Mathematical and numerical modeling in porous media: applications in geosciences
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Boca Raton, Fla.
CRC Press
2012
|
| Schriftenreihe: | Multiphysics modeling
6 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIX, 337 S. Ill., graph. Darst. |
| ISBN: | 041566537X 9780415665377 |
Internformat
MARC
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| 245 | 1 | 0 | |a Mathematical and numerical modeling in porous media |b applications in geosciences |c ed. Martín A. Díaz Viera ... [et al.] |
| 264 | 1 | |a Boca Raton, Fla. |b CRC Press |c 2012 | |
| 300 | |a XXIX, 337 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Multiphysics modeling |v 6 | |
| 650 | 4 | |a Porous materials / Mathematical models | |
| 650 | 4 | |a Geology / Mathematical models | |
| 650 | 4 | |a Geologie | |
| 650 | 4 | |a Mathematisches Modell | |
| 700 | 1 | |a Díaz Viera, Martín A. |e Sonstige |4 oth | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe |z 978-0-203-11388-2 |
| 830 | 0 | |a Multiphysics modeling |v 6 |w (DE-604)BV036583449 |9 6 | |
| 856 | 4 | 2 | |m SWB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024529654&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-024529654 | ||
Datensatz im Suchindex
| _version_ | 1804148545250394112 |
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TABLE OF CONTENTS
ABOUT THE BOOK SERIES VII
EDITORIAL BOARD OF THE BOOK SERIES IX
PREFACE XXI
ACKNOWLEDGEMENTS XXIII
ABOUT THE EDITORS XXV
CONTRIBUTORS XXVII
SECTION 1: FUNDAMENTAL CONCEPTS
1 RELATIVE PERMEABILITY (T.J. T. SPANOS) 3
1.1 INTRODUCTION 3
1.2 DARCY S EQUATION 4
1.3 HETEROGENEITY 6
1.4 LUBRICATION THEORY 9
1.5 MULTIPHASE FLOW IN POROUS MEDIA 11
1.6 DISPERSION 18
1.7 FEW COMMENTS ABOUT THE ASSOCIATED THERMODYNAMICS 20
1.8 CONCLUSIONS 20
1 .A APPENDIX 20
1 .A. 1 SOLID PROPERTIES 20
1. A.2 FLUID PROPERTIES 22
1.A.3 RECIPROCITY 22
REFERENCES 25
2 FROM UPSCALING TECHNIQUES TO HYBRID MODELS (/. BATTIATO & DM.
TARTAKOVSKY) 27
2.1 INTRODUCTION 27
2.2 FROM FIRST PRINCIPLES TO EFFECTIVE EQUATIONS 28
2.2.1 CLASSIFICATION OF UPSCALING METHODS 28
2.2.2 FLOW: FROM STOKES TO DARCY/BRINKMAN EQUATIONS 29
2.2.3 TRANSPORT: FROM ADVECTION-DIFFUSION TO ADVECTION-DISPERSION
EQUATION 30 2.3 APPLICABILITY RANGE OF MACROSCOPIC MODELS FOR REACTIVE
SYSTEMS 32
2.3.1 DIFFUSION-REACTION EQUATIONS: MIXING-INDUCED PRECIPITATION
PROCESSES 32 2.3.2 PRELIMINARIES 33
2.3.3 UPSCALING VIA VOLUME AVERAGING 34
2.3.4 ADVECTION-DIFFUSION-REACTION EQUATION 36
2.4 HYBRID MODELS FOR TRANSPORT IN POROUS MEDIA 38
2.4.1 INTRUSIVE HYBRID ALGORITHM 38
2.4.2 TAYLOR DISPERSION IN A FRACTURE WITH REACTIVE WALLS 41
XIII
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XIV TABLE OF CONTENTS
2.4.3 HYBRID ALGORITHM 42
2.4.4 NUMERICAL RESULTS 43
2.4.5 NON-INTRUSIVE HYBRID ALGORITHM 44
2.5 CONCLUSIONS 48
REFERENCES 49
3 A TENSORIAL FORMULATION IN FOUR DIMENSIONS OF THERMOPOROELASTIC
PHENOMENA (M.C. SUAREZARRIAGA) 53
3.1 INTRODUCTION 53
3.2 THEORETICAL AND EXPERIMENTAL BACKGROUND 53
3.3 MODEL OF ISOTHERMAL POROELASTICITY 55
3.4 THERMOPOROELASTICITY MODEL 57
3.5 DYNAMIC POROELASTIC EQUATIONS 58
3.6 THE FINITE ELEMENT METHOD IN THE SOLUTION OF THE THERMOPOROELASTIC
EQUATIONS 58 3.7 SOLUTION OF THE MODEL FOR PARTICULAR CASES 58
3.8 DISCUSSION OF RESULTS 59
3.9 CONCLUSIONS 61
REFERENCES 62
SECTION 2: FLOW AND TRANSPORT
4 NEW METHOD FOR ESTIMATION OF PHYSICAL PARAMETERS IN OIL RESERVOIRS BY
USING TRACER TEST FLOW MODELS IN LAPLACE SPACE (J. RAMIREZ-SABAG, O. C.
