Verfügbarkeit: Reservoir simulation

Reservoir simulation: mathematical techniques in oil recovery

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Bibliographische Detailangaben
1. Verfasser:	Chen, Zhangxin (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Philadelphia, PA SIAM, Soc. for Industrial and Applied Mathematics 2007
Schriftenreihe:	CBMS-NSF regional conference series in applied mathematics 77
Schlagworte:	Mecânica dos fluídos computacional Modelos matemáticos Simulação (métodos) Mathematisches Modell Oil reservoir engineering > Mathematical models Oil reservoir engineering > Simulation methods Porous materials > Permeability > Mathematical models Transport theory > Mathematical models Erdöllagerstätte Erdölgewinnung Simulation
Online-Zugang:	Contributor biographical information Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	Literaturverz. S. 205 - 213
Beschreibung:	XXVIII, 219 S. Ill., graph. Darst.
ISBN:	9780898716405

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adam_text	Contents List of Figures xiii List of Tables xv List of Notation xvii Preface xxvii 1 Introduction 1 1.1 Petroleum Reservoir Simulation ..................... 1 1.2 Classical Reservoir Engineering Methods ................ 1 1.2.1 Material Balance Methods ................. 1 1.2.2 Decline Curve Methods .................. 2 1.2.3 Statistical Methods ..................... 2 1.2.4 Analytical Methods .................... 2 1.3 Reservoir Simulation Methods ..................... 3 1.3.1 Reservoir Simulation Stages ................ 3 1.3.2 Reservoir Simulator Classifications ............ 4 1.3.3 Reservoir Simulation Applications ............ 4 1.4 SI Metric Conversion Factors ...................... 6 2 A Glossary of Petroleum Terms 7 2.1 Reservoir Rock Properties ........................ 7 2.2 Reservoir Fluid Properties ........................ 9 2.3 Wettability ................................ 12 2.4 Fluid Displacement Processes ...................... 13 2.5 Reservoir Rock/Fluid Properties ..................... 13 2.5.1 Two-Phase Relative Permeability ............. 15 2.5.2 Three-Phase Relative Permeability ............ 17 2.6 Terms Used in Numerical Simulation .................. 20 3 Single-Phase Flow and Numerical Solution 23 3.1 Basic Differential Equations ....................... 23 3.1.1 Mass Conservation ..................... 23 3.1.2 Darcy sLaw ........................ 25 ix Contents 3.1.3 Units ............................ 26 3.1.4 Different Forms of Flow Equations ............ 26 3.2 An Analytic Solution ........................... 31 3.3 Finite Difference Methods ........................ 34 3.3.1 First Difference Quotients ................. 34 3.3.2 Second Difference Quotients ............... 36 3.3.3 Grid Systems ........................ 38 3.3.4 Treatment of Boundary Conditions ............ 39 3.3.5 Finite Differences for Stationary Problems ........ 41 3.3.6 Finite Differences for Parabolic Problems ......... 42 3.3.7 Consistency, Stability, and Convergence ......... 44 3.3.8 Finite Differences for Hyperbolic Problems ........ 48 3.4 Numerical Solution of Single-Phase Flow ............... 51 3.4.1 Treatment of Initial Conditions .............. 52 3.4.2 Time Discretization .................... 52 3.4.3 Spatial Discretization ................... 53 3.4.4 Treatment of Block Transmissibility ............ 53 3.4.5 Solution Approaches in Time ............... 56 3.4.6 Material Balance Analysis ................. 63 Weil Modeling 67 4.1 Introduction ............................... 67 4.2 Analytical Formulas ........................... 