Produktbild: Gas Injection Into Geological Formations and Related Topics

Gas Injection Into Geological Formations and Related Topics

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

21.04.2020

Herausgeber

Alice Wu + weitere

Verlag

Wiley

Seitenzahl

384

Maße (L/B/H)

23,5/15,7/2,5 cm

Gewicht

708 g

Sprache

Englisch

ISBN

978-1-119-59206-8

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

21.04.2020

Herausgeber

Verlag

Wiley

Seitenzahl

384

Maße (L/B/H)

23,5/15,7/2,5 cm

Gewicht

708 g

Sprache

Englisch

ISBN

978-1-119-59206-8

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Gas Injection Into Geological Formations and Related Topics
  • Preface xvii

    1 Modifying Effects of Hydrogen Sulfide When Contemplating Subsurface Injection of Sulfur 1
    Mitchell J. Stashick, Gabriel O. Sofekun and Robert A. Marriott

    1.1 Introduction 2

    1.2 Experimental 3

    1.2.1 Materials 3

    1.2.2 Rheometer 4

    1.3 Results and Discussion 5

    1.4 Conclusions 7

    References 8

    2 Experimental Determination of CO2 Solubility in Brines At High Temperatures and High Pressures and Induced Corrosion of Materials in Geothermal Equipment 9
    Marie Poulain, Jean-Charles Dupin, Hervé Martinez and Pierre Cézac

    2.1 Introduction 9

    2.2 Experimental Section 11

    2.2.1 Chemicals 11

    2.2.2 Test Solutions 11

    2.2.3 Metals 11

    2.2.4 CO2 Solubility Measurements 12

    2.2.5 Material Corrosion Study 13

    2.3 Results and Discussion 15

    2.3.1 CO2 Solubility Measurements 15

    2.3.2 Material Corrosion Study 16

    2.4 Conclusion 19

    2.5 Acknowledgments 19

    References 19

    3 Experimental Study of the Liquid Vapour Equilibrium of the System Water-CO2-O2-NOx Under Pressure at 298 K 21
    Esther Neyrolles, Georgio Bassil, François Contamine, Pierre Cézac and Philippe Arpentinier

    3.1 Introduction 22

    3.2 Literature Review 23

    3.2.1 Carbon Dioxide and Water System 23

    3.2.2 Nitrogen Oxides and Water System 24

    3.2.3 Nitric Oxide Henry Constant at 298 K 25

    3.3 Experimental Section 26

    3.3.1 Chemicals 26

    3.3.2 Apparatus 26

    3.3.3 Operating Procedure 27

    3.3.4 Experimental Analysis 29

    3.3.4.1 Aqueous Analysis 29

    3.3.4.2 Gas Phase Analysis 30

    3.3.5 Estimation of the Concentrations of All the Species in the Aqueous Phase 31

    3.3.6 Uncertainties 32

    3.4 Results and Discussion 33

    3.4.1 Solubility of Carbon Dioxide 33

    3.4.2 Nitrogen Oxides Repartition in the Aqueous Phase 35

    3.4.3 Nitric Oxide Henry Constant at 298 K 37

    3.5 Conclusion 38

    3.6 Acknowledgments 38

    References 38

    4 The Use of IR Spectroscopy to Follow the Absorption of CO2 in Amine Media - Evaluation of the Speciation with Time 41
    E. Brugere, J-M. Andanson and K. Ballerat-Busserolles

    4.1 Introduction 41

    4.2 Materials and Methods 44

    4.2.1 Chemicals 44

    4.2.2 Sample Preparation 44

    4.3 Experimental Device 44

    4.4 Results and Discussion 46

    4.4.1 Kinetic of Absorption 46

    4.4.2 Calibration of Speciation 46

    4.4.2.1 Sample Preparation 46

    4.4.2.2 Spectra and Results 48

    4.4.2.3 Physisorption 49

    4.4.2.4 Full Curve Speciation 51

    4.5 Conclusion 52

    4.6 Acknowledgments 53

    References 53

    5 Solubility of Methane, Nitrogen, Hydrogen Sulfide and Carbon Dioxide in Mixtures of Dimethyl Ethers of Polyethylene Glycol 55
    Alan E. Mather and Kurt A. G. Schmidt