VALDIVIEZO-MIJANGOS & M. CORONADO) 65
4.1 INTRODUCTION 65
4.2 NUMERICAL LAPLACE TRANSFORMATION OF SAMPLE DATA 65
4.3 THE LAPLACE DOMAIN OPTIMIZATION PROCEDURE 68
4.4 THE REAL DOMAIN OPTIMIZATION PROCEDURE 68
4.5 THE OPTIMIZATION METHOD 68
4.6 THE VALIDATION PROCEDURE 69
4.6.1 EMPLOYED MATHEMATICAL MODELS 69
4.6.2 GENERATION OF SYNTHETIC DATA 70
4.6.3 RESULT WITH SYNTHETIC DATA 70
4.7 RESERVOIR DATA CASES 73
4.7.1 A HOMOGENEOUS RESERVOIR (LOMA ALTA SUR) 73
4.7.2 A FRACTURED RESERVOIR (WAIRAKEI FIELD) 74
4.8 SUMMARY AND CONCLUDING REMARKS 76
REFERENCES 76
5 DYNAMIC POROSITY AND PERMEABILITY MODIFICATION DUE TO MICROBIAL GROWTH
USING A COUPLED FLOW AND TRANSPORT MODEL IN POROUS MEDIA (M.A.
DIAZ-VIERA &A. MOCTEZUMA-BERTHIER) 79
5.1 INTRODUCTION 79
5.2 THE FLOW AND TRANSPORT MODEL 80
5.2.1 CONCEPTUAL MODEL 80
5.2.2 MATHEMATICAL MODEL 81
5.2.3 NUMERICAL MODEL 84
5.2.4 COMPUTATIONAL MODEL 85
5.3 NUMERICAL SIMULATIONS 85
5.3.1 REFERENCE STUDY CASE DESCRIPTION: A WATERFLOODING TEST IN A CORE
85
5.3.2 MODELING OF SECONDARY RECOVERY BY WATER INJECTION 86
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TABLE OF CONTENTS XV
5.3.3 MODELING OF ENHANCED RECOVERY BY WATER INJECTION WITH
MICROORGANISMS AND NUTRIENTS 88
5.3.4 POROSITY AND PERMEABILITY MODIFICATION DUE TO MICROBIAL ACTIVITY
90 5.4 FINAL REMARKS 92
REFERENCES 95
INTER-WELL TRACER TEST MODELS FOR UNDERGROUND FORMATIONS HAVING
CONDUCTIVE FAULTS: DEVELOPMENT OF A NUMERICAL MODEL AND COMPARISON
AGAINST ANALYTICAL MODELS (M. CORONADO, J. RAMIREZ-SABAG & O.
VALDIVIEZO-MIJANGOS) 97
6.1 INTRODUCTION 97
6.2 DESCRIPTION OF THE ANALYTICAL MODELS 98
6.2.1 THE CLOSED FAULT MODEL 99
6.2.2 THE OPEN FAULT MODEL 101
6.3 THE NUMERICAL MODEL 103
6.4 NUMERICAL RESULTS 106
6.5 COMPARISON OF THE ANALYTICAL MODELS AGAINST NUMERICAL SIMULATIONS
107
6.5.1 INJECTION-DOMINATED FLOW CASE 108
6.5.2 FAULT-DOMINATED FLOW CASE 108
6.5.3 CLOSED FAULT CASE 109
6.6 SUMMARY AND FINAL CONCLUSIONS 110
REFERENCES 111
VOLUME AVERAGE TRANSPORT EQUATIONS FOR IN-SITU COMBUSTION (A.G.
