Amsterdam ; ; Boston, : Elsevier/Gulf Professional Pub., c2003

1-281-03505-X

9786611035051

0-08-052372-2

1 online resource (862 p.)

622/.3385/0287

Gas wells - Testing

Inglese

Description based upon print version of record.

Includes bibliographical references (p. 811-825) and index.

Cover; Contents; Foreword; Preface; Acknowledgments; Chapter 1. Introduction; 1.1 Role of Gas Well Tests and Information in Petroleum Engineering; 1.2 History of Gas Well Testing; 1.3 Gas Well Test Data Acquisition, Analysis, and Management; 1.4 Selecting Gas Wells for Optimum Stimulation Treatment; 1.5 Reservoir System Characterization Process; 1.6 Scopes and Objective; 1.7 Organization; 1.8 Unit Systems and Conversions; References and Additional Reading; Chapter 2. Application of Fluid Flow Equations to Gas Systems; 2.1 Introduction; 2.2 Steady-State Laminar Flow

2.3 Steady-State Turbulence Flow2.4 Pseudo-Steady-State (Finite) Flow; 2.5 Unsteady-State (Transient) Flow; 2.6 Gas Radial Diffusivity Equation; 2.7 Basic Gas Flow Equations; 2.8 One-Dimensional Coordinate Systems; 2.9 Radial Gas Flow Equations in Dimensionless Variables and Groups; 2.10 Analytical Solutions of Gas Flow Equations; 2.11 Application of Superposition Techniques; 2.12 Choice of Equation for Gas Flow Testing and Analysis; 2.13 Skin, IT Flow, and Wellbore Storage Effects; 2.14 Numerical Solutions of Partial Differential Equations; 2.15 Summary; References and Additional Reading

Chapter 3. Well Testing Techniques in Horizontal Gas Wells3.1 Introduction; 3.2 Steady-State Gas Flow; 3.3 Pressure Transient Characteristics in Horizontal Gas Wells; 3.4 Pseudo-steady-State Gas Flow; 3.5 Horizontal Transient Well Testing Techniques; 3.6 Problems in Testing Horizontal Wells; 3.7 Horizontal Well Application in Tight Gas

Reservoirs; 3.8 Influence of Turbulence in High-Permeability Gas Wells; 3.9 Turbulence Identification; 3.10 Inflow Performance Responses in Vertical and Horizontal Gas Wells; 3.11 Estimating Reservoir Properties from Production Histories; 3.12 Summary

References and Additional ReadingChapter 4. Deliverability Testing and Well Production Potential Analysis Methods; 4.1 Introduction; 4.2 Gas Flow in Infinite-Acting Reservoirs; 4.3 Stabilized Flow Equations; 4.4 Application of Transient Flow Equations; 4.5 Classifications, Limitations, and Use of Deliverability Tests; 4.6 Flow-Rate, Pressure Behavior, and Deliverability Plots; 4.7 Gas Well Deliverability Testing and Production Potential Analysis; 4.8 Stabilized Deliverability Equation; 4.9 Stabilized Deliverability Relationship Using Graphical Method

4.10 Estimation of Gas Well Deliverability from Short Flow Tests4.11 Predicting Gas Well Deliverability Using Type Curves; 4.12 Estimation of Skin Factors from Well Completion Data; 4.13 Laminar- Inertial Turbulent Flow Analysis; 4.14 Summary; References and Additional Reading; Chapter 5. Fundamentals of Drawdown Test Analysis Methods; 5.1 Introduction; 5.2 Characteristics of Flow and Gas Well Transient Testing; 5.3 Pressure-Time History for Constant-Rate Drawdown Test; 5.4 Characteristics of Various Flow Regimes; 5.5 Pressure-Time Behavior in Gas Wells with Horizontal and Vertical Fractures

5.6 Uses of Pressure Drawdown Tests

This title deals exclusively with theory and practice of gas well testing, pressure transient analysis techniques, and analytical methods required to interpret well behavior in a given reservoir and evaluate reservoir quality, simulation efforts, and forecast producing capacity. A highly practical edition, this book is written for graduate students, reservoir/simulation engineers, technologists, geologists, geophysicists, and technical managers. The author draws from his extensive experience in reservoir/simulation, well testing, PVT analysis basics, and production operations from around the w