THE FE(II)-RICH WATERS AND OF
THE MNO 2 DISSOLUTION FRONT 211
8.5.2.5 SIMULATION RESULTS: EVOLUTION OF THE LOW-PH WATERS 212
8.5.2.6 THE EFFECT OF THE INITIAL CARBONATE TO INITIAL MNO, RATIO ON THE
EVOLUTION OF THE LOW-PH WATERS 213
IMAGE 5
TABLE OF CONTENTS XV
8.5.2.7 INFLUENCE OF THE ALUMINUM MINERAL ALLOWED TO PRECIPITATE ON THE
EVOLUTION OF THE LOW-PH WATERS 215
8.5.2.8 EFFECTS OF THE IRREVERSIBLE DISSOLUTION OF CA AND MG SILICATES
ON THE EVOLUTION OF LOW-PH FE(II)-RICH WATERS 217 8.5.2.9 THE EFFECT OF
NOT ALLOWING RHODOCHROSITE PRECIPITATION 218 8.5.2.10 THE CO, OPEN
SYSTEM SIMULATIONS 218
8.5.2.11 THE EFFECT OF LONGITUDINAL DISPERSION 219
8.5.2.12 THE INFLUENCE OF CATION EXCHANGE AND SURFACE-COMPLEXATION
SORPTION PROCESSES 220
8.5.2.13 OTHER MINOR EFFECTS ON THE EVOLUTION OF THE LOW-PH WATERS 221
8.5.2.14 COMPARISON OF THE REACTIVE TRANSPORT SIMULATION RESULTS WITH
OBSERVATIONS AT THE PINAL CREEK SITE 221
8.6 CONCLUSIONS 224
8.7 THE SENIOR AUTHOR S FIFTEEN YEAR PERSPECTIVE ON THE GLYNN AND BROWN
(1996) PAPER 226
9 MODELS AND MEASUREMENTS OF POROSITY AND PERMEABILITY EVOLUTION IN A
SANDSTONE FORMATION (S. EMMANUEL, J.J. AGUE & O. WALDERHAUG) 235
9.1 INTRODUCTION 235
9.2 POROSITY MEASUREMENTS IN MINERALIZED ROCK 236
9.3 THEORY AND NUMERICAL MODELING OF POROSITY EVOLUTION 238
9.3.1 CONCEPTUAL MODEL OF THE POROUS MEDIUM 238
9.3.2 REACTION KINETICS 240
9.3.3 REACTIVE TRANSPORT EQUATIONS 243
9.3.4 NUMERICAL SOLUTION AND MODEL OPTIMIZATION 244
9.4 COMPARISON BETWEEN NUMERICAL MODELS AND MEASUREMENTS 245
9.5 IMPLICATIONS FOR BULK REACTION RATES 247
9.6 IMPLICATIONS FOR PERMEABILITY EVOLUTION IN AQUIFERS 248
9.7 CONCLUDING REMARKS 249
10 GEOCHEMICAL MODELING OF WATER CHEMISTRY EVOLUTION IN THE GUARANI
AQUIFER SYSTEM IN SAO PAULO, BRAZIL (O. SRACEK & R. HIRATA) 253
11 MODELING OF REACTIVE TRANSPORT AT A SITE CONTAMINATED BY PETROLEUM
HYDROCARBONS AT HNEVICE, CZECH REPUBLIC (O. SRACEK & Z, VENCELIDES) 259
11.1 SITE CHARACTERIZATION AND CONCEPTUAL MODEL 259
11.2 SPECIATION AND INVERSE GEOCHEMICAL MODELING 261
11.3 MODELING OF REACTIVE TRANSPORT 263
12 NUMERICAL MODELING FOR PRELIMINARY ASSESSMENT OF NATURAL REMEDIATION
OF PHOSPHORUS IN VARIABLY SATURATED SOIL IN A PERI-URBAN SETTLEMENT IN
KAMPALA, UGANDA (R.N, KULABAKO, R. THUNVIK, M. NALUBEGA & L.A. SOUTTER)
267
12.1 INTRODUCTION 267
12.2 SETTING 267
12.3 NUMERICAL MODEL 269
12.3.1 FLOW MODEL 269
12.3.2 SOLUTE MODEL 274
12.3.2.1 SOIL PHOSPHORUS SORPTION 274
12.3.2.2 SOLUTE TRANSPORT MODEL 275
IMAGE 6
XVI TABLE OF CONTENTS
12.4 SIMULATIONS 276
12.5 RESULTS AND DISCUSSION 277
12.5.1 FIELD MEASUREMENTS 277
12.5.2 POLLUTION AND REMEDIATION SIMULATION SCENARIOS 278
12.5.3 SENSITIVITY ANALYSES 279
12.5.3.1 IMPACT OF CHANGE OF SORPTION COEFFICIENTS (K I AND K [IN ) ON
POLLUTION TIME 279
12.5.3.2 IMPACT OF CHANGE OF THE PORE SIZE DISTRIBUTION VALUES ON
POLLUTION TIME 279
12.5.3.3 IMPACT OF CHANGE OF THE AIR ENTRY VALUES ON POLLUTION TIME 281
12.6 CONCLUSIONS 281
SUBJECT INDEX 287
BOOK SERIES PAGE 305