VITAL-OCAMPO & O. CAZAREZ-CANDIA) 113
7.1 INTRODUCTION 113
7.2 STUDY SYSTEM 114
7.2.1 LOCAL MASS, MOMENTUM AND ENERGY EQUATIONS 115
7.2.2 JUMP CONDITIONS 115
7.3 AVERAGE VOLUME 117
7.4 AVERAGE EQUATIONS 118
7.5 PHYSICAL MODEL 120
7.6 EQUATIONS FOR IN-SITU COMBUSTION 121
7.7 NUMERICAL SOLUTION 126
7.8 SOLUTION 126
7.9 RESULTS 128
7.10 CONCLUSIONS 130
7. A APPENDIX 131
7.A.I OIL VAPORIZATION 131
REFERENCES 131
BIPHASIC ISOTHERMAL TRICOMPONENT MODEL TO SIMULATE ADVECTION-DIFFUSION
IN 2D POROUS MEDIA (A. MOCTEZUMA-BERTHIER) 133
8.1 INTRODUCTION 133
8.2 MODEL DESCRIPTION 133
8.2.1 GENERAL CONSIDERATIONS 133
8.2.2 MATHEMATICAL MODEL 134
8.2.3 NUMERICAL MODEL 139
8.2.4 SOLUTION OF THE SYSTEM 144
8.2.5 MANAGEMENT OF THE PARTIALS DERIVATIVES 148
8.2.6 SOLUTION SCHEME 159
8.2.7 TREATING THE BOUNDARY CONDITIONS 163
8.2.8 INITIAL CONDITIONS FOR THE FLUID FLOW AND THE TRACER SYSTEMS 168
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XVI TABLE OF CONTENTS
8.3 VALIDATION OF BIPHASIC FLOW SYSTEM 169
8.4 CONCLUSIONS 170
REFERENCES 170
SECTION 3: STATISTICAL AND STOCHASTIC CHARACTERIZATION
9 A 3D GEOSTATISTICAL MODEL OF UPPER JURASSIC KIMMERIDGIAN FACIES
DISTRIBUTION IN CANTARELL OIL FIELD, MEXICO (R. CASAR-GONZALEZ, M.A.
DIAZ-VIERA, G. MURILLO-MUNETON, L. VELASQUILLO-MARTINEZ, J.
GARCIA-HERNDNDEZ & E. AGUIRRE-CERDA) 173
9.1 INTRODUCTION 173
9.2 METHODOLOGICAL ASPECTS OF GEOLOGICAL AND PETROPHYSICAL MODELING 175
9.2.1 THE GEOLOGICAL MODEL 175
9.2.2 THE PETROPHYSICAL MODEL 177
9.3 CONCEPTUAL GEOLOGICAL MODEL 177
9.3.1 GEOLOGICAL SETTING 177
9.3.2 SEDIMENTARY MODEL AND STRATIGRAPHIC FRAMEWORK 177
9.3.3 THE CONCEPTUAL GEOLOGICAL MODEL DEFINITION 179
9.3.4 ANALYSIS OF THE STRUCTURAL SECTIONS 180
9.3.5 DESCRIPTION OF THE STRATIGRAPHIC CORRELATION SECTIONS 181
9.3.6 LITHOFACIES DEFINITION 181
9.4 GEOSTATISTICAL MODELING 183
9.4.1 ZONE PARTITION 183
9.4.2 STRATIGRAPHIC GRID DEFINITION 183
9.4.3 CA FACIES CLASSIFICATION 184
9.4.4 FACIES UPSCALING PROCESS 184
9.4.5 STATISTICAL ANALYSIS 184
9.4.6 GEOSTATISTICAL SIMULATIONS 189
9.5 CONCLUSIONS 193
REFERENCES 193
10 TRIVARIATE NONPARAMETRIC DEPENDENCE MODELING OF PETROPHYSICAL
PROPERTIES (A. ERDELY, M.A. DIAZ-VIERA & V HERNANDEZ-MALDONADO) 195
10.1 INTRODUCTION 195
10.1.1 THE PROBLEM OF MODELING THE COMPLEX DEPENDENCE PATTERN BETWEEN
POROSITY AND PERMEABILITY IN CARBONATE FORMATIONS 195
10.1.2 TRIVARIATE COPULA AND RANDOM VARIABLES DEPENDENCE 196
10.2 TRIVARIATE DATA MODELING 197
10.3 NONPARAMETRIC REGRESSION 198
10.4 CONCLUSIONS 202
REFERENCES 203
11 JOINT POROSITY-PERMEABILITY STOCHASTIC SIMULATION BY NON-PARAMETRIC
COPULAS (V HERNANDEZ-MALDONADO, M.A. DIAZ-VIERA &A. ERDEFY-RUIZ) 205
11.1 INTRODUCTION 205
11.2 NON-CONDITIONAL STOCHASTIC SIMULATION METHODOLOGY BY USING
BERNSTEIN COPULAS 205
11.3 APPLICATION OF THE METHODOLOGY TO PERFORM A NON-CONDITIONAL
SIMULATION WITH SIMULATED ANNEALING USING BIVARIATE BERNSTEIN COPULAS
206
11.3.1 MODELING THE PETROPHYSICAL PROPERTIES DEPENDENCE PATTERN, USING
NON-PARAMETRIC COPULAS OR BERNSTEIN COPULAS 207
