Physics of Fluid Flow and Transport in Unconventional Reservoir Rocks

Physics of Fluid Flow and Transport in Unconventional Reservoir Rocks is a comprehensive resource that provides a detailed understanding of fluid flow in hydrocarbon shale and other non-conventional reservoir rocks. It combines engineering, geosciences, and rock physics to explain the underlying theories and models and offers practical applications in the field.

Format: Hardback
Length: 384 pages
Publication date: 17 April 2023
Publisher: John Wiley & Sons Inc

Understanding and predicting fluid flow in hydrocarbon shale and other non-conventional reservoir rocks has become increasingly important as oil and natural gas reservoirs in these rocks have become significant energy sources in North America and East Asia. Extensive research has been conducted in recent decades to unravel the mechanisms of fluid transfer within these complex pore networks, which exist at multiple scales. To continue advancing our knowledge in this critical field, it is essential to stay updated on the latest theoretical and computational developments.

Physics of Fluid Flow and Transport in Unconventional Reservoir Rocks is a comprehensive textbook that caters to both academic and industrial readers interested in exploring this cutting-edge area of rock geology. By adopting a multidisciplinary approach, the book combines an explanation of the underlying theories and models with practical applications in the field.

In the first chapter, the book provides an introduction to digital modeling of rocks, which is a crucial tool in understanding the behavior of these unconventional reservoirs. It covers various techniques, such as finite element modeling and simulation, that allow researchers to create detailed representations of rock structures and simulate fluid flow within them.

The second chapter delves into digital rock physics, a field that plays a vital role in understanding the physical properties of rocks and their impact on fluid flow. It covers topics such as decline curve analysis, non-Darcy flow, and solutions for difficult-to-acquire measurements of key petrophysical characteristics such as shale wettability, effective permeability, stress sensitivity, and sweet spots.

The third chapter focuses on the application of digital rock physics in hydrocarbon exploration. It discusses how digital modeling can be used to identify potential hydrocarbon reserves, optimize well placement, and predict fluid flow behavior in shale and other non-conventional reservoirs. The chapter also highlights the importance of integrating geological and petrophysical data to improve the accuracy of reservoir characterization.

The fourth chapter explores the challenges associated with fluid flow in unconventional reservoirs, such as high permeability, low porosity, and complex geological structures. It discusses the use of advanced imaging techniques, such as seismic imaging and X-ray CT, to better understand the subsurface and optimize well placement.

The fifth chapter discusses the role of fluid flow in shale gas and oil production. It covers topics such as wellbore stability, flow assurance, and production optimization. The chapter also highlights the importance of monitoring and managing fluid flow in these reservoirs to ensure sustainable and efficient energy production.

The sixth chapter focuses on the development of new technologies and methodologies for fluid flow and transport in unconventional reservoirs. It covers topics such as enhanced oil recovery, hydraulic fracturing, and carbon dioxide sequestration. The chapter also discusses the potential benefits and drawbacks of these technologies and the challenges associated with their implementation.

In conclusion, Physics of Fluid Flow and Transport in Unconventional Reservoir Rocks is a valuable resource for academic and industrial researchers in hydrocarbon exploration, fluid flow, and rock physics, as well as professionals in related fields. The book provides a comprehensive and up-to-date understanding of the mechanisms of fluid transfer in these complex reservoirs, combining theoretical knowledge with practical applications. By staying informed on the latest developments in this field, researchers and professionals can contribute to the sustainable development of energy resources and mitigate the environmental impact of oil and gas production.

ISBN-13: 9781119729877