Oil is the world's most important commodity. It is also one of the most politicized, with national oil companies controlling most of the world's reserves. Contrary to conventional wisdom, Llewelyn Hughes shows that governments across the advanced industrial states responded to the politicization of oil in the 1970s by freeing prices, lowering barriers to trade, and privatizing national oil companies. How did this come about? And why do some governments continue to support domestic firms? In answering these questions, Hughes shows that the politicization of oil also led to a transformation in oil market governance by changing the balance of risk and opportunities facing firms. He also shows that their ability to benefit from this change was conditioned by previous attempts to shape the competitive landscape in their favor. Hughes' study has important implications not only for the politics of oil, but also for the study of economic liberalization.

Storage and Hybridization of Nuclear Energy: Techno-economic Integration of Renewable and Nuclear Energy provides a unique analysis of the storage and hybridization of nuclear and renewable energy. Editor Bindra and his team of expert contributors present various global methodologies to obtain the techno-economic feasibility of the integration of storage or hybrid cycles in nuclear power plants. Aimed at those studying, researching and working in the nuclear engineering field, this book offers nuclear reactor technology vendors, nuclear utilities workers and regulatory commissioners a very unique resource on how to access reliable, flexible and clean energy from variable-generation.

You hold in your hands the most original guide to understanding the oil and gas world - from exploration and production to the related economics and geopolitics. Tim Daley has spent years travelling the world and living as an expatriate in a quest to secure resources and meet humanity's energy demands. After several decades in the hydrocarbon business, he was keen to write a book about his experiences in an easily accessible language, enabling everyone to grasp the technicalities involved in evaluating the resources that lie beneath our feet. If you want to learn how hydrocarbons are discovered and produced, Tim's explanations have the added colour of vivid descriptions of the sites discussed and allow you to meet some of the most important characters in the industry, and to gain new insights into this global industry. In addition, the depictions of key events and locations add an element of national politics and travelogue feel. This book is intended for all members of the general public interested in how hydrocarbon resources are discovered, providing a concise account of how oil geologists view the subsurface, and illustrated by the author's personal experiences in countries around the world. The book will also be of interest to ex-oil industry workers, allow geologists to compare the author's experiences to their own, and provide non-geologists essential insights into how the oil is won. Written in an informal style, it makes for a relaxing yet informative reading experience.

Experts all agree that human beings can mitigate climate change by changing how we use energy for heat, light, movement, and production. Stewards of heritage sites and collections can engage the public at the grassroots level to raise awareness about the cultural and socioeconomic reasons for past choices that have contributed to climate change. This book will help cultural institutions identify ways to interpret new stories through historic places and resources, especially if staff have made the commitment to "go green." Without place-based context, discussions about energy focus primarily on the science, and not the human experience. By reminding us of our past practices and values regarding energy production and use, historic places can inspire different ways of thinking about transitioning to different energy sources, and question the doctrine that high energy use is necessary for progress. Public interpretation can expose the vast energy infrastructure and the impact of energy extraction, production and use on place. Historic sites offer place-based contexts for visitors to interact with and think critically about the processes and the impact of energy development in, for example, a maritime village. This book synthesizes science with the humanities outside of popular media and other politicized spaces to identify different kinds of energy resources in many historic collections or sites. It supplements current calls for economic and policy changes, because as stewards of historic places, we need to do what we can in this "all hands-on deck" moment to prepare for shared stewardship of our future.

Provides a global perspective on drought prediction and management and a synthesis of the recent state of knowledge. Covers a wide range of topics from essential concepts and advanced techniques for forecasting and modeling drought to societal impacts, consequences, and planning Presents numerous case studies with different management approaches from different regions and countries. Addresses how climate change impacts drought, the increasing challenges associated with managing drought, decision making, and policy implications. Includes contributions from hundreds of experts around the world.