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TABLE OF CONTENTS XVII
11.3.2 GENERATING THE SEED OR INITIAL CONFIGURATION FOR SIMULATED
ANNEALING METHOD, USING THE NON-PARAMETRIC SIMULATION ALGORITHM 208
11.3.3 DEFINING THE OBJECTIVE FUNCTION 210
11.3.4 MEASURING THE ENERGY OF THE SEED, ACCORDING TO THE OBJECTIVE
FUNCTION 210
11.3.5 CALCULATING THE INITIAL TEMPERATURE, AND THE MOST SUITABLE
ANNEALING SCHEDULE OF SIMULATED ANNEALING METHOD TO CARRY OUT THE
SIMULATION 211 11.3.6 PERFORMING THE SIMULATION 213
11.3.7 APPLICATION OF THE METHODOLOGY FOR STOCHASTIC SIMULATION BY
BIVARIATE BERNSTEIN COPULAS TO SIMULATE A PERMEABILITY (K) PROFILE. A
CASE OF STUDY 215
11.4 COMPARISON OF RESULTS USING THREE DIFFERENT METHODS 218
11.4.1 A SINGLE NON-CONDITIONAL SIMULATION, AND A MEDIAN OF 10
NON-CONDITIONAL SIMULATIONS OF PERMEABILITY 219
.1,4.2 A SINGLE 10% CONDITIONAL SIMULATION, AND A MEDIAN OF 10, 10%
CONDITIONAL SIMULATIONS OF PERMEABILITY 221
11.4.3 A SINGLE 50% CONDITIONAL SIMULATION, AND A MEDIAN OF 10, 50%
CONDITIONAL SIMULATIONS OF PERMEABILITY 224
11.4.4 A SINGLE 90% CONDITIONAL SIMULATION, AND A MEDIAN OF 10. 90%
CONDITIONAL SIMULATIONS OF PERMEABILITY 226
11.5 CONCLUSIONS 227
REFERENCES 229
12 STOCHASTIC SIMULATION OF A VUGGY CARBONATE POROUS MEDIA (R.
CASAR-GONZDLEZ & V. SUM-PEREZ) 231
12.1 INTRODUCTION 231
12.2 X-RAY COMPUTED TOMOGRAPHY (CT) 231
12.3 EXPLORATORY DATA ANALYSIS OF X-RAY COMPUTED TOMOGRAPHY 233
12.4 TRANSFORMATION OF THE INFORMATION FROM POROSITY VALUES TO INDICATOR
VARIABLE 233
12.5 SPATIAL CORRELATION MODELING OF THE POROUS MEDIA 235
12.6 STOCHASTIC SIMULATION OF A VUGGY CARBONATE POROUS MEDIA 237
12.7 SIMULATION ANNEALING MULTIPOINT OF A VUGGY CARBONATE POROUS MEDIA
238 12.8 SIMULATION OF CONTINUOUS VALUES OF POROSITY IN A VUGGY
CARBONATE POROUS MEDIUM 240
12.9 ASSIGNING PERMEABILITY VALUES BASED ON POROSITY VALUES 242
12.10 APPLICATION EXAMPLE: EFFECTIVE PERMEABILITY SCALING PROCEDURE IN
VUGGY CARBONATE POROUS MEDIA 244
12.11 SCALING EFFECTIVE PERMEABILITY WITH AVERAGE POWER TECHNIQUE 246
12.12 SCALING EFFECTIVE PERMEABILITY WITH PERCOLATION MODEL 246
12.13 CONCLUSIONS AND REMARKS 248
REFERENCES 248
13 STOCHASTIC MODELING OF SPATIAL GRAIN DISTRIBUTION IN ROCK SAMPLES
FROM TERRIGENOUS FORMATIONS USING THE PLURIGAUSSIAN SIMULATION METHOD
(J. MENDEZ- VENEGAS & M.A. DIAZ- VIERA) 251
13.1 INTRODUCTION 251
13.2 METHODOLOGY 251
13.2.1 DATA IMAGE PROCESSING 252
13.2.2 GEOSTATISTICAL ANALYSIS 252
13.3 DESCRIPTION OF THE DATA 256
IMAGE 6
XVIII TABLE OF CONTENTS
13.4 GEOSTATISTICAL ANALYSIS 259
13.4.1 EXPLORATORY DATA ANALYSIS 259
13.4.2 VARIOGRAPHIC ANALYSIS 259
13.5 RESULTS 259
13.6 CONCLUSIONS 264
REFERENCES 266
14 METADISTANCES IN PRIME NUMBERS APPLIED TO INTEGRAL EQUATIONS AND SOME
EXAMPLES OF THEIR POSSIBLE USE IN POROUS MEDIA PROBLEMS (A. ORTIZ-TAPIA)
267
14.1 INTRODUCTION 267
14.1.1 SOME REASONS FOR CHOOSING INTEGRAL EQUATION FORMULATIONS 267
14.1.2 DISCRETIZATION OF AN INTEGRAL EQUATION WITH REGULAR GRIDS 267
14.1.3 SOLVING AN INTEGRAL EQUATION WITH MC OR LDS 268