68 4.3 Single-Layer Well Models ........................ 69 4.3.1 Square Grids ........................ 69 4.3.2 Extensions ......................... 71 4.4 Multilayer Well Models ......................... 74 4.5 Coupling of Flow and Well Equations .................. 75 4.6 Coupling ofWellbore-Hydraulics and Reservoir Models ........ 78 4.6.1 Single-Phase Flow ..................... 78 4.6.2 Multiphase Flow ...................... 79 Two-Phase Flow and Numerical Solution 83 5.1 Basic Differential Equations ....................... 83 5.1.1 Mass Conservation ..................... 83 5.1.2 Darcy sLaw ........................ 84 5.1.3 Alternative Differential Equations ............. 85 5.1.4 Boundary Conditions ................... 89 5.2 An Analytic Solution ........................... 91 5.2.1 Analytic Solution Before Water Breakthrough ...... 91 5.2.2 Analytic Solution at the Water Front ............ 92 5.2.3 Analytic Solution After Water Breakthrough ....... 93 5.3 Numerical Solution of Two-Phase Flow ................. 94 5.3.1 Treatment of Initial Conditions .............. 95 5.3.2 Source/Sink Terms ..................... 95 5.3.3 Spatial Discretization ................... 96 Contents x¡ 5.3.4 Treatment of Block Transmissibility............ 97 5.3.5 Solution Approaches in Time ............... 99 6 The Black Oil Model and Numerical Solution 103 6.1 Basic Differential Equations ....................... 103 6.1.1 Mass Conservation and Darcy s Law ........... 103 6.1.2 Rock/Fluid Properties ................... 106 6.1.3 Fluid Properties ...................... 107 6.1.4 Phase States ........................ 108 6.2 Numerical Solution of the Black Oil Model ............... 109 6.2.1 Treatment of Initial Conditions .............. 110 6.2.2 Simultaneous Solution Techniques ............ 112 6.2.3 Sequential Solution Techniques .............. 120 6.2.4 Iterative IMPES Solution Techniques ........... 124 6.2.5 Adaptive Implicit Techniques ............... 127 6.2.6 Well Coupling ....................... 128 7 Transport of Multicomponents in a Fluid and Numerical Solution 131 7.1 Basic Differential Equations ....................... 132 7.2 Computation of Fluid Viscosity ..................... 133 7.3 Equations of State ............................ 134 7.4 Diffusion, Dispersion, and Tortuosity .................. 136 7.4.1 Fick sLaw ......................... 136 7.4.2 Impact of Tortuosity on Diffusion ............. 137 7.4.3 Soret Effects and Gravity Segregation ........... 146 7.4.4 Isothermal Gravity/Chemical Equilibrium ........ 147 7.5 Numerical Solution ........................... 148 7.5.1 A Model Problem ..................... 148 7.5.2 Finite Difference Equations ................ 148 7.6 Nonisothermal Flow ........................... 151 7.7 Examples ................................. 152 7.7.1 Forced Convection ..................... 152 7.7.2 Forced Convection Plus Dispersion ............ 154 8 Compositional Flow and Numerical Solution 157 8.1 Basic Differential Equations ....................... 157 8.1.1 Mass Conservation and Darcy s Law ........... 157 8.1.2 Equations of State ..................... 159 8.2 Numerical Solution of Compositional Flow ............... 161 8.2.1 Choice of Primary Variables ................ 162 8.2.2 Finite Difference Equations ................ 164 8.3 Solution of Equilibrium Relations .................... 170 8.3.1 Successive Substitution Method .............. 170 8.3.2 Newton-Raphson Flash Calculation ............ 171 8.3.3 Derivatives of Fugacity Coefficients ........... 