The problem of storing hydrogen safely and effectively is one of the major technological barriers currently preventing the widespread adoption of hydrogen as an energy carrier and the subsequent transition to a so-called hydrogen economy. Practical issues with the storage of hydrogen in both gas and liquid form appear to make reversible solid state hydrogen storage the most promising potential solution. "Hydrogen Storage Materials" addresses the characterisation of the hydrogen storage properties of the materials that are currently being considered for this purpose.

The background to the topic is introduced, along with the various types of materials that are currently under investigation, including nanostructured interstitial and complex hydrides, and porous materials, such as metal-organic frameworks and microporous organic polymers. The main features of "Hydrogen Storage Materials" include: an overview of the different types of hydrogen storage materials and the properties that are of interest for their practical use;descriptions of the gas sorption measurement methods used to determine these properties, and the complementary techniques that can be used to help corroborate hydrogen uptake data; andextensive coverage of the practical considerations for accurate hydrogen sorption measurement that drive both instrument design and the development of experimental methodology.

"Hydrogen Storage Materials" provides an up-to-date overview of the topic for experienced researchers, while including enough introductory material to serve as a useful, practical introduction for newcomers to the field.

This text highlights the role that renewable energy can play in achieving sustainable development. It focuses on rural areas of developing countries, looking in particular at stand-alone solar home systems and grid-connected biomass cogeneration plants. It analyzes the main barriers to the successful transfer of renewable energy technology, with case studies from a range of South-East Asian, South Asian, Pacific and African countries, and explains the ways in which these obstables can be overcome. The roles of the key players involved and how the Kyoto Protocol can facilitate the transfer in order to mitigate climate change are also discussed.

The UK has declared a 'climate emergency' and pledged to become carbon neutral by 2050. So how do we get there? Drawing on actions, policies and technologies already emerging around the world, Chris Goodall sets out the ways to achieve this. His proposals include: -Building a huge over-capacity of wind and solar energy, storing the excess as hydrogen. -Using hydrogen to fuel our trains, shipping, boilers and heavy industry, while electrifying buses, trucks and cars. -Farming - and eating - differently, encouraging plant-based alternatives to meat -paying farmers to plant and maintain woodlands. -Making fashion sustainable and aviation pay its way, funding synthetic fuels and genuine offsets. -Using technical solutions to capture CO2 from the air, and biochar to lock carbon in the soil. What We Need To Do Now is an urgent, practical and inspiring book that signals a green new deal for Britain.

This guidebook for managers and other decision makers analyses all important aspects that have to be considered when evaluating photovoltaics as a potential option in the power-supply industry and industrial development. Since such an analysis is quite complex and requires know-how from several scientific disciplines, the book draws upon the expertise of about 40 invited experts. Consensus statements on some of the controversial items such as cost development or energy pay-back time are given. In addition, the book is rounded out by an evaluation of the technological status of photovoltaics. The Photovoltaics Guidebook for Decision Makers enables readers to form their own opinions, particularly on the realistic potential and role of photovoltaics in energy policy, the power-supply industry and industrial development.

Dielectric Spectroscopy in Biodiesel Production and Characterization presents the application of dielectric techniques in the production process of biodiesel, and in the characterization of biofuels, raw materials and effluents. In this comprehensive text, the reader will find information about biodiesel, production processes and biofuel characterization, including a description of dielectric techniques that are a useful alternative to - and have some important advantages over - international standards. Dielectric Spectroscopy in Biodiesel Production and Characterization is written in a language that is easy for both specialists and non-specialists to understand. It provides the concepts and tools needed for the application and correlation of the results of dielectric measurement with those from other techniques that are included in international standards. Aimed at a broad audience, the book gives a unified presentation, in a clear and concise way, of up-to-date information that has been gathered from a wide range of sources. Based on the ample research and teaching experience of the authors, Dielectric Spectroscopy in Biodiesel Production and Characterization will be of interest to professionals working in the liquid biofuels industry, researchers entering the field and also advanced university students on related courses.