Polymer-Carbonaceous Filler-Based Composites for Wastewater Treatment serves as the first book to offer a concise treatment of the use of these materials in the treatment of wastewater. It provides a systematic and comprehensive account of recent developments and encompasses novel methods for the synthesis of carbonaceous derivatives-based fillers for polymer composites, their characterization techniques, and applications for the remediation of water contamination. This book seeks to: Introduces novel concepts in wastewater treatment with poly-carbonaceous composites Describes modern fabrication methods and characterization techniques Presents information on processing, safety, and disposal Discusses current research, future trends, and applications Filling the void for a one-stop reference book for researchers, this work includes contributions from leaders in the industry, academia, government, and private research institutions across the globe. Academics, researchers, scientists, engineers and students in the fields of materials and polymer engineering and wastewater treatment will benefit from this application-oriented book.

The Nigerian state has been oil-rich for decades, and yet perennially incapable of converting its oil resources into wealth for ordinary Nigerians. Adeoye O. Akinola tackles this "vexed" oil question by examining the political economy of efforts to deregulate the Nigerian downstream oil industry. Focusing on themes of globalization and democratization, this book considers how a resource-rich developing country like Nigeria can exploit the opportunities of globalization and navigate the pressures of democratization and the challenges of liberalization. Pairing sophisticated theoretical frameworks with firsthand accounts from actors in the oil industry, this book identifies the root causes of Nigeria's development struggles and offers practical policy solutions for successfully deregulating the oil sector. For public officials and policymakers as well as researchers, this book offers a critical new lens on the future of natural resource management in Nigeria and the Global South.

This Handbook examines the regulatory, social, financial, and technological issues pertaining to energy communities in smart cities. Evidencing the emergence of new imperatives at the intersection of sustainability, resilience, innovation, and legal issues, energy communities embody the thrust of the user-centred digital transformation our societies are subjected to today. By bridging the energy communities’ debate with smart cities research, this Handbook positions itself at the heart of the conversation on energy sustainability, climate action, and ‘just transition’. Drawing on contributions from across the globe, this book offers both a birds-eye and a detailed inter- and multidisciplinary insight into the emergence of energy communities and their evolution in the smart city context. Technological and regulatory aspects of this transition are explored from a variety of conceptual and empirical perspectives. Case studies evidencing developments in the Global South and the Global North embellish the conversation. Questions of climate change, energy efficiency, renewable energy sources, emissions’ reduction, and corresponding policy frameworks are discussed. Dedicated to all those interested in climate action, energy transition, sustainable development, and smart cities, this Handbook will be of interest to policymakers, lawyers, energy and urban experts, researchers, and students.

Consumers, Prosumers, Prosumagers: How Service Innovations will Disrupt the Utility Business Model examines customer stratification in the electric power sector, arguing that it is poised to become one of the fundamental drivers of the 21st century power network as distributed energy generation, storage, sharing and trading options become available at scale. The book addresses the interface and the relationship between key players and their impacts on incumbent and disruptive service providers. Topics covered include innovations that lead to consumer stratification, regulatory policy, the potential of service, the speed and spread of stratification, and a review of potential business models and strategies. The work also covers the evolution and potential end-states of electricity service provision, from its basis in current pilot programs as distributed generation scales and its potential to supplant industry norms.

This book provides a holistic, interdisciplinary overview of offshore wind energy, and is a must-read for advanced researchers. Topics, from the design and analysis of future turbines, to the decommissioning of wind farms, are covered. The scope of the work ranges from analytical, numerical and experimental advancements in structural and fluid mechanics, to novel developments in risk, safety & reliability engineering for offshore wind.The core objective of the current work is to make offshore wind energy more competitive, by improving the reliability, and operations and maintenance (O&M) strategies of wind turbines. The research was carried out under the auspices of the EU-funded project, MARE-WINT. The project provided a unique opportunity for a group of researchers to work closely together, undergo multidisciplinary doctoral training, and conduct research in the area of offshore wind energy generation. Contributions from expert, external authors are also included, and the complete work seeks to bridge the gap between research and a rapidly-evolving industry.