14.2 ALGORITHMS DESCRIPTION 269
14.2.1 LOW DISCREPANCY SEQUENCES 269
14.2.2 HALTON LDSS 269
14.2.3 WHAT IS A METADISTANCE 270
14.2.4 REFINEMENT OF MDS 271
14.3 NUMERICAL EXPERIMENTS 271
14.3.1 FREDHOLM EQUATIONS OF THE SECOND KIND IN ONE INTEGRABLE DIMENSION
271
14.3.2 RESULTS IN ONE DIMENSION 272
14.3.3 CHOOSING A PROBLEM IN TWO DIMENSIONS 273
14.3.4 TRANSFORMATION OF THE ORIGINAL PROBLEM 275
14.3.5 GENERAL NUMERICAL ALGORITHM 277
14.3.6 MC RESULTS, EMPIRICAL RESCALING 278
14.3.7 HALTON RESULTS, EMPIRICAL RESCALING 278
14.3.8 MDS RESULTS, EMPIRICAL RESCALING 280
14.3.9 MC RESULTS, SYSTEMATIC RESCALING 282
14.3.10 HALTON RESULTS, SYSTEMATIC RESCALING 282
14.3.11 MDS RESULTS, SYSTEMATIC RESCALING 282
14.3.12 ACCURACY GOALS 282
14.3.13 RATE OF CONVERGENCE 284
14.4 CONCLUSIONS 284
REFERENCES 284
SECTION 4: WAVES
15 ON THE PHYSICAL MEANING OF SLOW SHEAR WAVES WITHIN THE
VISCOSITY-EXTENDED BIOT FRAMEWORK (T.M. MUTTER & EN. SAHAY) 289
15.1 INTRODUCTION 289
15.2 REVIEW OF THE VISCOSITY-EXTENDED BIOT FRAMEWORK 290
15.2.1 CONSTITUTIVE RELATIONS, COMPLEX PHASE VELOCITIES, AND
CHARACTERISTIC FREQUENCIES 290
15.2.2 PROPERTIES OF THE SLOW SHEAR WAVE 292
15.3 CONVERSION SCATTERING IN RANDOMLY INHOMOGENEOUS MEDIA 292
15.3.1 EFFECTIVE WAVE NUMBER APPROACH 292
15.3.2 ATTENUATION AND DISPERSION DUE TO CONVERSION SCATTERING IN THE
SLOW SHEAR WAVE 294
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TABLE OF CONTENTS XIX
15.4 PHYSICAL INTERPRETATION OF THE SLOW SHEAR WAVE CONVERSION
SCATTERING PROCESS 295
15.4.1 SLOW SHEAR CONVERSION MECHANISM AS A PROXY FOR ATTENUATION DUE TO
VORTICITY DIFFUSION WITHIN THE VISCOUS BOUNDARY LAYER 295
15.4.2 THE SLOW SHEAR WAVE CONVERSION MECHANISM VERSUS THE DYNAMIC
PERMEABILITY CONCEPT 297
15.5 CONCLUSIONS 298
15.A APPENDIX 299
15.A.I A AND /? MATRICES 299
15.A.2 INERTIAL REGIME 300
REFERENCES 301
16 COUPLED POROSITY AND SATURATION WAVES IN POROUS MEDIA (N. UDEY) 303
16.1 INTRODUCTION 303
16.2 THE GOVERNING EQUATIONS 303
16.2.1 VARIABLES AND DEFINITIONS 303
16.2.2 THE EQUATIONS OF CONTINUITY 304
16.2.3 THE EQUATIONS OF MOTION 305
16.2.4 THE POROSITY AND SATURATION EQUATIONS 306
16.3 DILATATIONAL WAVES 306
16.3.1 THE HELMHOLTZ DECOMPOSITION 306
16.3.2 THE DILATATIONAL WAVE EQUATIONS 307
16.3.3 THE DILATATIONAL WAVE OPERATOR MATRIX EQUATION 309
16.3.4 WAVE OPERATOR TRIAL SOLUTIONS 311
16.4 POROSITY WAVES 313
16.4.1 THE POROSITY WAVE EQUATION 313
16.4.2 THE DISPERSION RELATION 315
16.4.3 COMPARISON WITH PRESSURE DIFFUSION 315
16.5 SATURATION WAVES 316
16.5.1 THE WAVE EQUATIONS 316
16.5.2 THE DISPERSION RELATION 317
16.6 COUPLED POROSITY AND SATURATION WAVES 319
1 6.6. 1 THE DISPERSION RELATION 319
16.6.2 FACTORIZATION OF THE DISPERSION RELATION 321
16.7 A NUMERICAL ILLUSTRATION 324
16.7.1 THE POROSITY WAVE 324
16.7.2 THE SATURATION WAVE 327
16.8 CONCLUSION 331
REFERENCES 332
SUBJECT INDEX 335
BOOK SERIES PAGE 339
|
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV039680641 |
| classification_rvk | SK 950 |
| ctrlnum | (OCoLC)755071700 (DE-599)BVBBV039680641 |