172 8.3.4 Solution of the PR Cubic Equation ............ 173 xü Contents 8.3.5 Practical Considerations ..................175 9 Nonisothermal Flow and Numerical Solution 177 9.1 Basic Differential Equations .......................178 9.1.1 Mass Conservation and Darcy s Law ...........178 9.1.2 Energy Conservation ....................179 9.1.3 Rock Properties ......................180 9.1.4 Fluid Properties ......................181 9.2 Numerical Solution of Nonisothermal Flow ...............182 9.2.1 Choice of Primary Variables ................183 9.2.2 Finite Difference Equations ................184 10 Practical Topics in Reservoir Simulation 193 10.1 Design of Study Objectives .......................193 10.2 Analysis of Reservoir Data .......................195 10.2.1 Geophysical Data .....................196 10.2.2 Geological Data ......................197 10.2.3 Engineering Data .....................197 10.3 Development of Simulation Models ...................198 10.3.1 Model Selection ......................198 10.3.2 Grid Selection .......................200 10.4 History Matching ............................203 10.5 Prediction of Reservoir Performance ..................204 Bibliography 205 Index 215
adam_txt	Contents List of Figures xiii List of Tables xv List of Notation xvii Preface xxvii 1 Introduction 1 1.1 Petroleum Reservoir Simulation . 1 1.2 Classical Reservoir Engineering Methods . 1 1.2.1 Material Balance Methods . 1 1.2.2 Decline Curve Methods . 2 1.2.3 Statistical Methods . 2 1.2.4 Analytical Methods . 2 1.3 Reservoir Simulation Methods . 3 1.3.1 Reservoir Simulation Stages . 3 1.3.2 Reservoir Simulator Classifications . 4 1.3.3 Reservoir Simulation Applications . 4 1.4 SI Metric Conversion Factors . 6 2 A Glossary of Petroleum Terms 7 2.1 Reservoir Rock Properties . 7 2.2 Reservoir Fluid Properties . 9 2.3 Wettability . 12 2.4 Fluid Displacement Processes . 13 2.5 Reservoir Rock/Fluid Properties . 13 2.5.1 Two-Phase Relative Permeability . 15 2.5.2 Three-Phase Relative Permeability . 17 2.6 Terms Used in Numerical Simulation . 20 3 Single-Phase Flow and Numerical Solution 23 3.1 Basic Differential Equations . 23 3.1.1 Mass Conservation . 23 3.1.2 Darcy'sLaw . 25 ix Contents 3.1.3 Units . 26 3.1.4 Different Forms of Flow Equations . 26 3.2 An Analytic Solution . 31 3.3 Finite Difference Methods . 34 3.3.1 First Difference Quotients . 34 3.3.2 Second Difference Quotients . 36 3.3.3 Grid Systems . 38 3.3.4 Treatment of Boundary Conditions . 39 3.3.5 Finite Differences for Stationary Problems . 41 3.3.6 Finite Differences for Parabolic Problems . 42 3.3.7 Consistency, Stability, and Convergence . 44 3.3.8 Finite Differences for Hyperbolic Problems . 48 3.4 Numerical Solution of Single-Phase Flow . 51 3.4.1 Treatment of Initial Conditions . 52 3.4.2 Time Discretization . 52 3.4.3 Spatial Discretization . 53 3.4.4 Treatment of Block Transmissibility . 53 3.4.5 Solution Approaches in Time . 56 3.4.6 Material Balance Analysis . 63 Weil Modeling 67 4.1 Introduction . 67 4.2 Analytical Formulas . 68 4.3 Single-Layer Well Models . 69 4.3.1 Square Grids . 69 4.3.2 Extensions . 71 4.4 Multilayer Well Models . 74 4.5 Coupling of Flow and Well Equations . 75 4.6 Coupling ofWellbore-Hydraulics and Reservoir Models . 78 4.6.1 Single-Phase Flow . 78 4.6.2 Multiphase Flow . 79 Two-Phase Flow and Numerical Solution 83 5.1 Basic Differential Equations . 83 5.1.1 Mass Conservation . 83 5.1.2 Darcy'sLaw . 84 5.1.3 Alternative Differential Equations . 85 5.1.4 Boundary Conditions . 89 5.2 An Analytic Solution . 