The only book available that leads the petroleum industry toward sustainable Enhanced Oil Recovery (EOR) practices There have been many books on the topic of Enhanced Oil Recovery (EOR) over the last 100 years. They all, however, focus on how to recover more oil faster, taking a rather myopic approach. The solutions presented all work fantastically in theory and even in the laboratory, but each fails to produce results in the field with long-term success. The petroleum industry is almost resigned to the belief that for an EOR technique to be successful, it must be propped up with public funds…mehr
The only book available that leads the petroleum industry toward sustainable Enhanced Oil Recovery (EOR) practices There have been many books on the topic of Enhanced Oil Recovery (EOR) over the last 100 years. They all, however, focus on how to recover more oil faster, taking a rather myopic approach. The solutions presented all work fantastically in theory and even in the laboratory, but each fails to produce results in the field with long-term success. The petroleum industry is almost resigned to the belief that for an EOR technique to be successful, it must be propped up with public funds or must compromise environmental integrity. In line with modern engineering practices, previous books discuss how existing technologies can be tweaked to accommodate for any shortcomings that just came to light. This book is unlike any other book on the topic of recovery in particular and engineering in general. This groundbreaking volume is a continuation of the author's and his research group's work that started publishing on the subject of global sustainability involving energy and the environment, dating back to early 2000s. Starting with a paradigm shift in engineering that involves a long-term focus, rather than looking for short-term solutions, the methods and theories presented here delve into applying green engineering and zero waste principles to EOR. The book reveals how previous practices in EOR can be replaced with their sustainable versions while saving in material costs. A number of innovative technologies are introduced that can render well known technologies, such as steam flood, in situ combustion, chemical flooding, and microbial EOR environmentally sustainable and economically attractive. A triple dividend is received once these technologies are applied in otherwise marginal reservoirs, unconventional plays and even abandoned formations. The overall reserve, which reflects recoverable oil with new technologies, goes up drastically. Further benefits are drawn when processes such as value addition of waste material is performed. Overall, this book shows how EOR can be rendered green while increasing profitability. This is in stark contrast to the past practices that considered environmental integrity as a drain on profitability. This book proves that a paradigm shift can turn a "technological disaster" into a technological marvel. This breakthrough new volume: * Breaks from centuries of engineering practices of deciding on a technology based on economics, then justifying its environmental impact * Introduces an array of technologies that are simultaneously environment-friendly and economically attractive * Critically reviews existing practices and identifies the pivotal departure points in the recent history of engineering from environmental and economic sustainability * Shows how existing know-how in EOR can be properly utilized to initiate practices that are most beneficial to the corporate bottom line while conforming to environmental constraints and regulations, thus changing environmental conformance from a liability to an asset and strength of the corporation * Deconstructs myths that are prevalent and deeply rooted in the industry and reconstructs logical solutionsHinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
M. R. Islam, Ph.D. is known as the most published engineer in the world. He has coined terms such as "green petroleum," "sustainable petroleum development," "economics of intangibles," "zero waste engineering," and others. His work has created a paradigm shift in a wide range of applications, spanning various disciplines.
Inhaltsangabe
