"Applied Petroleum Reservoir Engineering" by B.C. Craft and M.F. Hawkins, revised by Ronald E. Terry (Repost)

This edition reflects the advances made in reservoir engineering calculation techniques. Numerous real world examples clarify the material, providing the reservoir engineer with the practical information to make applied calculations. The book is for petroleum engineers, geologists and others working in the development and production of oil and gas fields and those concerned with the movement of ground water.

Contains many field examples.

Contents
Preface
NOMENCLATURE
Chapter 1 Introduction to Reservoir Engineering
1. History of Reservoir Engineering
2. Petroleum Reservoirs and Production from Petroleum Reservoirs
3. Reservoir Types Defined with Reference to Phase Diagrams
4. Review of Rock Properties
S. Review of Gas Properues
6. Review of Crude Oil Properties
7. Review of Reservoir Water Properties
8. Summary
Problems
References
Chapter 2 The General Material Balance Equation
1. Introduction
2. Derivation of Material Balance Equation
3. Uses and Limitations of the Material Balance Method
4. The Haviena and Odeh Method of Applying the Material Balance Equation
References
Chapter 3 Single-Phase Gas Reservoirs
1. Introduction
2. Calculating Gas in Place by the Volumetric Method
3. Cakulation of Unit Recovery from Volumetric Gas Reservoirs
4. Calculation of Unit Recovery from Gas Reservoirs Under Water Drive
5. Material Balance
6. The Gas Equivalent of Produced Condensate and Water
7. Gas Reservoirs as Storage Reservoirst
8. Abnormally Pressured Gas Reservoirs
9. Limitations of Equations and Errors
Problems
References
Chapter 4 Gas-Condensate Reservoirs
1. Introduction
2. Calculation of Initial Gas and Oil
3. The Performance of Volumetric Reservoirs
4. Use of Material Balance
5. Comparison Between the Predicted and Actual Production Histories of Volumetric Reservoirs
6. Lean Gas Cycling and Water Drive
1. Use of Nitrogen for Pressure Maintenance
Problems
References
Chapter 5 Undersaturated Oil Reservoirs
1. Introduction
2. Calculation of Initial Oil in Place by the Volumetric Method and Estimation of Oil Recoveries
3. Material Balance in Undersaturated Reservoirs
4. Kelly-Snyder Field, Canyon Reef Reservoir
5. The Gloyd-Mitchell Zone of the Rodessa Field
6. Calculations Including Formation and Water Compressibilities
Problems
References
Chapter 6 Saturated Oil Reservoirs
1. Introduction
2. Material Balance in Saturated Reservoirs
3. Material Balance as a Straight Line
4. Flash and Differential Gas Liberation
5. The Calculation of Formation Volume Factor and Solution Gas~Oil Ratio from Differential Vaporization and Separator Test
6. Volatile Oil Reservoirs
7. Maximum Efficient Rate (MER)
Problems
References
Chapter 7 Single-Phase Fluid Flow in Reservoirs
1. Introduction
2. Darcy's Law and Permeability
3. The Classification of Reservoir Flow Systems
4. Steady-State Flow Systems
5. Development of the Radial Differential Equation
6. Transient Flow Systems
7. Pseudosteady·State Flow Systems
8. Preductivity Index (PI)
9. Superposition
10. Introduction to Pressure Transient Testing
Problems
References
Chapter 8 Water Influx
1. Introduction
2. Steady-State Models
3. Unsteady State Models
4. Pseudosteady·State Models
Problems
References
Chapter 9 The Displacement of Oil and Gas
1. Introduction
2. Recovery Effidency
3. Immiscible Displacement Processes
4. Introduction to Waterfiooding
5. Introduction to Enhanced Oil Recovery Processes
Problems
References
Chapter 10 History Matching
1. Introduction
2. Development of the Model
3. An Example of a History Match
Problems
References
INDEX