91 5.2.1 Analytic Solution Before Water Breakthrough . 91 5.2.2 Analytic Solution at the Water Front . 92 5.2.3 Analytic Solution After Water Breakthrough . 93 5.3 Numerical Solution of Two-Phase Flow . 94 5.3.1 Treatment of Initial Conditions . 95 5.3.2 Source/Sink Terms . 95 5.3.3 Spatial Discretization . 96 Contents x¡ 5.3.4 Treatment of Block Transmissibility. 97 5.3.5 Solution Approaches in Time . 99 6 The Black Oil Model and Numerical Solution 103 6.1 Basic Differential Equations . 103 6.1.1 Mass Conservation and Darcy's Law . 103 6.1.2 Rock/Fluid Properties . 106 6.1.3 Fluid Properties . 107 6.1.4 Phase States . 108 6.2 Numerical Solution of the Black Oil Model . 109 6.2.1 Treatment of Initial Conditions . 110 6.2.2 Simultaneous Solution Techniques . 112 6.2.3 Sequential Solution Techniques . 120 6.2.4 Iterative IMPES Solution Techniques . 124 6.2.5 Adaptive Implicit Techniques . 127 6.2.6 Well Coupling . 128 7 Transport of Multicomponents in a Fluid and Numerical Solution 131 7.1 Basic Differential Equations . 132 7.2 Computation of Fluid Viscosity . 133 7.3 Equations of State . 134 7.4 Diffusion, Dispersion, and Tortuosity . 136 7.4.1 Fick'sLaw . 136 7.4.2 Impact of Tortuosity on Diffusion . 137 7.4.3 Soret Effects and Gravity Segregation . 146 7.4.4 Isothermal Gravity/Chemical Equilibrium . 147 7.5 Numerical Solution . 148 7.5.1 A Model Problem . 148 7.5.2 Finite Difference Equations . 148 7.6 Nonisothermal Flow . 151 7.7 Examples . 152 7.7.1 Forced Convection . 152 7.7.2 Forced Convection Plus Dispersion . 154 8 Compositional Flow and Numerical Solution 157 8.1 Basic Differential Equations . 157 8.1.1 Mass Conservation and Darcy's Law . 157 8.1.2 Equations of State . 159 8.2 Numerical Solution of Compositional Flow . 161 8.2.1 Choice of Primary Variables . 162 8.2.2 Finite Difference Equations . 164 8.3 Solution of Equilibrium Relations . 170 8.3.1 Successive Substitution Method . 170 8.3.2 Newton-Raphson Flash Calculation . 171 8.3.3 Derivatives of Fugacity Coefficients . 172 8.3.4 Solution of the PR Cubic Equation . 173 xü Contents 8.3.5 Practical Considerations .175 9 Nonisothermal Flow and Numerical Solution 177 9.1 Basic Differential Equations .178 9.1.1 Mass Conservation and Darcy's Law .178 9.1.2 Energy Conservation .179 9.1.3 Rock Properties .180 9.1.4 Fluid Properties .181 9.2 Numerical Solution of Nonisothermal Flow .182 9.2.1 Choice of Primary Variables .183 9.2.2 Finite Difference Equations .184 10 Practical Topics in Reservoir Simulation 193 10.1 Design of Study Objectives .193 10.2 Analysis of Reservoir Data .195 10.2.1 Geophysical Data .196 10.2.2 Geological Data .197 10.2.3 Engineering Data .197 10.3 Development of Simulation Models .198 10.3.1 Model Selection .198 10.3.2 Grid Selection .200 10.4 History Matching .203 10.5 Prediction of Reservoir Performance .204 Bibliography 205 Index 215
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series	CBMS-NSF regional conference series in applied mathematics
series2	CBMS-NSF regional conference series in applied mathematics