A retro-fit offers many benefits: cutting electricity and heating bills, increasing the resale value of homes, slashing carbon emissions and creating a healthier place to live. This book is the guide to making it happen. It looks at: draught-proofing, insulation and damp ventilation, heating and cooling electrical efficiency and renewable energy water use and re-use materials' life cycles and incorporating nature protection from climate change impacts - modelling energy flows and embodied energy how we can meet the need to cut carbon emissions from dwellings by eighty percent by 2050. Projects can apply to apartment blocks, recent builds and older, solid-walled properties. Enlivened with helpful diagrams and photographs, plus plenty of pointers for further information, it provides a comprehensive resource handbook for any building professional and contractor, students - or any homeowner serious about efficiency (cash and carbon) savings.

We are on the verge of a crippling energy crisis that could undermine our economy and change our way of life. In "Who Turned Out the Lights?", Scott Bittle and Jean Johnson, editors of the award-winning nonpartisan Web site PublicAgenda.org, offer a much-needed reality check. Neither 'Drill, Baby, Drill' nor 'Every Day is Earth Day' is an effective energy policy, and these kinds of ideological roadblocks have left us spinning our wheels for too long. If we don't get our act together and do something now, we'll be scrambling to get the energy we need to make life as we know it possible. But while the topic is serious, learning what you need to know about it doesn't have to be. Featuring chapters entitled 'Dam It: Hydroelectric Power' and 'Time for the Nuclear Option?' and sidebars like 'This little piggy went to market while this little piggy passed laws', this book will be anything but dry. By applying the same winning approach they used to irreverently explain the federal budget crisis in "Where Does the Money Go?" , Bittle and Johnson will use pop culture to help define the fundamental concepts that shape the debate and explain the three risks we face: that we won't be able to afford the energy we need, that we'll be dangerously dependent on foreign energy, and that we'll destroy the planet before we have a chance to solve the problem. They will also help readers understand the pros and cons of a range of ideas on the agenda, including alternative fuels, nuclear power, clean coal, electric cars, fixing up our houses, taxing carbon emissions, and many more. In the end, the authors take one position: we must change the way we get and use energy, and there's no more time to waste. Beyond that, they'll leave how to get from here to there as an open question - one Americans simply have to understand better and tackle head on.

When industry giants such as GE, Toyota, and Sharp and investment firms such as Goldman Sachs are making multi-billion dollar investments in clean technology, the message is clear. Developing clean technologies is no longer a social issue championed by environmentalists: it's a money-making enterprise moving solidly into the business mainstream. In fact, as the economy faces unprecedented challenges from high energy prices, resource shortages, and global environmental and security threats, clean tech-technologies designed to provide superior performance at a lower cost while creating significantly less waste than conventional offerings - promises to be the next engine of economic growth.In "The Clean Tech Revolution", authors Ron Pernick and Clint Wilder identify the major forces that have pushed clean tech from back-to-the-earth utopian dream to its current revolution among the inner circles of corporate boardrooms, on Wall Street trading floors, and in government offices around the globe. By highlighting eight major clean-tech sectors - solar energy, wind power, biofuels and biomaterials, green buildings, personal transportation, the smart grid, mobile applications, and water filtration - they uncover how investors, entrepreneurs, and individuals can profit from this next wave of technological innovation.Finally, Pernick and Wilder shine the spotlight on the winners among technologies, companies, and regions that are likely to reap the greatest benefits from clean tech - and they show you why the time to act is now. Groundbreaking and authoritative, this is the must-read book to understand and profit from the clean technologies that are reshaping our fast-changing world.

Rational Exuberance for Renewable Energy is a beyond-the-hype account of the underlying issues that encourage or plague widespread dissemination of renewable energy (RE) technologies. Renewable energy operates in the real world, and it cannot be assumed that the conventional theories and incentive structures of economics and business do not apply. The author argues that grants and subsidies could be provided to support research, development and technology improvement efforts, but should not be employed as an instrument of state policy to intervene in specific markets. It is important to recognize that although investors often demonstrate an appetite for market risk, they find technology risks and policy uncertainty much less appealing. Rational Exuberance for Renewable Energy blends classical economic theory with the everyday realities of the RE industry to identify incentive structures contributing to the success - or otherwise - of project implementation involving renewable sources and appropriate technologies. This book is a compilation of articles that analyze individual RE technologies, and offer multiple perspectives of the RE industry and markets. Rational Exuberance for Renewable Energy is intended for policy makers, advanced students of energy economics and sustainable development, and for potential mainstream investors.