| dewey-full | 530.415 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 530 - Physics |
| dewey-raw | 530.415 |
| dewey-search | 530.415 |
| dewey-sort | 3530.415 |
| dewey-tens | 530 - Physics |
| discipline | Physik Mathematik |
| format | Book |
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| id | DE-604.BV039680641 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:08:50Z |
| institution | BVB |
| isbn | 041566537X 9780415665377 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024529654 |
| oclc_num | 755071700 |
| open_access_boolean | |
| owner | DE-703 DE-83 |
| owner_facet | DE-703 DE-83 |
| physical | XXIX, 337 S. Ill., graph. Darst. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | CRC Press |
| record_format | marc |
| series | Multiphysics modeling |
| series2 | Multiphysics modeling |
| spelling | Mathematical and numerical modeling in porous media applications in geosciences ed. Martín A. Díaz Viera ... [et al.] Boca Raton, Fla. CRC Press 2012 XXIX, 337 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Multiphysics modeling 6 Porous materials / Mathematical models Geology / Mathematical models Geologie Mathematisches Modell Díaz Viera, Martín A. Sonstige oth Erscheint auch als Online-Ausgabe 978-0-203-11388-2 Multiphysics modeling 6 (DE-604)BV036583449 6 SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024529654&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mathematical and numerical modeling in porous media applications in geosciences Multiphysics modeling Porous materials / Mathematical models Geology / Mathematical models Geologie Mathematisches Modell |
| title | Mathematical and numerical modeling in porous media applications in geosciences |
| title_auth | Mathematical and numerical modeling in porous media applications in geosciences |
| title_exact_search | Mathematical and numerical modeling in porous media applications in geosciences |
| title_full | Mathematical and numerical modeling in porous media applications in geosciences ed. Martín A. Díaz Viera ... [et al.] |
| title_fullStr | Mathematical and numerical modeling in porous media applications in geosciences ed. Martín A. Díaz Viera ... [et al.] |
| title_full_unstemmed | Mathematical and numerical modeling in porous media applications in geosciences ed. Martín A. Díaz Viera ... [et al.] |
| title_short | Mathematical and numerical modeling in porous media |
| title_sort | mathematical and numerical modeling in porous media applications in geosciences |
| title_sub | applications in geosciences |
| topic | Porous materials / Mathematical models Geology / Mathematical models Geologie Mathematisches Modell |
| topic_facet | Porous materials / Mathematical models Geology / Mathematical models Geologie Mathematisches Modell |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024529654&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV036583449 |
| work_keys_str_mv | AT diazvieramartina mathematicalandnumericalmodelinginporousmediaapplicationsingeosciences |