    5.1 Introduction 56

    5.2 Experimental 56

    5.3 Equation of State Development 57

    5.4 EoS Model Results 62

    5.5 Krichevsky-Ilinskaya Equation 67

    5.6 Conclusions 70

    5.7 Nomenclature 71

    References 72

    6 Water Content of Hydrogen Sulfide - A Review 77
    Eugene Grynia and Bogdan Ambröek

    6.1 Introduction 77

    6.2 Literature Review 78

    6.2.1 Wright and Maass (1932) 79

    6.2.2 Selleck et al. (1951, 1952) 82

    6.2.3 Kozintseva (1964) 84

    6.2.4 Clarke and Glew (1971) 88

    6.2.5 Lee and Mather (1977) 89

    6.2.6 Gillespie and Wilson (1982) 92

    6.2.7 Carroll and Mather (1989) 94

    6.2.8 Suleimenov and Krupp (1994) 96

    6.2.9 Chapoy et al. (2005) 97

    6.2.10 Marriott et al. (2012) 100

    6.3 Discussion of the Results 102

    6.4 Conclusions 108

    References 112

    7 Acid Gas Injection at SemCAMS Kaybob Amalgamated (KA) Gas Plant Operational Design Considerations 115
    Rinat Yarmukhametov, James R. Maddocks and Jason Lui

    7.1 Project Drivers 116

    7.2 Process Design Basis 117

    7.2.1 Acid Gas Inlet Design Conditions 117

    7.2.2 Acid Gas Compositions 117

    7.2.3 Acid Gas Compressor Discharge 118

    7.2.3.1 Acid Gas Conditions 118

    7.2.3.2 Acid Gas Composition 118

    7.3 Acid Gas Compression Description 120

    7.4 AGI System Capacity Control 120

    7.5 Project Execution 123

    7.6 Risk Assessment Strategy 125

    7.7 Utilities & Tie-Ins 126

    7.8 Relief System Design 127

    7.8.1 KA Gas Plant Flare System 127

    7.8.2 AGI System Flare System 128

    7.8.3 Evaluation of Existing Plant Blowdowns Concurrent with the AGI Compressors Blowdown 128

    7.8.4 Inherently Safer Design (ISD) Strategies in Pressure Relief System Design for AGI Systems 129

    7.8.5 MDMT Evaluation 131

    7.8.6 Drain Management 132

    7.9 Discussion 133

    7.10 Start-Up 133

    7.11 Conclusions 135

    8 Reciprocating Compressors in Acid Gas Service 137
    Dan Hannon

    8.1 Introduction 138

    8.2 Reactivity 138

    8.3 Safety 138

    8.4 Design 139

    8.5 Materials 140

    8.6 Condensate/Dewpoint 141

    8.7 Compressor Selection 142

    8.8 Conclusion 144

    9 Case Study: Wellbore Thermodynamic Analysis of Erhao Acid Gas Injection Project 145
    Zhu Zhu and Shouxi Wang

    9.1 Introduction 145

    9.2 Erhao Station Process and Injection Basic Data 147

    9.3 Acid Gas Injection Well and Reservoir 148

    9.3.1 Injection Well 148

    9.3.1.1 Basic Data 149

    9.3.1.2 Characteristics 149

    9.3.2 Injection Reservoir 150

    9.4 Thermodynamic Analysis and Injection Pressure 151

    9.4.1 Comprehensive Model 151

    9.4.2 Initial Acid Gas 152

    9.4.3 Compressed and Dehydrated Acid Gas 155

    9.4.4 Comparison of Different Acid Gas Composition 158

    9.4.5 Comparison of Different Wellhead Temperature 158

    9.5 Conclusion 159

    References 159

    10 Selecting CO2 Sinks CCUS Deployment in South Mid-West Kansas 161
    Eugene Holubnyak, Martin Dubois and Jennifer Hollenbach

    10.1 Introduction 161

    10.2 Process for Determining Potential Phase II Sites 165

    10.2.1 Geologic Setting 165

    10.3 Oil Production History and CO2 Enhanced Oil Recovery Potential in the Region 170

    10.4 Estimating CO2 Storage Volume-Building the Static Model 171

    10.4.1 Workflow for Building 3-D Static Model 171

    10.4.2 Well Data 172

    10.4.3 Petrophysics 173

    10.4.4 Three-Dimensional Static Model 174

    10.5 Estimating CO2 Storage Volume-Running the Dynamic Model 175

    10.5.1 Initial Reservoir Conditions and Simulation Constraints 176

    10.5.2 Simulation Results 177

    10.6 Summary/Discussion 179

    References 180

    11 Salt Precipitation at an Active CO2 Injection Site 183
    Stephen Talman, Alireza Rangriz Shokri, Rick Chalaturnyk and Erik Nickel

    11.1 Introduction 184

    11.2 Laboratory and Field Data 186

    11.2.1 Data Sources 186

    11.2.2 Chemical Composition of Formation Water 186

    11.2.3 X-Ray Diffraction Analysis of Recovered Salt Samples 187

    11.2.4 Downhole Video Analysis and Image Sizing 188

    11.2.4.1 Material Fixed to the Wellbore 188

    11.2.4.2 Lowest Reaches of the Well 190

    11.2.4.3 Dislodged Materials 191

    11.3 Implication and Interpretation 193

    11.4 Conclusions and Remarks 196

    11.5 Acknowledgments 198

    References 198

    12 The Development Features and Cost Analysis of CCUS Industry in China 201
    Hao Mingqiang, Hu Yongle, Wang Shiyu and Song Lina