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Zilberbrand -- Governing equations and solution algorithms for geochemical modeling / C. Ayora, M.W. Saaltink & J. Carrera -- Fluid flow, solute and heat transport equations / M.W. Saaltink, A. Yakirevich, J. Carrera & C. Ayora -- Numerical solutions of reactive transport equations / M.W. Saaltink, J. Carrera & C. Ayora -- Elaboration of a geochemical model / M. Zilberbrand -- Advances in geochemical modeling for geothermal applications / P. Birkle -- section 2. Case studies -- Integrating field observations and inverse and forward modeling : application at a site with acidic, heavy-metal-contaminated groundwater / P. Glynn & J. Brown -- Models and measurements of porosity and permeability evolution in a sandstone formation / S. Emmanuel, J.J. Ague & O. Walderhaug -- Geochemical modeling of water chemistry evolution in the Guarani Aquifer System in São Paulo, Brazil / O. Sracek & R. Hirata -- Modeling of reactive transport at a site contaminated by petroleum hydrocarbons at Hnevice, Czech Republic / O. Sracek & Z. Vencelides -- Numerical modeling for preliminary assessment of natural remediation of phosphorus in variably saturated soil in a peri-urban settlement in Kampala, Uganda / R.N. Kulabako, R. Thunvik, M. Nalubega & A.L. 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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV039836568 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:12:21Z |
| institution | BVB |
| isbn | 9780415668101 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024696556 |
| oclc_num | 760531897 |
| open_access_boolean | |
| owner | DE-29 DE-83 |
| owner_facet | DE-29 DE-83 |
| physical | XXVII, 305 S. Ill., graph. Darst., Kt. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | CRC Press, Taylor & Francis Group |
| record_format | marc |
| series | Multiphysics modeling |
| series2 | Multiphysics modeling |
| spelling | Geochemical modeling of groundwater, vadose, and geothermal systems eds. Jochen Bundschuh ... Boca Raton [u.a.] CRC Press, Taylor & Francis Group 2012 XXVII, 305 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Multiphysics modeling 5 Includes bibliographical references and indexes Section 1. Introduction to groundwater geochemistry and fundamentals of hydrogeochemical modeling -- Hydrogeochemistry principles for geochemical modeling / J. Bundschuh & O. Sracek -- Thermodynamics of gas and mineral solubility in the unsaturated zone water / L. Mercury & M. Zilberbrand -- Governing equations and solution algorithms for geochemical modeling / C. Ayora, M.W. Saaltink & J. Carrera -- Fluid flow, solute and heat transport equations / M.W. Saaltink, A. Yakirevich, J. Carrera & C. Ayora -- Numerical solutions of reactive transport equations / M.W. Saaltink, J. Carrera & C. Ayora -- Elaboration of a geochemical model / M. Zilberbrand -- Advances in geochemical modeling for geothermal applications / P. Birkle -- section 2. Case studies -- Integrating field observations and inverse and forward modeling : application at a site with acidic, heavy-metal-contaminated groundwater / P. Glynn & J. Brown -- Models and measurements of porosity and permeability evolution in a sandstone formation / S. Emmanuel, J.J. Ague & O. Walderhaug -- Geochemical modeling of water chemistry evolution in the Guarani Aquifer System in São Paulo, Brazil / O. Sracek & R. Hirata -- Modeling of reactive