Applied Petroleum Reservoir Engineering Craft Hawkins Pdf
Introduction
Applied Petroleum Reservoir Engineering is a comprehensive guide to the principles and practices of petroleum reservoir engineering. The book is written by Ronald E. Terry and J. Brandon Rogers, and edited by Richard E. Hawkins and Robert F. Craig. The book is widely used by petroleum engineering students, reservoir engineers, and geologists.
Overview of the Book
The book is divided into 12 chapters, covering topics such as reservoir fluid properties, reservoir rock properties, fluid flow in porous media, well performance, and reservoir simulation. The book also includes case studies and examples to help readers understand the concepts better.
Chapter 1: Reservoir Fluid Properties
The first chapter of the book introduces readers to the properties of reservoir fluids, such as oil, gas, and water. The chapter covers topics such as phase behavior, PVT analysis, and fluid sampling and analysis.
Chapter 2: Reservoir Rock Properties
The second chapter of the book covers the properties of reservoir rocks, such as porosity, permeability, and capillary pressure. The chapter also covers topics such as core analysis and well logging.
Chapter 3: Fluid Flow in Porous Media
The third chapter of the book covers fluid flow in porous media, including Darcy's law, fluid displacement, and relative permeability. The chapter also covers topics such as well testing and pressure transient analysis.
Chapter 4: Well Performance
The fourth chapter of the book covers well performance, including inflow performance, outflow performance, and well deliverability. The chapter also covers topics such as well completion and well stimulation.
Chapter 5: Reservoir Simulation
The fifth chapter of the book covers reservoir simulation, including numerical methods, grid design, and history matching. The chapter also covers topics such as uncertainty analysis and optimization.
Chapter 6: Reservoir Drive Mechanisms
The sixth chapter of the book covers reservoir drive mechanisms, including depletion drive, water drive, gas drive, and combination drive. The chapter also covers topics such as enhanced oil recovery.
Chapter 7: Reservoir Management
The seventh chapter of the book covers reservoir management, including reservoir surveillance, reservoir monitoring, and reservoir optimization. The chapter also covers topics such as field development planning and production forecasting.
Chapter 8: Petroleum Economics
The eighth chapter of the book covers petroleum economics, including cash flow analysis, profitability analysis, and risk analysis. The chapter also covers topics such as investment decision making and project evaluation.
Chapter 9: Reservoir Geology and Geophysics
The ninth chapter of the book covers reservoir geology and geophysics, including geological mapping, seismic interpretation, and reservoir characterization. The chapter also covers topics such as petrophysics and fluid identification.
Chapter 10: Reservoir Production
The tenth chapter of the book covers reservoir production, including artificial lift, well workovers, and production optimization. The chapter also covers topics such as flow assurance and production chemistry.
Chapter 11: Environmental Considerations
The eleventh chapter of the book covers environmental considerations, including environmental regulations, environmental impact assessment, and environmental risk management. The chapter also covers topics such as carbon capture and storage.
Chapter 12: Emerging Technologies
The twelfth chapter of the book covers emerging technologies, including unconventional resources, CO2 flooding, and enhanced oil recovery. The chapter also covers topics such as nanotechnology and intelligent wells.
Conclusion
Applied Petroleum Reservoir Engineering is an essential guide for anyone working in the petroleum industry. The book provides a comprehensive overview of the principles and practices of reservoir engineering, and includes case studies and examples to help readers understand the concepts better. The book is widely used by petroleum engineering students, reservoir engineers, and geologists.