    12.1 Introduction 202

    12.2 Characteristics of CCUS Project 202

    12.2.1 Distribution and Characteristics of CCUS Project 202

    12.2.2 Types and Scales of CCUS Emission Sources 202

    12.2.3 Emission Scales and Composition of COEmission Enterprises in China 204

    12.2.4 Distributions of CO2 Sources in China 204

    12.2.5 Characteristic Comparison Between Projects in China and Abroad 205

    12.3 Industry Patterns & Driving Modes 209

    12.3.1 CCUS Industry Patterns at Home and Aboard 209

    12.3.2 Driving Modes of CCUS Industry 210

    12.4 Composition & Factors of CO2 Source Cost 213

    12.5 Conclusions 215

    References 216

    13 CO2 Movement Monitoring and Verification in a Fractured Mississippian Carbonate Reservoir during EOR at Wellington Field in South Kansas 217
    Yevhen Holubnyak, Eric Mackay, Oleg Ishkov and Willard Watney

    13.1 Introduction 218

    13.2 Wellington Field Faults and Fractures 219

    13.3 EOR Field Operations and Production/Injection History 220

    13.4 Geochemical Monitoring Survey Setup 221

    13.5 Geochemical Monitoring Survey Observations 222

    13.6 Conclusions 225

    13.7 Acknowledgements 225

    13.8 Disclaimer 225

    References 226

    14 Simulation Study On Carbon Dioxide Enhanced Oil Recovery 227
    Maojie Chai and Zhangxin Chen

    14.1 Introduction 227

    14.2 Phase Behavior Study 229

    14.3 Simulation Study 230

    14.3.1 Fluid Sample Properties 230

    14.3.2 Phase Behavior Simulation 230

    14.3.3 Lab Scale Core Flooding Simulation 235

    14.3.4 Sensitivity Analysis of Uncertain Parameters 240

    14.3.5 Updated Relative Permeability Through History Match 241

    14.4 Conclusions 243

    References 243

    15 Blowout Recovery for Acid Gas Injection Wells 245
    Ray Mireault

    15.1 Introduction 246

    15.2 Methodology 247

    15.3 Wellbore Behaviour 247

    15.4 Acid Gas Flammability and Toxicity 249

    15.5 Escape Plume Behaviour 250

    15.6 Blowout Recovery Operations 252

    15.6.1 Initial Reconnaissance 253

    15.6.2 Heavy Equipment for AG Recovery Operations 253

    15.7 Recommendations for Further Investigation 254

    15.7.1 Acid Gas Escape Cloud Modelling 254

    15.7.2 Personnel Training 255

    15.7.3 Development of Recovery Equipment and Procedures 256

    15.8 Acknowledgments 256

    References 257

    16 The Comprehensive Considerations of Leak Detection Solutions for Acid Gas Injection Pipelines 259
    Shouxi Wang, John Carroll, Fan Ye, Lirong Yao, Jianqiang Teng and Haifeng Qiu

    16.1 Introduction 260

    16.2 Flowing and Layout Features, Leak Detection Strategies of the Acid Gas Pipelines 260

    16.3 The Behavior of the Acid Gas Flows with Leakages 261

    16.3.1 Leak Experiments on Liquid Pipeline 261

    16.3.2 Leak Experiments on Gas Pipeline 262

    16.3.3 Summary of Leak Responses 265

    16.4 Specification, Measurement Requirements and Features of the Available Pipeline Leak Detection Methods 267

    16.4.1 Mass Balance (MB) 267

    16.4.2 Pressure Point Analysis (PPA) 268

    16.4.3 Real-Time Model (RTM) 269

    16.4.4 Data Requirements of the CPM Leak Detection Methods 270

    16.4.5 Matrix Features of the Pipeline LDS 271

    16.5 Evaluation of the Erhaolian AGI LDS System 271

    16.5.1 Erhaolian AGI System 271

    16.5.2 Measurement Responses to Different Leak Size and Location 271

    16.5.3 The Performances of CPM Leak Detection Methods 278

    16.6 Conclusion 281

    16.7 Acknowledgments 281

    References 282

    17 Injection of Non-Condensable Gas in SAGD Using Modified Well Configurations - A Simulation Study 283
    Yushuo Zhang and Brij Maini