transport at a site contaminated by petroleum hydrocarbons at Hnevice, Czech Republic / O. Sracek & Z. Vencelides -- Numerical modeling for preliminary assessment of natural remediation of phosphorus in variably saturated soil in a peri-urban settlement in Kampala, Uganda / R.N. Kulabako, R. Thunvik, M. Nalubega & A.L. Soutter Groundwater / Simulation methods Zone of aeration / Simulation methods Geothermal resources / Simulation methods Geochemical modeling Hydrologic models Water chemistry Geothermik (DE-588)4020285-9 gnd rswk-swf Grundwasser (DE-588)4022369-3 gnd rswk-swf Geochemische Analyse (DE-588)4290341-5 gnd rswk-swf Vadoses Wasser (DE-588)4224794-9 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Grundwasser (DE-588)4022369-3 s Vadoses Wasser (DE-588)4224794-9 s Geothermik (DE-588)4020285-9 s Geochemische Analyse (DE-588)4290341-5 s DE-604 Bundschuh, Jochen 1960- Sonstige (DE-588)1064353835 oth Erscheint auch als Online-Ausgabe 978-0-203-12298-3 Multiphysics modeling 5 (DE-604)BV036583449 5 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024696556&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Geochemical modeling of groundwater, vadose, and geothermal systems Multiphysics modeling Groundwater / Simulation methods Zone of aeration / Simulation methods Geothermal resources / Simulation methods Geochemical modeling Hydrologic models Water chemistry Geothermik (DE-588)4020285-9 gnd Grundwasser (DE-588)4022369-3 gnd Geochemische Analyse (DE-588)4290341-5 gnd Vadoses Wasser (DE-588)4224794-9 gnd |
| subject_GND | (DE-588)4020285-9 (DE-588)4022369-3 (DE-588)4290341-5 (DE-588)4224794-9 (DE-588)4143413-4 |
| title | Geochemical modeling of groundwater, vadose, and geothermal systems |
| title_auth | Geochemical modeling of groundwater, vadose, and geothermal systems |
| title_exact_search | Geochemical modeling of groundwater, vadose, and geothermal systems |
| title_full | Geochemical modeling of groundwater, vadose, and geothermal systems eds. Jochen Bundschuh ... |
| title_fullStr | Geochemical modeling of groundwater, vadose, and geothermal systems eds. Jochen Bundschuh ... |
| title_full_unstemmed | Geochemical modeling of groundwater, vadose, and geothermal systems eds. Jochen Bundschuh ... |
| title_short | Geochemical modeling of groundwater, vadose, and geothermal systems |
| title_sort | geochemical modeling of groundwater vadose and geothermal systems |
| topic | Groundwater / Simulation methods Zone of aeration / Simulation methods Geothermal resources / Simulation methods Geochemical modeling Hydrologic models Water chemistry Geothermik (DE-588)4020285-9 gnd Grundwasser (DE-588)4022369-3 gnd Geochemische Analyse (DE-588)4290341-5 gnd Vadoses Wasser (DE-588)4224794-9 gnd |
| topic_facet | Groundwater / Simulation methods Zone of aeration / Simulation methods Geothermal resources / Simulation methods Geochemical modeling Hydrologic models Water chemistry Geothermik Grundwasser Geochemische Analyse Vadoses Wasser Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024696556&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV036583449 |
| work_keys_str_mv | AT bundschuhjochen geochemicalmodelingofgroundwatervadoseandgeothermalsystems |