Many leading experts contribute to this follow-up to An Introduction to Reservoir Simulation using MATLAB/GNU Octave: User Guide for the MATLAB Reservoir Simulation Toolbox (MRST). It introduces more advanced functionality that has been recently added to the open-source MRST software. It is however a self-contained introduction to a variety of modern numerical methods for simulating multiphase flow in porous media, with applications to geothermal energy, chemical enhanced oil recovery (EOR), flow in fractured and unconventional reservoirs, and in the unsaturated zone. The reader will learn how to implement new models and algorithms in a robust, efficient manner. A large number of numerical examples are included, all fully equipped with code and data so that the reader can reproduce the results and use them as a starting point for their own work. Like the original textbook, this book will prove invaluable for researchers, professionals and advanced students using reservoir simulation methods. This title is available as Open Access on Cambridge Core.
Edited by:
Knut-Andreas Lie,
Olav Møyner
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Edition: New edition
Dimensions:
Height: 252mm,
Width: 176mm,
Spine: 36mm
Weight: 1.200kg
ISBN: 9781316519967
ISBN 10: 1316519961
Pages: 500
Publication Date: 25 November 2021
Audience:
General/trade
,
ELT Advanced
Format: Hardback
Publisher's Status: Active
Part I: Grid Generation, Discretizations, and Solvers; 1. Unstructured PEBI Grids Conforming to Lower-Dimensional Objects R. L. Berge, Ø. S. Klemetsdal, and K.-A. Lie; 2. Nonlinear Finite-Volume Methods for the Flow Equation in Porous Media M. Al Kobaisi and W. Zhang; 3. Implicit Discontinuous Galerkin Methods for Transport Equations in Porous Media Ø.S. Klemetsdal and K.-A. Lie; 4. Multiscale Pressure Solvers for Stratigraphic and Polytopal Grids K.-A. Lie and O. Møyner; Part II: Rapid Prototyping and Accelerated Computation; 5. Better AD Simulators with Flexible State Functions and Accurate Discretizations O. Møyner; 6. Faster Simulation with Optimized Automatic Differentiation and Compiled Linear Solvers O. Møyner; Part III: Modelling of New Physical Processes; 7. Using State Functions and MRST's AD-OO Framework to Implement Simulators for Chemical EOR X. Sun, K.-A. Lie, and K. Bao; 8. Compositional Simulation with the AD-OO Framework O. Møyner; 9. Embedded Discrete Fracture Models D. Wong, F. Doster, and S. Geiger; 10. Numerical Modelling of Fractured Unconventional Oil and Gas Reservoirs O. Olorode, B. Wang and H. U. Rashid; 11. A Unified Framework for Flow Simulation in Fractured Reservoirs R. March, C. Maier, F. Doster, and S. Geiger; 12. Simulation of Geothermal Systems using MRST M. Collignon, Ø. S. Klemetsdal, and O. Møyner; 13. A Finite Volume-based Module for Unsaturated Poroelasticity J. Varela, S. Gasda, E. Keilegavlen, and J. M. Nordbotten; 14. A Brief Introduction to Poroelasticity and Simulation of Coupled Geomechanics and Flow in MRST O. Andersen; References.
Knut-Andreas Lie is Chief Scientist at SINTEF in Oslo, Norway. Over the last 20 years he has developed commercial and in-house software solutions for the international petroleum industry. He is a founding father of two pieces of open-source community software (MRST and OPM). He is the author of the textbook An Introduction to Reservoir Simulation using MATLAB/GNU Octave: User Guide for the MATLAB Reservoir Simulation Toolbox (MRST). He has authored 170 scientific papers and supervised seventy MSc/PhD students. Knut-Andreas is a Fellow of the Society for Industrial and Applied Mathematics (SIAM), an elected member of the Norwegian Academy of Technological Sciences, and recently served as executive editor of SPE (Society of Petroleum Engineers) Journal. Olav Møyner is a Research Scientist at SINTEF in Oslo, Norway. For the past 10 years, he has been one of the primary developers of the MRST open-source community software. His work on multiscale methods for reservoir simulation won him the 2017 prize from the Dimitris N. Chorafas Foundation for the best PhD thesis at the Norwegian University of Science and Technology (NTNU), Trondheim. In 2019 he was awarded the Early Career Prize from the SIAM Activity Group on Geosciences for his 'elegant and insightful contributions to theory, algorithms, and software for multiscale porous flow simulation, and for his exceptional scholarly productivity and impact on practice'.
