Which are the best reservoir geomechanics available in 2018?
We spent many hours on research to finding reservoir geomechanics, reading product features, product specifications for this guide. For those of you who wish to the best reservoir geomechanics, you should not miss this article. reservoir geomechanics coming in a variety of types but also different price range. The following is the top 8 reservoir geomechanics by our suggestions:
1. Reservoir Geomechanics
Description
This interdisciplinary book encompasses the fields of rock mechanics, structural geology and petroleum engineering to address a wide range of geomechanical problems that arise during the exploitation of oil and gas reservoirs. It considers key practical issues such as prediction of pore pressure, estimation of hydrocarbon column heights and fault seal potential, determination of optimally stable well trajectories, casing set points and mud weights, changes in reservoir performance during depletion, and production-induced faulting and subsidence. The book establishes the basic principles involved before introducing practical measurement and experimental techniques to improve recovery and reduce exploitation costs. It illustrates their successful application through case studies taken from oil and gas fields around the world. This book is a practical reference for geoscientists and engineers in the petroleum and geothermal industries, and for research scientists interested in stress measurements and their application to problems of faulting and fluid flow in the crust.2. Reservoir Geomechanics [Paperback] [2010] (Author) Mark D. Zoback
3. Reservoir Geomechanics (10) by Zoback, Mark D [Paperback (2010)]
Description
Reservoir Geomechanics (10) by Zoback, Mark D [Paperback (2010)]4. Geomechanics and Fluidodynamics: With Applications to Reservoir Engineering (Theory and Applications of Transport in Porous Media)
Feature
Used Book in Good ConditionDescription
This monograph is based on subsurface hydrodynamics and applied geomechanics and places them in a unifying framework. It focuses on the understanding of physical and mechanical properties of geomaterials by presenting mathematical models of deformation and fracture with related experiments.
5. Geomechanics, Fluid Dynamics and Well Testing, Applied to Naturally Fractured Carbonate Reservoirs: Extreme Naturally Fractured Reservoirs (Springer Theses)
Description
This thesis presents an important step towards a deeper understanding of naturally fractured carbonate reservoirs (NFCRs). It demonstrates the various kinds of discontinuities using geological evidence, mathematical kinematics model and computed tomography and uses this as a basis for proposing a new classification for NFCRs. Additionally, this study takes advantage of rock mechanics theory to illustrate how natural fractures can collapse due to fluid flow and pressure changes in the fractured media.
The explanations and mathematical modeling developed in this dissertation can be used as diagnostic tools to predict fluid velocity, fluid flow, tectonic fracture collapse, pressure behavior during reservoir depleting, considering stress-sensitive and non-stress-sensitive, with nonlinear terms in the diffusivity equation applied to NFCRs. Furthermore, the book presents the description of real reservoirs with their field data as the principal goal in the mathematical description of the realistic phenomenology of NFCRs.6. Reservoir Geomechanics by Mark D. Zoback (2010-05-17)
7. Rock Physics & Geomechanics in the Study of Reservoir & Repositories - Special Publication no 284 (The Geological Society of London)
Description
The study of reservoir and repository performance requires the integration of many different fields in Earth sciences, among them rock physics and geomechanics. The aim of this book is to emphasize how rock physics and geomechanics help to get a better insight into important issues linked to reservoir management for exploitation of natural resources, and to repository safety assessment for hazardous waste storage in geological environment. The studies presented here deal with the hydromechanical coupling in fractured rocks, the key experiments in safety assessment of repositories, the development of damaged zones during excavation in a shaley formation, the influence of temperature on the properties of shales, the poroelastic response of sandstones, the development and propagation of compaction bands in reservoir rocks, imaging techniques of geomaterials, the characterization and modelling of reservoirs using 4D seismic data, the mechanical behaviour of fractured rock masses, the petrophysical properties of fault zones, models for rock deformation by pressure solution and the elastic anisotropy in cracked rocks.Also available:
The Relationship between Damage and Localization - ISBN 1862392366
Fractured Reservoirs - ISBN 1862392137
FLUID FLOW AND SOLUTE MOVEMENT IN SANDSTONES - ISBN 1862392048
The Geological Society of London
Founded in 1807, the Geological Society of London is the oldest geological society in the world, and one of the largest publishers in the Earth sciences.
The Society publishes a wide range of high-quality peer-reviewed titles for academics and professionals working in the geosciences, and enjoys an enviable international reputation for the quality of its work.
The many areas in which we publish in include:
-Petroleum geology
-Tectonics, structural geology and geodynamics
-Stratigraphy, sedimentology and paleontology
-Volcanology, magmatic studies and geochemistry
-Remote sensing
-History of geology
-Regional geology guides
8. Erosion in Geomechanics Applied to Dams and Levees
Description
Erosion is the most common cause of failures at earth-dams,dikes and levees, whether through overtopping and overflowing, orinternal erosion and piping. This book is dedicated to thephenomenon of internal erosion and piping. It is not intended to beexhaustive on the subject, but brings together some of the latestinternational research and advances. Emphasis is placed on physicalprocesses, how they can be studied in the laboratory, and how testresults can be applied to levees and dams. The results from severalresearch projects in Australia, France, the Netherlands and theUnited States are covered by the authors. Our aim has been to shareour most recent findings with students, researchers andpractitioners. Understanding the failure of an earth-dam or a leveeby erosion in a unified framework, whether internal erosion orsurface erosion, requires continuous research in this field. Wehope that the reader will gain knowledge from this book that leadsto further progress in the challenging field of the safety oflevees and dams.
Contents
1. State of The Art on the Likelihood of Internal Erosion ofDams and Levees by Means of Testing, Robin Fell and Jean-JacquesFry.
2. Contact Erosion, Pierre Philippe, Rmi Beguin andYves-Henri Faure.
3. Backward Erosion Piping, Vera Van Beek, Adam Bezuijen and HansSellmeijer.
4. Concentrated Leak Erosion, Stphane Bonelli, Robin Fell andNadia Benahmed.
5. Relationship between the Erosion Properties of Soils and OtherParameters, Robin Fell, Gregory Hanson, Gontran Herrier, DidierMarot and Tony Wahl.
About the Authors
Stphane Bonelli is a Research Professor at Irstea (FrenchEnvironmental Sciences and Technologies Research Institute) inAix-en-Provence, France. He has over 20 years of teaching andresearch experience, and has been a member of the ICOLD(International Commission on Large Dams) European Working Group onInternal Erosion since 2005. He has participated in 19 large damreviews in France (visual inspection, monitoring data analysis andnumerical modeling). His current activities include research,teaching and consultancy, focusing on soil erosion and theprocesses of levee breach.
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