Preface xiii 1 Introduction 1 1.1 Opening Remarks 1 1.2 The Prophets of the Doomed Turned Into Scientists 1 1.3 Paradigm Shift in Sustainable Development 2 1.4 Questions Answered in This Book 5 2 Petroleum in the Big Picture 11 2.1 Introduction 11 2.2 Pre-Industrial Revolution Period 12 2.3 Beginning of the Petroleum Culture 36 2.4 The Information Age 46 2.5 The Energy Crisis 52 2.6 Conclusions 67 3 Natural Resources of the Earth 69 3.1 Introduction 69 3.2 Characteristic Time 69 3.3 Organic and Mechanical Frequencies 77 3.4 The Nature of Material Resources 89 3.5 The Science of Water and Petroleum 90 3.6 Nitrogen Cycle: Part of the Water/Nitrogen Duality 138 3.7 Conclusions 175 4 Growth Potential of Petroleum Reservoirs 177 4.1 Introduction 177 4.2 Toward Decarbonization 177 4.3 The Current State of the World of Oil and Gas 181 4.4 World Oil and Gas Reserve 205 4.5 Organic Origin of Petroleum 249 4.6 Scientific Ranking of Petroleum 252 4.7 Reserve Growth Potential of an Oil/Gas Reservoir 264 4.8 Conclusions 318 5 Fundamentals of Reservoir Characterization in View of Enhanced Oil and Gas Recovery 321 5.1 Introduction 321 5.2 Role of Fractures 322 5.3 Natural and Artificial Fractures 328 5.4 Developing Reservoir Characterization Tools for Basement Reservoirs 339 5.5 The Origin of Fractures 346 5.6 Seismic Fracture Characterization 353 5.7 Reservoir Characterization During Drilling 363 5.8 Reservoir Characterization with Image Log and Core Analysis 379 5.9 Major Forces of Oil and Gas Reservoirs 415 5.10 Reservoir Heterogeneity 433 5.11 Special Considerations for Shale 448 5.12 Conclusions 450 6 Future Potential of Enhnced Oil Recovery 451 6.1 Introduction 451 6.2 Background 454 6.3 Types of EOR 461 6.4 Enhanced Oil Recovery in Relation to Oil and Gas Reserve 469 6.5 Current Oil Fields 491 6.6 Need for EOR 516 6.7 Conclusions 522 7 Greening of Enhanced Oil Recovery 525 7.1 Introduction 525 7.2 Carbon Dioxide Injection 528 7.3 Thermal Methods 544 7.4 Chemical Methods 574 7.5 Gas Injection 609 7.6 Recap of Existing EOR Projects 621 7.7 Downhole Refinery 657 7.8 Conclusions 662 8 Toward Achieving Total Sustainability EOR Operations 663 8.1 Introduction 663 8.2 Issues in Petroleum Operations 664 8.3 Critical Evaluation of Current Petroleum Practices 673 8.4 Petroleum Refining and Conventional Catalysts 678 8.5 Current Practices in Exploration, Drilling and Production 689 8.6 Challenges in Waste Management 692 8.7 Greening of EOR Operations 693 8.8 Zero-Waste Operations 710 8.9 Conclusions 714 9 Conclusions 717 9.1 The Task 717 9.2 Conclusions 718 References and Bibliography 725 Index 787
Preface xiii 1 Introduction 1 1.1 Opening Remarks 1 1.2 The Prophets of the Doomed Turned Into Scientists 1 1.3 Paradigm Shift in Sustainable Development 2 1.4 Questions Answered in This Book 5 2 Petroleum in the Big Picture 11 2.1 Introduction 11 2.2 Pre-Industrial Revolution Period 12 2.3 Beginning of the Petroleum Culture 36 2.4 The Information Age 46 2.5 The Energy Crisis 52 2.6 Conclusions 67 3 Natural Resources of the Earth 69 3.1 Introduction 69 3.2 Characteristic Time 69 3.3 Organic and Mechanical Frequencies 77 3.4 The Nature of Material Resources 89 3.5 The Science of Water and Petroleum 90 3.6 Nitrogen Cycle: Part of the Water/Nitrogen Duality 138 3.7 Conclusions 175 4 Growth Potential of Petroleum Reservoirs 177 4.1 Introduction 177 4.2 Toward Decarbonization 177 4.3 The Current State of the World of Oil and Gas 181 4.4 World Oil and Gas Reserve 205 4.5 Organic Origin of Petroleum 249 4.6 Scientific Ranking of Petroleum 252 4.7 Reserve Growth Potential of an Oil/Gas Reservoir 264 4.8 Conclusions 318 5 Fundamentals of Reservoir Characterization in View of Enhanced Oil and Gas Recovery 321 5.1 Introduction 321 5.2 Role of Fractures 322 5.3 Natural and Artificial Fractures 328 5.4 Developing Reservoir Characterization Tools for Basement Reservoirs 339 5.5 The Origin of Fractures 346 5.6 Seismic Fracture Characterization 353 5.7 Reservoir Characterization During Drilling 363 5.8 Reservoir Characterization with Image Log and Core Analysis 379 5.9 Major Forces of Oil and Gas Reservoirs 415 5.10 Reservoir Heterogeneity 433 5.11 Special Considerations for Shale 448 5.12 Conclusions 450 6 Future Potential of Enhnced Oil Recovery 451 6.1 Introduction 451 6.2 Background 454 6.3 Types of EOR 461 6.4 Enhanced Oil Recovery in Relation to Oil and Gas Reserve 469 6.5 Current Oil Fields 491 6.6 Need for EOR 516 6.7 Conclusions 522 7 Greening of Enhanced Oil Recovery 525 7.1 Introduction 525 7.2 Carbon Dioxide Injection 528 7.3 Thermal Methods 544 7.4 Chemical Methods 574 7.5 Gas Injection 609 7.6 Recap of Existing EOR Projects 621 7.7 Downhole Refinery 657 7.8 Conclusions 662 8 Toward Achieving Total Sustainability EOR Operations 663 8.1 Introduction 663 8.2 Issues in Petroleum Operations 664 8.3 Critical Evaluation of Current Petroleum Practices 673 8.4 Petroleum Refining and Conventional Catalysts 678 8.5 Current Practices in Exploration, Drilling and Production 689 8.6 Challenges in Waste Management 692 8.7 Greening of EOR Operations 693 8.8 Zero-Waste Operations 710 8.9 Conclusions 714 9 Conclusions 717 9.1 The Task 717 9.2 Conclusions 718 References and Bibliography 725 Index 787
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