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Future Energy will allow us to make reasonable, logical and correct decisions on our future energy as a result of two of the most serious problems that the civilized world has to face; the looming shortage of oil (which supplies most of our transport fuel) and the alarming rise in atmospheric carbon dioxide over the past 50 years (resulting from the burning of oil, gas and coal and the loss of forests) that threatens to change the world's climate through global warming. Future Energy focuses on all the types of energy available to us, taking into account a future involving a reduction in oil and gas production and the rapidly increasing amount of carbon dioxide in our atmosphere. It is unique in the genre of books of similar title in that each chapter has been written by a scientist or engineer who is an expert in his or her field. The book is divided into four sections: - Traditional Fossil Fuel and Nuclear Energy - Renewable Energy - Potentially Important New Types of Energy - New Aspects to Future Energy Usage Each chapter highlights the basic theory and implementation, scope, problems and costs associated with a particular type of energy. The traditional fuels are included because they will be with us for decades to come - but, we hope, in a cleaner form. The renewable energy types includes wind power, wave power, tidal energy, two forms of solar energy, bio-mass, hydroelectricity, geothermal and the hydrogen economy. Potentially important new types of energy include: pebble bed nuclear reactors, nuclear fusion, methane hydrates and recent developments in fuel cells and batteries. - Written by experts in the key future energy disciplines from around the globe - Details of all possible forms of energy that are and will be available globally in the next two decades - Puts each type of available energy into perspective with realistic, future options
Using the principle that extracting energy from the environment always involves some type of impact on the environment, The Future of Energy discusses the sources, technologies, and tradeoffs involved in meeting the world's energy needs. A historical, scientific, and technical background set the stage for discussions on a wide range of energy sources, including conventional fossil fuels like oil, gas, and coal, as well as emerging renewable sources like solar, wind, geothermal, and biofuels. Readers will learn that there are no truly "green" energy sources—all energy usage involves some tradeoffs—and will understand these tradeoffs and other issues involved in using each energy source. - Each potential energy source includes discussions of tradeoffs in economics, environmental, and policy implications - Examples and cases of implementing each technology are included throughout the book - Technical discussions are supported with equations, graphs, and tables - Includes discussions of carbon capture and sequestration as emerging technologies to manage carbon dioxide emissions
This book assesses the impact of energy transitions on the future of natural gas in the EU energy mix. As we approach 2050, the requirement to sharply decrease CO2 and other GHG emissions means that the role of gas infrastructure in the EU and beyond will change drastically. But what does such change mean? To address this question the author critically analyses the EU’s evolving natural gas market policy and law. Clearly structured throughout, the book explores the following questions: How can we maximise the potential of gas infrastructure to reduce carbon emissions? What are the lessons learned from decision making experience in the natural gas sector? Is the EU moving towards or away from a climate neutral gas sector? How will green and low carbon gas technologies be supported? And, are proposals to drive a growing share of hydrogen, biomethane, and synthetic methane to the system just an excuse to prolong fossil fuel operations? The book explores whether the EU will continue to subsidy natural gas projects or decarbonise the gas grid before 2050, and at what cost. Recommendations are proposed for a new regulatory and policy framework for development and operation of hydrogen pipelines, injection of biomethane into the existing gas grid and for pipelines carrying CO2. Filling an important gap in the literature, this book aims to develop an understanding of and clarify the complex range of legislation involved within a single analytical framework. Although the focus is mainly on the future of gas in the EU, the findings and recommendations are relevant for a much wider geography. This book will be an invaluable reference to policy makers and practitioners as well as researchers and students across the social sciences interested in the future of energy.
Historically in India, gas has not enjoyed the same strategic significance as oil. That picture is gradually changing. India imports 82 per cent of its oil needs and aims to bring that down to 67 per cent by 2022 by replacing it with local exploration and alternative energy sources. Natural gas is set to play a key role, with ambitious plans to increase its share in the energy mix from 6.5 per cent to 15 per cent. Increasing natural gas usage can also help India overcome several challenges such as meeting its development objectives, fulfilling mitigation efforts on the climate change front, providing energy security while reducing fiscal imbalance and so on. Needless to say, it will also have a significant bearing on India's geopolitics. Edited by Vikram Singh Mehta, an authority in the energy domain, and with essays by a number of global experts, this anthology lays out a comprehensive roadmap for India's natural gas sector by analysing supply, demand, infrastructure, pricing, regulations, finance, technology, policy and a host of other issues. The Next Stop is an essential overview of the country's emerging energy sector in the twenty-first century
The world is currently consuming about 85 million barrels of oil a day, and about two-thirds as much natural gas equivalent, both derived from non-renewable natural sources. In the foreseeable future, our energy needs will come from any available alternate source. Methanol is one such viable alternative, and also offers a convenient solution for efficient energy storage on a large scale. In this updated and enlarged edition, renowned chemists discuss in a clear and readily accessible manner the pros and cons of humankind's current main energy sources, while providing new ways to overcome obstacles. Following an introduction, the authors look at the interrelationship of fuels and energy, and at the extent of our non-renewable fossil fuels. They also discuss the hydrogen economy and its significant shortcomings. The main focus is on the conversion of CO2 from industrial as well as natural sources into liquid methanol and related DME, a diesel fuel substitute that can replace LNG and LPG. The book is rounded off with an optimistic look at future possibilities. A forward-looking and inspiring work that vividly illustrates potential solutions to our energy and environmental problems.
The rapid growth of shale gas development has led to an intense and polarizing debate about its merit. This book asks and suggests answers to the question that has not yet been systematically analysed: what laws and policies are needed to ensure that shale gas development helps to accelerate the transition to sustainability? In this groundbreaking book, more than a dozen experts in policy and academia assess the role that sustainability plays in decisions concerning shale gas development in the US and elsewhere, offering legal and policy recommendations for developing shale gas in a manner that accelerates the transition to sustainability. Contributors assess good practices from Pennsylvania to around the planet, discussing how these lessons translate to other jurisdictions. Ultimately, the book concludes that major changes in law and policy are needed to develop shale gas sustainably. Policymakers and educators alike will find this book to be a valuable resource, as it tackles the technical, social, economic and legal aspects associated with this sustainability issue. Other strengths are its clear language and middle-ground policy perspective that will make Shale Gas and the Future of Energy accessible to both students and the general public.
This book analyses the recent development of liquefied natural gas (LNG) in the Baltic Sea region and how energy security in the region has improved after Finland, Lithuania, Poland, Russia and Sweden have constructed their LNG import terminals. In addition to these LNG receiving units, the book deals with the major pipeline projects, such as Baltic Pipe, Balticconnector, Nord Stream 2, and Gas Interconnection Poland-Lithuania, and their impact on energy security of the Baltic Sea region. This book will be of interest to experts specialising in European energy markets and energy security.
This book focuses on natural gas and synthetic methane as contemporary and future energy sources. Following a historical overview, physical and chemical properties, occurrence, extraction, transportation and storage of natural gas are discussed. Sustainable production of natural gas and methane as well as production and storage of synthetic methane are scrutinized next. A substantial part of the book addresses construction of vehicles for natural and synthetic methane as well as large engines for industrial and maritime use. The last chapters present some perspectives on further uses of renewable liquid fuels as well as natural gas for industrial engines and gas power plants.