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Hydrocarbon production, gas recovery from shale, CO2 storage and water management have a common scientific underpinning: multiphase flow in porous media. This book provides a fundamental description of multiphase flow through porous rock, with emphasis on the understanding of displacement processes at the pore, or micron, scale. Fundamental equations and principal concepts using energy, momentum, and mass balance are developed, and the latest developments in high-resolution three-dimensional imaging and associated modelling are explored. The treatment is pedagogical, developing sound physical principles to predict flow and recovery through complex rock structures, while providing a review of the recent literature. This systematic approach makes it an excellent reference for those who are new to the field. Inspired by recent research, and based on courses taught to thousands of students and professionals from around the world, it provides the scientific background necessary for a quantitative assessment of multiphase subsurface flow processes, and is ideal for hydrology and environmental engineering students, as well as professionals in the hydrocarbon, water and carbon storage industries.Read more
- Exercises are included in the book to test the acquired knowledge, with solutions provided for instructors online at www.cambridge.org/blunt
- Develops ideas from the basic equations and principal concepts to build a fundamental understanding of the topic
- Responds to the recent surge of interest in this rapidly growing field due to the latest developments in high-resolution three-dimensional imaging and associated modelling
- The systematic approach provides an excellent reference for students and professionals who are new to the field
Reviews & endorsements
'This brilliant and original textbook integrates the most up-to-date understanding of the physics of fluid transport through porous media with recent advances in digital rock physics. The result provides fresh insight into multiphase fluid flow and transport to benefit students and researchers alike.' Anthony Kovscek, Stanford University, CaliforniaSee more reviews
'This beautifully written and elegantly illustrated book uses the latest theoretical and experimental insights to provide the most comprehensive review of the fundamental physical and chemical processes that occur at the pore-scale during multi-phase flow in permeable media … a much needed contribution that will impact geoscientists and engineers from both academia and industry, for years to come.' Sebastian Geiger, Heriot-Watt University, Edinburgh
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- Date Published: March 2017
- format: Hardback
- isbn: 9781107093461
- length: 500 pages
- dimensions: 253 x 180 x 27 mm
- weight: 1.17kg
- contains: 203 b/w illus. 25 colour illus.
- availability: In stock
Table of Contents
List of symbols
1. Interfacial curvature and contact angle
2. Porous media and fluid displacement
3. Primary drainage
4. Imbibition and trapping
5. Wettability and displacement paths
6. Navier–Stokes equations, Darcy's law and multiphase flow
7. Relative permeability
8. Three-phase flow
9. Solutions to equations for multiphase flow
Appendix A. Exercises
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