UID:
almafu_9959327120402883
Format:
1 online resource
ISBN:
9781119294481
,
1119294487
,
9781119294535
,
1119294533
,
9781119294498
,
1119294495
,
9781523115679
,
152311567X
Content:
Petroleum and natural gas still remain the single biggest resource for energy on earth. Even as alternative and renewable sources are developed, petroleum and natural gas continue to be, by far, the most used and, if engineering properly, the most cost-effective and efficient, source of energy on the planet. Contrary to some beliefs, the industry can, in fact, be sustainable, from an environmental, economic, and resource perspective. Petroleum and natural gas are, after all, natural sources of energy and do not have to be treated as pariahs. This groundbreaking new text describes hydrocarbons in basement formations, how they can be characterized and engineered, and how they can be engineered properly, to best achieve sustainability. Covering the basic theories and the underlying scientific concepts, the authors then go on to explain the best practices and new technologies and processes for utilizing basement formations for the petroleum and natural gas industries. Covering all of the hottest issues in the industry, from oil shale, tar sands, and hydraulic fracturing, this book is a must-have for any engineer working in the industry. This textbook is an excellent resource for petroleum engineering students, reservoir engineers, supervisors & managers, researchers and environmental engineers for planning every aspect of rig operations in the most sustainable, environmentally responsible manner, using the most up-to-date technological advancements in equipment and processes.
Note:
Cover; Title Page; Copyright Page; Dedication; Contents; Foreword; 1 Introduction; 1.1 Summary; 1.2 Is Sustainable Petroleum Technology Possible?; 1.3 Why is it Important to Know the Origin of Petroleum?; 1.4 What is the Likelihood of an Organic Source?; 1.5 What is the Implication of the Abiogenic Theory of Hydrocarbon?; 1.6 How Important are the Fractures for Basement Reservoirs?; 1.7 What are we Missing Out?; 1.8 Predicting the Future?; 1.9 What is the Actual Potential of Basement Hydrocarbons?; 2 Organic Origin of Basement Hydrocarbons; 2.0 Introduction; 2.1 Sources of Hydrocarbon.
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2.2 Non-Conventional Sources of Petroleum Fluids2.3 What is a Natural Energy Source?; 2.4 The Science of Water and Petroleum; 2.5 Comparison between Water and Petroleum; 2.6 Combustion and Oxidation; 2.6.1 Petroleum; 2.6.2 Natural Gas; 2.6.3 Natural Gas Hydrates; 2.6.4 Tar Sand Bitumen; 2.6.5 Coal; 2.6.6 Oil Shale; 2.6.7 Wax; 2.6.8 Biomass; 3 Non-organic Origin of Basement Hydrocarbons; 3.0 Introduction; 3.1 Theories of Non-organic Origin of Basement Petroleum; 3.2 Formation of Magma; 3.2.1 Magma Escape Routes; 3.2.2 Magma Chamber; 3.2.3 Types of Magma; 3.2.3.1 Mafic Magma.
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3.2.3.2 Intermediate Magma3.2.3.3 Felsic Magma; 3.3 The Composition of Magma; 3.4 The Dynamics of Magma; 3.5 Water in the Mantle; 3.6 The Carbon Cycle and Hydrocarbon; 3.7 Role of Magma During the Formation of Hydrocarbon from Organic Sources; 3.8 Abiogenic Petroleum Origin Theory; 3.8.1 Diamond as Source of Hydrocarbons; 3.8.2 Oil and Gas Deposits in the Precambrian Crystalline Basement; 3.8.3 Supergiant Oil and Gas Accumulations; 3.8.4 Gas Hydrates â#x80;#x93; the Greatest Source of Abiogenic Petroleum; 4 Characterization of Basement Reservoirs; 4.0 Summary; 4.1 Introduction.
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4.2 Natural and Artificial Fractures4.2.1 Overall in Situ Stress Orientations; 4.3 Developing Reservoir Characterization Tools for Basement Reservoirs; 4.4 Origin of Fractures; 4.5 Seismic Fracture Characterization; 4.5.1 Effects of Fractures on Normal Moveout (NMO) Velocities and P-wave Azimuthal AVO Response; 4.5.2 Effects of Fracture Parameters on Properties of Anisotropic Parameters and P-wave NMO Velocities; 4.6 Reservoir Characterization During Drilling; 4.6.1 Overbalanced Drilling; 4.6.2 Underbalanced Drilling (UBD); 4.7 Reservoir Characterization with Image Log and Core Analysis.
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4.7.1 Geophysical Logs4.7.1.1 Circumferential Borehole Imaging Log (CBIL); 4.7.1.2 Petrophysical Data Analysis using Nuclear Magnetic Resonance (NMR); 4.7.2 Core Analysis; 4.8 Major Forces of Oil and Gas Reservoirs; 4.9 Reservoir Heterogeneity; 4.9.1 Filtering Permeability Data; 4.9.2 Total Volume Estimate; 4.9.3 Estimates of Fracture Properties; 4.10 Special Considerations for Shale; 5 Case Studies of Fractured Basement Reservoirs; 5.0 Summary; 5.1 Introduction; 5.2 Geophysical Tools; 5.2.1 Scale Considerations in Logging Fracture Rocks.
Additional Edition:
Print version: Islam, Rafiqul, 1959- author. Hydrocarbons in basement formations Hoboken, NJ : Wiley, 2018 ISBN 9781119294221
Language:
English
Keywords:
Electronic books.
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Electronic books.
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Electronic books.
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Electronic books.
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Electronic books.
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Electronic books.
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Electronic books.
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119294498
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119294498
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119294498
