Introduction to petroleum engineering [E-Book] / John R. Fanchi, Richard L. Christiansen.
Presents key concepts and terminology for a multidisciplinary range of topics in petroleum engineering -Places oil and gas production in the global energy context -Introduces all of the key concepts that are needed to understand oil and gas production from exploration through abandonment -Reviews fu...
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Full text |
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Personal Name(s): | Fanchi, John R., author |
Christiansen, Richard L., author | |
Edition: |
1st. |
Imprint: |
Hoboken, New Jersey :
Wiley,
2016
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Physical Description: |
1 online resource (352 pages) |
Note: |
englisch |
ISBN: |
9781119193463 1523114959 1119193613 9781119193616 1119193648 9781119193647 9781523114955 111919346X |
Subject (LOC): |
- Copyright Page; Title Page ; Contents; ABOUT THE AUTHORS; PREFACE; ABOUT THE COMPANION WEBSITE; CHAPTER 1 INTRODUCTION; 1.1 WHAT IS PETROLEUM ENGINEERING?; 1.1.1 Alternative Energy Opportunities; 1.1.2 Oil and Gas Units; 1.1.3 Production Performance Ratios; 1.1.4 Classification of Oil and Gas; 1.2 LIFE CYCLE OF A RESERVOIR; 1.3 RESERVOIR MANAGEMENT; 1.3.1 Recovery Efficiency; 1.4 PETROLEUM ECONOMICS; 1.4.1 The Price of Oil; 1.4.2 How Does Oil Price Affect Oil Recovery?; 1.4.3 How High Can Oil Prices Go?; 1.5 PETROLEUM AND THE ENVIRONMENT; 1.5.1 Anthropogenic Climate Change
- 1.5.2 Environmental Issues1.6 ACTIVITIES; 1.6.1 Further Reading; 1.6.2 True/False; 1.6.3,1.1 Exercises; CHAPTER 2 THE FUTURE OF ENERGY; 2.1 GLOBAL OIL AND GAS PRODUCTION AND CONSUMPTION; 2.2 RESOURCES AND RESERVES; 2.2.1 Reserves; 2.3 OIL AND GAS RESOURCES; 2.3.1 Coal Gas; 2.3.2 Gas Hydrates; 2.3.3 Tight Gas Sands, Shale Gas, and Shale Oil; 2.3.4 Tar Sands; 2.4 GLOBAL DISTRIBUTION OF OIL AND GAS RESERVES; 2.5 PEAK OIL; 2.5.1 World Oil Production Rate Peak; 2.5.2 World Per Capita Oil Production Rate Peak; 2.6 FUTURE ENERGY OPTIONS; 2.6.1 Goldilocks Policy for Energy Transition; 2.7 ACTIVITIES
- 2.7.1 Further Reading2.7.2 True/False; 2.7.3 Exercises; CHAPTER 3 PROPERTIES OF RESERVOIR FLUIDS; 3.1 ORIGIN; 3.2 CLASSIFICATION; 3.3 DEFINITIONS; 3.4 GAS PROPERTIES; 3.5 OIL PROPERTIES; 3.6 WATER PROPERTIES; 3.7 SOURCES OF FLUID DATA; 3.7.1 Constant Composition Expansion; 3.7.2 Differential Liberation; 3.7.3 Separator Test; 3.8 APPLICATIONS OF FLUID PROPERTIES; 3.9 ACTIVITIES; 3.9.1 Further Reading; 3.9.2 True/False; 3.9.3 Exercises; CHAPTER 4 PROPERTIES OF RESERVOIR ROCK; 4.1 POROSITY; 4.1.1 Compressibility of Pore Volume; 4.1.2 Saturation; 4.1.3 Volumetric Analysis; 4.2 PERMEABILITY
- 4.2.1 Pressure Dependence of Permeability4.2.2 Superficial Velocity and Interstitial Velocity; 4.2.3 Radial Flow of Liquids; 4.2.4 Radial Flow of Gases; 4.3 RESERVOIR HETEROGENEITY AND PERMEABILITY; 4.3.1 Parallel Configuration; 4.3.2 Series Configuration; 4.3.3 Dykstra-Parsons Coefficient; 4.4 DIRECTIONAL PERMEABILITY; 4.5 ACTIVITIES; 4.5.1 Further Reading; 4.5.2 True/False; 4.5.3 Exercises; CHAPTER 5 MULTIPHASE FLOW; 5.1 INTERFACIAL TENSION, WETTABILITY, AND CAPILLARY PRESSURE; 5.2 FLUID DISTRIBUTION AND CAPILLARY PRESSURE; 5.3 RELATIVE PERMEABILITY; 5.4 MOBILITY AND FRACTIONAL FLOW
- 5.5 ONE-DIMENSIONAL WATER-OIL DISPLACEMENT 5.6 WELL PRODUCTIVITY; 5.7 ACTIVITIES; 5.7.1 Further Reading; 5.7.2 True/False; 5.7.3 Exercises; CHAPTER 6 PETROLEUM GEOLOGY; 6.1 GEOLOGIC HISTORY OF THE EARTH; 6.1.1 Formation of the Rocky Mountains; 6.2 ROCKS AND FORMATIONS; 6.2.1 Formations; 6.3 SEDIMENTARY BASINS AND TRAPS; 6.3.1 Traps; 6.4 WHAT DO YOU NEED TO FORM A HYDROCARBON RESERVOIR?; 6.5 VOLUMETRIC ANALYSIS, RECOVERY FACTOR, AND EUR; 6.5.1 Volumetric Oil in Place; 6.5.2 Volumetric Gas in Place; 6.5.3 Recovery Factor and Estimated Ultimate Recovery; 6.6 ACTIVITIES; 6.6.1 Further Reading