This book provides a comprehensive overview of the parameters and factors that cause heterogeneity in carbonate reservoirs, and examines how they interact with one another. It explores the various scales of heterogeneity, how they are caused, and how they can be minimized, as well as how the scales affect each other, providing practical examples in each chapter. The book concludes by discussing the effect of heterogeneity on petrophysical evaluations. As reducing heterogeneity is the only way to obtain accurate carbonate reservoir characteristics at the regional scale, the book offers an important reference guide for all geologists, engineers, and modelers working with subsurface data.
The Computed Tomography (CT) scanning of carbonate reservoirs is a non-destructive method used to obtain valuable information from reservoir rocks. This concise book covers all aspects of CT image analysis and their interpretation. It is focused on the CT scanned images and the data gathered from various carbonate reservoirs with different ages, from Paleozoic to Tertiary, and with different textures, degrees of heterogeneity, facies types, diagenetic impacts, fossil contents, sedimentary structures, reservoir quality, and fracturing. Numerous high-resolution images illustrate various aspects of carbonate rock properties and are suitable for analysis by both professionals and students. FEATURES Provides the first specialized book about core CT scanned image descriptions and explanations Contains supplementary data from various sources, such as image logs, cores, and thin section photos and petrophysical measurements Includes original CT images from different reservoirs Covers both research and industrial aspects of core CT scanning and is useful for comparing CT scanned images Uses original images and reservoir data gathered by the author This book can be used by professionals working in the oil and gas industry, researchers and academics studying petroleum-related disciplines, and students taking courses in petroleum geology and reservoir engineering. It can also be used in a range of related sciences, such as sedimentology, soil sciences, paleontology, petrology, engineering geology, study of porous materials, and hydrogeology.
This book offers a compact guide to geological core analysis, covering both theoretical and practical aspects of geological studies of reservoir cores. It equips the reader with the knowledge needed to precisely and accurately analyse cores. The book begins by providing a description of a coring plan, coring, and core sampling and continues with a sample preparation for geological analysis. It then goes on to explain how the samples are named, classified and integrated in order to understand the geological properties that dictate reservoir characteristics. Subsequently, porosity and permeability data derived from routine experiments are combined to define geological rock types and reduce reservoir heterogeneity. Sequence stratigraphy is introduced for reservoir zonation. Core log preparation is also covered, allowing reservoirs to be analysed even more accurately. As the study of core samples is the only way to accurately gauge reservoir properties, this book provides a useful guide for all geologists and engineers working with subsurface samples.
The Computed Tomography (CT) scanning of carbonate reservoirs is a non-destructive method used to obtain valuable information from reservoir rocks. This concise book covers all aspects of CT image analysis and their interpretation. It is focused on the CT scanned images and the data gathered from various carbonate reservoirs with different ages, from Paleozoic to Tertiary, and with different textures, degrees of heterogeneity, facies types, diagenetic impacts, fossil contents, sedimentary structures, reservoir quality, and fracturing. Numerous high-resolution images illustrate various aspects of carbonate rock properties and are suitable for analysis by both professionals and students. FEATURES Provides the first specialized book about core CT scanned image descriptions and explanations Contains supplementary data from various sources, such as image logs, cores, and thin section photos and petrophysical measurements Includes original CT images from different reservoirs Covers both research and industrial aspects of core CT scanning and is useful for comparing CT scanned images Uses original images and reservoir data gathered by the author This book can be used by professionals working in the oil and gas industry, researchers and academics studying petroleum-related disciplines, and students taking courses in petroleum geology and reservoir engineering. It can also be used in a range of related sciences, such as sedimentology, soil sciences, paleontology, petrology, engineering geology, study of porous materials, and hydrogeology.
This book offers a compact guide to geological core analysis, covering both theoretical and practical aspects of geological studies of reservoir cores. It equips the reader with the knowledge needed to precisely and accurately analyse cores. The book begins by providing a description of a coring plan, coring, and core sampling and continues with a sample preparation for geological analysis. It then goes on to explain how the samples are named, classified and integrated in order to understand the geological properties that dictate reservoir characteristics. Subsequently, porosity and permeability data derived from routine experiments are combined to define geological rock types and reduce reservoir heterogeneity. Sequence stratigraphy is introduced for reservoir zonation. Core log preparation is also covered, allowing reservoirs to be analysed even more accurately. As the study of core samples is the only way to accurately gauge reservoir properties, this book provides a useful guide for all geologists and engineers working with subsurface samples.
This book provides a comprehensive overview of the parameters and factors that cause heterogeneity in carbonate reservoirs, and examines how they interact with one another. It explores the various scales of heterogeneity, how they are caused, and how they can be minimized, as well as how the scales affect each other, providing practical examples in each chapter. The book concludes by discussing the effect of heterogeneity on petrophysical evaluations. As reducing heterogeneity is the only way to obtain accurate carbonate reservoir characteristics at the regional scale, the book offers an important reference guide for all geologists, engineers, and modelers working with subsurface data.
In the midst of Europe’s nineteenth-century industrial revolution, four men embarked on separate journeys to the wondrous Farangestan – a land of fascinating objects, mysterious technologies, heavenly women, and magical spaces. Determined to learn the secret of Farangestan’s advancements, the travelers kept detailed records of their observations. These diaries mapped an aspirational path to progress for curious Iranian audiences who were eager to change the course of history. Two hundred years later, Travels in Farangi Space unpacks these writings to reveal a challenging new interpretation of Iran’s experience of modernity. This book opens the Persian travelers’ long-forgotten suitcases, and analyzes the descriptions contained within to gain insight into Occidentalist perspectives on modern Europe. By carefully tracing the physical and mental journeys of these travelers, the book paints a picture of European architecture that is nothing like what one would expect.
Gasoline – the most common petroleum product comes in several types or grades. Straight-run gasoline is generated solely by crude oil distillation. Crack gasoline, derived by thermal or catalytic breaking of heavier oil fractions, accounts for the majority of gasoline used in automobile and aviation. Straight-run gasoline, fractured gasoline, reformed and synthetic gasoline, and additives are used to create a wide range of gasoline kinds.
Wireless Cortical Implantable Systems examines the design for data acquisition and transmission in cortical implants. The first part of the book covers existing system level cortical implants, as well as future devices. The authors discuss the major constraints in terms of microelectronic integrations are presented. The second part of the book focuses on system-level as well as circuit and system level solutions to the development of ultra low-power and low-noise microelectronics for cortical implants. Existing solutions are presented and novel methods and solutions proposed. The third part of the book focuses on the usage of digital impulse radio ultra wide band transmission as an efficient method to transmit cortically neural recorded data at high data rate to the outside world. Original architectural and circuit and system solutions are discussed.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.