The German abandonment of nuclear power represents one of the most successful popular revolts against technocratic thinking in modern times-the triumph of a dynamic social movement, encompassing a broad swath of West Germans as well as East German dissident circles, over political, economic, and scientific elites. Taking on Technocracy gives a brisk account of this dramatic historical moment, showing how the popularization of scientific knowledge fostered new understandings of technological risk. Combining analyses of social history, popular culture, social movement theory, and histories of science and technology, it offers a compelling narrative of a key episode in the recent history of popular resistance.

From the 1890s to the 1960s, U.S. steel makers imported more than 70 million tons of high-grade manganese ore, a ferroalloy indispensable to steel production but rare in the United States. Using a commodity approach to highlight the webs of interest and conflict over raw materials that studies of bilateral diplomacy often overlook, Priest reveals the interconnected histories of far-flung mining regions around the globe and the unexamined role of the major U.S. steel companies in the U.S. search for foreign materials. The big manganese mines would emerge first in Brazil, Soviet Georgia, and India, and later in Gabon and South Africa, in a world market that was extremely competitive and inherently unstable.

Market instability, caused in part by consumer control over the manganese trade, stimulated direct U.S. investments in mining beginning in the 1920s. During the 1930s and 1940s, concerns about access to manganese increasingly shaped U.S. mineral and foreign lending policies, which by the Cold War focused on supporting infrastructure development linked to strategic mining districts. Big manganese projects in Brazil and Gabon, undertaken by Bethlehem and U.S. Steel, respectively, dramatically restructured world supply and demonstrated the ways in which U.S. investment and aid imposed an export orientation in producing nations and widened the gulf between industrial and extractive regions of the world.

Presents current research in AOP techniques along with hybrid technologies Covers latest advances in technological know-how for remediation of wastewater soiled with micropollutants Discusses pressing environmental pollution issues associated with AOPs needed for wastewater remediation Presents future perspective as well as techno-economic analysis in implementing various AOPs Reviews strategies to limit the micropollutants in water bodies

This book is an overview of the petrochemical industry from the perspective of the author's experience with Standard Oil, Scientific Design Co and Chemical Systems, Inc. The petrochemical industry is unique in its unusually rapid growth from its birth in the 1920s to maturity in the late 1970s. Between 1940 and 1960 it became one of the largest industry sectors, providing an astounding variety of chemical products used for the manufacture of plastics, fibers, synthetic rubber and many other products. An abundance of inexpensive gaseous and liquid petroleum feedstocks, suitable advanced technology, a large market and an incentive for rapid development occasioned by World War II and the consumer-oriented boom that followed have resulted in the development of this dynamic industry. This is a great achievement which deserves to be remembered at a time when the chemical industry is under a cloud due to a history of neglecting the environment and being insufficiently sensitive to health hazards.

Bioethanol Production from Food Crops: Sustainable Sources, Interventions and Challenges comprehensively covers the global scenario of ethanol production from both food and non-food crops and other sources. The book guides readers through the balancing of the debate on food vs. fuel, giving important insights into resource management and the environmental and economic impact of this balance between demands. Sections cover Global Bioethanol from Food Crops and Forest Resource, Bioethanol from Bagasse and Lignocellulosic wastes, Bioethanol from algae, and Economics and Challenges, presenting a multidisciplinary approach to this complex topic. As biofuels continue to grow as a vital alternative energy source, it is imperative that the proper balance is reached between resource protection and human survival. This book provides important insights into achieving that balance.

Electricity markets are structurally different to other commodities, and the real-time dynamic balancing of the electricity network involves many external factors. Because of this, it is not a simple matter to transfer conventional models of financial time series analysis to wholesale electricity prices.

The rationale for this compilation of chapters from international authors is, therefore, to provide econometric analysis of wholesale power markets around the world, to give greater understanding of their particular characteristics, and to assess the applicability of various methods of price modelling.

Researchers and professionals in this sector will find the book an invaluable guide to the most important state-of-the-art modelling techniques which are converging to define the special approaches necessary for unravelling and forecasting the behaviour of electricity prices. It is a high-quality synthesis of the work of financial engineering, industrial economics and power systems analysis, as they relate to the behaviour of competitive electricity markets.

