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Informationen zum Autor M. R. Islam is Professor of Petroleum Engineering at the Civil and Resource Engineering Department of Dalhousie University, Canada. He has over 700 publications to his credit, including 6 books. He is on the editorial boards of several scholarly journals, and, in addition to his teaching duties, he is also director of Emertec Research and Development Ltd. and has been on the boards of a number of companies in North America and overseas./p> Dr. S. Hossein Mousavizadegan is currently on the faculty of marine technology at the Amirkabir University of Technology in Tehran as an assistant professor, specializing in mathematical and numerical modeling of fluid dynamics. Dr. Shabbir Mustafiz is a research engineer with the Alberta Research Council in Edmonton, Canada. Shabbir has published over 25 journal papers and has a Ph.D. in Civil Engineering, on the topic of petroleum reservoir simulation, from Dalhousie University and he is the current SPE Scholarship Chair for the Edmonton Section. Jamal H. Abou-Kassem is Professor of Petroleum Engineering at the UAE U. in the United Arab Emirates, where he has taught since 1993. Abou-Kassem is a coauthor of two textbooks on reservoir simulation and an author or coauthor of numerous technical articles in the areas of reservoir simulation and other petroleum and natural gas-related topics. Klappentext This second edition of the original volume adds significant new innovations for revolutionizing the processes and methods used in petroleum reservoir simulations. With the advent of shale drilling, hydraulic fracturing, and underbalanced drilling has come a virtual renaissance of scientific methodologies in the oil and gas industry. New ways of thinking are being pioneered, and Dr. Islam and his team have, for years now, been at the forefront of these important changes. This book clarifies the underlying mathematics and physics behind reservoir simulation and makes it easy to have a range of simulation results along with their respective probability. This makes the risk analysis based on knowledge rather than guess work. The book offers by far the strongest tool for engineers and managers to back up reservoir simulation predictions with real science. The book adds transparency and ease to the process of reservoir simulation in way never witnessed before. Finally, No other book provides readers complete access to the 3D, 3-phase reservoir simulation software that is available with this text. A must-have for any reservoir engineer or petroleum engineer working upstream, whether in exploration, drilling, or production, this text is also a valuable textbook for advanced students and graduate students in petroleum or chemical engineering departments. Inhaltsverzeichnis Preface xv 1 Introduction 1 1.1 Summary 1 1.2 Opening Remarks 2 1.3 The Need for a Knowledge-Based Approach 2 1.4 Summary of Chapters 5 2 Reservoir Simulation Background 7 2.1 Essence of Reservoir Simulation 8 2.2 Assumptions Behind Various Modeling Approaches 10 2.2.1 Material Balance Equation 11 2.2.2 Decline Curve 12 2.2.3 Statistical Method 13 2.2.4 Analytical Methods 15 2.2.5 Finite-Difference Methods 16 2.2.6 Darcy's Law 19 2.3 Recent Advances in Reservoir Simulation 19 2.3.1 Speed and Accuracy 19 2.3.2 New Fluid-Flow Equations 21 2.3.3 Coupled Fluid Flow and Geo-Mechanical Stress Model 26 2.3.4 Fluid-Flow Modeling Under Thermal Stress 29 2.4 Memory Models 31 2.4.1 Thermal Hysteresis 32 2.4.2 Mathematical and Numerical Models 32 2.5 Future Challenges in Reservoir Simulation 33 2.5.1 Experimental Challenges 33 2.5.2 Numerical Challenges 35 2.5.2.1 Theory of Onset and Propagation of Fractures...