spelling	Chen, Zhangxin Verfasser aut Reservoir simulation mathematical techniques in oil recovery Zhangxin Chen Philadelphia, PA SIAM, Soc. for Industrial and Applied Mathematics 2007 XXVIII, 219 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier CBMS-NSF regional conference series in applied mathematics 77 Literaturverz. S. 205 - 213 Mecânica dos fluídos computacional larpcal Modelos matemáticos larpcal Simulação (métodos) larpcal Mathematisches Modell Oil reservoir engineering Mathematical models Oil reservoir engineering Simulation methods Porous materials Permeability Mathematical models Transport theory Mathematical models Erdöllagerstätte (DE-588)4125182-9 gnd rswk-swf Erdölgewinnung (DE-588)4139144-5 gnd rswk-swf Simulation (DE-588)4055072-2 gnd rswk-swf Mathematisches Modell (DE-588)4114528-8 gnd rswk-swf Erdöllagerstätte (DE-588)4125182-9 s Erdölgewinnung (DE-588)4139144-5 s Simulation (DE-588)4055072-2 s Mathematisches Modell (DE-588)4114528-8 s DE-604 CBMS-NSF regional conference series in applied mathematics 77 (DE-604)BV000016696 77 http://www.loc.gov/catdir/enhancements/fy0805/2007061749-b.html Contributor biographical information http://www.loc.gov/catdir/enhancements/fy0805/2007061749-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy0805/2007061749-t.html Table of contents only Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016462953&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Chen, Zhangxin Reservoir simulation mathematical techniques in oil recovery CBMS-NSF regional conference series in applied mathematics Mecânica dos fluídos computacional larpcal Modelos matemáticos larpcal Simulação (métodos) larpcal Mathematisches Modell Oil reservoir engineering Mathematical models Oil reservoir engineering Simulation methods Porous materials Permeability Mathematical models Transport theory Mathematical models Erdöllagerstätte (DE-588)4125182-9 gnd Erdölgewinnung (DE-588)4139144-5 gnd Simulation (DE-588)4055072-2 gnd Mathematisches Modell (DE-588)4114528-8 gnd
subject_GND	(DE-588)4125182-9 (DE-588)4139144-5 (DE-588)4055072-2 (DE-588)4114528-8
title	Reservoir simulation mathematical techniques in oil recovery
title_auth	Reservoir simulation mathematical techniques in oil recovery
title_exact_search	Reservoir simulation mathematical techniques in oil recovery
title_exact_search_txtP	Reservoir simulation mathematical techniques in oil recovery
title_full	Reservoir simulation mathematical techniques in oil recovery Zhangxin Chen
title_fullStr	Reservoir simulation mathematical techniques in oil recovery Zhangxin Chen
title_full_unstemmed	Reservoir simulation mathematical techniques in oil recovery Zhangxin Chen
title_short	Reservoir simulation
title_sort	reservoir simulation mathematical techniques in oil recovery
title_sub	mathematical techniques in oil recovery
topic	Mecânica dos fluídos computacional larpcal Modelos matemáticos larpcal Simulação (métodos) larpcal Mathematisches Modell Oil reservoir engineering Mathematical models Oil reservoir engineering Simulation methods Porous materials Permeability Mathematical models Transport theory Mathematical models Erdöllagerstätte (DE-588)4125182-9 gnd Erdölgewinnung (DE-588)4139144-5 gnd Simulation (DE-588)4055072-2 gnd Mathematisches Modell (DE-588)4114528-8 gnd
topic_facet	Mecânica dos fluídos computacional Modelos matemáticos Simulação (métodos) Mathematisches Modell Oil reservoir engineering Mathematical models Oil reservoir engineering Simulation methods Porous materials Permeability Mathematical models Transport theory Mathematical models Erdöllagerstätte Erdölgewinnung Simulation
url	http://www.loc.gov/catdir/enhancements/fy0805/2007061749-b.html http://www.loc.gov/catdir/enhancements/fy0805/2007061749-d.html http://www.loc.gov/catdir/enhancements/fy0805/2007061749-t.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016462953&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000016696
work_keys_str_mv	AT chenzhangxin reservoirsimulationmathematicaltechniquesinoilrecovery

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