The downhill slide in the global price of crude oil, which started mid-2014, had major repercussions across the Middle East for net oil exporters, as well as importers closely connected to the oil-producing countries from the Gulf. Following the Arab uprisings of 2010 and 2011, the oil price decline represented a second major shock for the region in the early twenty-first century - one that has continued to impose constraints, but also provided opportunities. Offering the first comprehensive analysis of the Middle Eastern political economy in response to the 2014 oil price decline, this book connects oil market dynamics with an understanding of socio-political changes. Inspired by rentierism, the contributors present original studies on Bahrain, Egypt, Jordan, Kuwait, Lebanon, Oman, Qatar, Saudi Arabia, and the United Arab Emirates. The studies reveal a large diversity of country-specific policy adjustment strategies: from the migrant workers in the Arab Gulf, who lost out in the post-2014 period but were incapable of repelling burdensome adjustment policies, to Egypt, Jordan, and Lebanon, who have never been able to fulfil the expectation that they could benefit from the 2014 oil price decline. With timely contributions on the COVID-19-induced oil price crash in 2020, this collection signifies that rentierism still prevails with regard to both empirical dynamics in the Middle East and academic discussions on its political economy. -- .

This new volume presents informative research on the different aspects of employing nanotechnology for environmental pollution decontamination, highlighting the main tools, methods, and approaches for contaminants detection and remediation. The book takes a biotechnological point of view that considers the main environmental pollutants; the safety and economic aspects of nanoremediation, nanosensors and nanobiosensors for the detection of pollutants; and strategies to promote nanoremediation and nanobioremediation. The chapters offer a comprehensive overview of nanotechnologic strategies as essential tools to restore polluted environments and to make more feasible and harmonic the pathway to sustainable development. The volume also discusses the use of sensors to detect pollutants and to monitor the quality of environmental restoration. Topics include nanozymes; organic and inorganic pollutants threatening human health; different types of carbon-based and non-carbon-based nanomaterials in nanosensors and nanobiosensors to detect environmental pollution; nanomaterials that specifically deal with water, soil, or air pollution; and assisted nanoremediation promoted by plants (nanophytoremediation) or microorganisms (for example, mycorrhizal fungus) that promote in situ nano-phyto-mycorrhizo-remediation. Also addressed are aspects related to a macroperspective of nanoremediation that highlight the economic aspects related to nanotechnology, the safety aspects of the use of nanomaterials, and the sustainability aspects related to the use of nanomaterials in strategies of environmental restoration. Nanotechnology for Environmental Pollution Decontamination: Tools, Methods, and Approaches for Detection and Remediation offers extensive and comprehensive knowledge on nanotechnology applied to pollution detection and remediation, assisted or not by biological strategies.

Updated throughout and adds new and fully revised chapters. Focuses on the global trends and mandates toward environmental sustainability. Examines the latest international legislation involving climate change. Includes coverage of oil & gas industries, as well as nuclear and renewable energy.

Most complex physical phenomena can be described by nonlinear equations, specifically, differential equations. In water engineering, nonlinear differential equations play a vital role in modeling physical processes. Analytical solutions to strong nonlinear problems are not easily tractable, and existing techniques are problem-specific and applicable for specific types of equations. Exploring the concept of homotopy from topology, different kinds of homotopy-based methods have been proposed for analytically solving nonlinear differential equations, given by approximate series solutions. Homotopy-Based Methods in Water Engineering attempts to present the wide applicability of these methods to water engineering problems. It solves all kinds of nonlinear equations, namely algebraic/transcendental equations, ordinary differential equations (ODEs), systems of ODEs, partial differential equations (PDEs), systems of PDEs, and integro-differential equations using the homotopy-based methods. The content of the book deals with some selected problems of hydraulics of open-channel flow (with or without sediment transport), groundwater hydrology, surface-water hydrology, general Burger’s equation, and water quality. Features: Provides analytical treatments to some key problems in water engineering Describes the applicability of homotopy-based methods for solving nonlinear equations, particularly differential equations Compares different approaches in dealing with issues of nonlinearity