    17.1 Introduction 284

    17.1.1 Background 284

    17.1.2 Project Objectives 284

    17.2 Relevant Field History 285

    17.2.1 Depositional History 285

    17.3 Reservoir Characterization 285

    17.3.1 Geology Overview 285

    17.3.1.1 Core Analysis 285

    17.3.1.2 Log Analysis 285

    17.3.1.3 Shale Volume Calculations 286

    17.3.1.4 Porosity Calculations 286

    17.3.1.5 Water and Oil Saturation 286

    17.3.2 Permeability Data 287

    17.3.3 PVT Data 287

    17.3.4 Reservoir Values 288

    17.4 Analytical Production Forecast 288

    17.4.1 Butler Model 288

    17.4.2 Reservoir Performance with NCG Co-Injection 291

    17.5 Reservoir Simulation 291

    17.5.1 Geological Model 291

    17.5.2 Reservoir Property 292

    17.5.3 Well Location 292

    17.5.4 Initial Reservoir Simulation Inputs 293

    17.5.5 Relative Permeability Data 293

    17.5.6 Well Operational Parameters 294

    17.5.7 History Match 295

    17.5.7.1 Flowing Boundary Condition 295

    17.5.7.2 Final History Match Results 295

    17.5.8 SAGD Production Forecasts 297

    17.5.8.1 Base Case HZ Well Production with Steam Only (Flowing Boundary) 298

    17.5.8.2 Forecast Results: Production Rate 299

    17.5.8.3 Forecast Results: Steam-to-Oil Ratio 299

    17.5.9 Modified Well Simulation Forecast 299

    17.5.9.1 Modified Well Configuration with Non-Flowing Boundary 299

    17.5.9.2 Perforating Below Top Water Zone 299

    17.5.9.3 Forecast Results: Production Rate 302

    17.5.9.4 Forecast Results: Steam-to-Oil Ratio 302

    17.5.9.5 Steam Chamber Development without NCG 303

    17.5.9.6 Steam Chamber Development with NCG 304

    17.5.9.7 Simulation Sensitivity Analysis in Non-Flowing Boundary 304

    17.5.9.8 Summary of Simulation Results 306

    17.6 Conclusion 306

    References 308

    18 The Study on the Gas Override Phenomenon in Condensate Gas Reservoir 311
    Kun Huang, Weiyao Zhu, Qitao Zhang, Jing Xia and Kai Luo

    18.1 Introduction 311

    18.2 Experimental 312

    18.2.1 Pressure-Volume-Temperature Tests 312

    18.2.2 Pressure-Volume-Temperature Tests Design 313

    18.3 Results and Discussion 313

    18.3.1 Phase Behavior During the Injection Process 313

    18.3.2 The Effect of Mass Transfer on the Phase Behavior 315

    18.3.3 Composition of the Mixture in the Cylinder 317

    18.4 Conclusions 319

    References 319

    19 Study on Characteristics of Water-Gas Flow in Tight Gas Reservoir with High Water Saturation 321
    Qitao Zhang, Weiyao Zhu, Wenchao Liu, Yunqing Shi and Jin Yan

    19.1 Introduction 322

    19.2 Experiments 322

    19.2.1 Materials 322

    19.2.2 Experimental Procedure 323

    19.2.3 Experimental Results and Analysis 324

    19.3 Numerical Simulation for Tight Gas Reservoir with Low Gas Saturation 327

    19.3.1 Model Description 327

    19.3.2 Model Validation 328

    19.3.3 Effect of Threshold Pressure Gradient 329

    19.4 Conclusions 331

    References 331

    20 The Description and Modeling of Gas Override in Condensate Gas Reservoir 333
    Weiyao Zhu, Kun Huang, Yan Sun and Qitao Zhang

    20.1 Introduction 333

    20.2 Mathematical Formulation 335

    20.2.1 Numerical Scheme 337

    20.3 Results and Discussion 337

    20.3.1 The Development and Assessment of Gas Override 337

    20.3.2 Sensitivity Analysis 339

    20.3.2.1 The Influence of Density Difference on Gas Override 340

    20.4 Conclusions 341

    References 342

    21 Research on the Movable Water in the Pores of Tight Sandstone Gas Reservoirs 343
    Guodong Zou, Weiyao Zhu, Wenchao Liu, Yunqing Shi and Jin Yan

    21.1 Introduction 343

    21.2 Experimental 344

    21.2.1 Experimental Equipment 344

    21.2.2 Experimental Procedure 345

    21.3 Results and Discussion 346

    21.3.1 Change of the Saturated Water 346

    21.3.2 Test of the Movable Water 348

    21.4 Conclusion 349

    References 350

    22 Probabilistic Petroleum Portfolio Options Evaluation Model (POEM) 351
    Darryl Burns

    22.1 Project Economic Evaluation Tool (PEET) 351

    22.2 Portfolio Options Evaluation Tool (POET) 352

    22.3 Program Calculation Procedures 352

    22.3.1 General Cash Flow Calculation and Profitability Indicators 352

    22.3.1.1 General Cash Flow Calculation 352

    22.4 General Calculation Steps 353

    Index 361