Electronic device usage has increased considerably in the past two decades. System configurations are continuously requiring upgrades; existing systems often become obsolete in a matter of 2–3 years. Green computing is the complete effective management of design, manufacture, use, and disposal, involving as little environmental impact as possible. This book intends to explore new and innovative ways of conserving energy, effective e-waste management, and renewable energy sources to harness and nurture a sustainable eco-friendly environment. This book: • Highlights innovative principles and practices using effective e-waste management and disposal • Explores artificial intelligence based sustainable models • Discovers alternative sources and mechanisms for minimizing environmental hazards • Highlights successful case studies in alternative sources of energy • Presents solid illustrations, mathematical equations, as well as practical in-the-field applications • Serves as a one-stop reference guide to stakeholders in the domain of green computing, e-waste management, renewable energy alternatives, green transformational leadership including theory concepts, practice and case studies • Explores cutting-edge technologies like internet of energy and artificial intelligence, especially the role of machine learning and deep learning in renewable energy and creating a sustainable ecosystem • Explores futuristic trends in renewable energy This book aims to address the increasing interest in reducing the environmental impact of energy as well as its further development and will act as a useful reference for engineers, architects, and technicians interested in and working with energy systems; scientists and engineers in developing countries; industries, manufacturers, inventors, universities, researchers, and interested consultants to explain the foundation to advanced concepts and research trends in the domain of renewable energy and sustainable computing. The content coverage of the book is organized in the form of 11 clear and thorough chapters providing a comprehensive view of the global renewable energy scenario, as well as how science and technology can play a vital role in renewable energy.

This cross-sectional, interdisciplinary study traces the "history of innovation" of renewable energies in Germany. It features five renewable energy sectors of electricity generation: biomass, photovoltaic, wind energy, geothermal energy and hydropower. The study tracks the development of the respective technologies as well as their contribution to electricity generation. It focuses on driving forces and constraints for renewable energies in the period between 1990 and today.

Africa's oil and gas industry is facing extraordinary circumstances. An ongoing energy transition and new efforts to decarbonize the world are weighing on oil demand. The shale revolution is exacerbating these pressures. And of course, the COVID-19 pandemic has wrought havoc on markets around the world, accelerating and intensifying existing trends. External headwinds are forcing African petroleum producers to re-examine their strategies. Conventional petroleum resources here should be globally competitive, but growth has lagged because of conditions above the ground, not below. Restrictive fiscal regimes, inefficient and carbon-intensive production, and difficulties in doing business are preventing the industry from reaching its full potential. As companies delay projects and cut costs, planned capital expenditure in 2020-2021 has fallen from $90 billion pre-COVID-19, to $60 billion now. To remain competitive, African producers and governments must adapt. But how can they do it when the economic order is being remade? The Road to Recovery addresses these challenges head-on, detailing all of the major challenges facing African oil and gas stakeholders, as well as workable solutions that will keep the industry on a strong and stable growth path. Again and again, our oil and gas sector has proven its resilience and adaptability. The world still needs oil and gas, and Africa still holds enormous untapped potential. The African Energy Chamber will remain a committed partner of choice for the industry as we advance into an uncertain future.

This book shows how the links between energy security and national and international law and policies on green energy pose challenges to a transition towards a green energy system. Based on empirical work carried out in two very different country case studies - Great Britain and Brazil - this book attempts to foster a better understanding of the role played by energy security in constructing and deconstructing green energy policy initiatives. The broad range of views raised in national contexts leads to legal disputes in international forums when attempts are made to address the issues of this energy security/green energy interplay. As such, building on the findings of the case studies, this book then analyses the interplay between energy security and green energy development in international trade law as encapsulated in the law of the World Trade Organisation (WTO). Finally, the author proposes a way forward in creating the legal space in the law of the WTO for trade restrictive measures aimed at ensuring green energy security.