Frontiers in Fusion Research provides a systematic overview of the latest physical principles of fusion and plasma confinement. It is primarily devoted to the principle of magnetic plasma confinement, that has been systematized through 50 years of fusion research. Frontiers in Fusion Research begins with an introduction to the study of plasma, discussing the astronomical birth of hydrogen energy and the beginnings of human attempts to harness the Sun's energy for use on Earth. It moves on to chapters that cover a variety of topics such as: * charged particle motion, * plasma kinetic theory, * wave dynamics, * force equilibrium, and * plasma turbulence. The final part of the book describes the characteristics of fusion as a source of energy and examines the current status of this particular field of research. Anyone with a grasp of basic quantum and analytical mechanics, especially physicists and researchers from a range of different backgrounds, may find Frontiers in Fusion Research an interesting and informative guide to the physics of magnetic confinement.

A celebrated international bestseller that exposes the ticking time-bomb underneath our new technological order. The resources race is on. Powering our digital lives and green technologies are some of the Earth's most precious metals - but they are running out. And what will happen when they do? The green-tech revolution will reduce our reliance on nuclear power, coal, and oil, but by breaking free of fossil fuels, we are setting ourselves up for a new dependence - on rare metals like cobalt, gold, and palladium. These are essential to electric vehicles, wind turbines, and solar panels, as well as our smartphones, computers, tablets, and other technologies. But we know very little about how rare metals are mined and traded, or their environmental, economic, and geopolitical costs - until now.

The European Union is poised to establish a genuine European Energy Union with the new powers conferred on it by the Lisbon Treaty. Since 2014, it has been developing and implementing an energy strategy that responds to the three overarching priorities of climate change, political security, and economic competitiveness by 2030. The European Energy Union aims to provide secure, sustainable and affordable energy throughout the cycle of production, transport and consumption. This book outlines the legal regime underpinning this regulatory strategy, which integrates EU law with international law and with the law of the member states and affiliated states. It analyses and explains the increasing interaction between these legal orders in achieving the shared objective of transforming the European and global energy systems. This book will appeal to scholars and students of energy law and policy at both European and international levels.

This book reviews recent progress in our understanding of tokamak physics related to steady state operation, and addresses the scientific feasibility of a steady state tokamak fusion power system. It covers the physical principles behind continuous tokamak operation and details the challenges remaining and new lines of research towards the realization of such a system. Following a short introduction to tokamak physics and the fundamentals of steady state operation, later chapters cover parallel and perpendicular transport in tokamaks, MHD instabilities in advanced tokamak regimes, control issues, and SOL and divertor plasmas. A final chapter reviews key enabling technologies for steady state reactors, including negative ion source and NBI systems, Gyrotron and ECRF systems, superconductor and magnet systems, and structural materials for reactors. The tokamak has demonstrated an excellent plasma confinement capability with its symmetry, but has an intrinsic drawback with its pulsed operation with inductive operation. Efforts have been made over the last 20 years to realize steady state operation, most promisingly utilizing bootstrap current. Frontiers in Fusion Research II: Introduction to Modern Tokamak Physics will be of interest to graduate students and researchers involved in all aspects of tokamak science and technology.

This book provides a detailed coverage of how the circular economy aims to change the paradigm in relation to the linear economy, by limiting the environmental impact and waste of resources, as well as increasing efficiency at all stages of the product economy. It serves as the sole comprehensive overview of the role of biofuels in the circular economy. It contains updated information on the latest trends of techno-economic analysis of biofuels, economic transitions, low-carbon economies, green circular societies, and life cycle assessment of biofuels. This book delves deep into the economic security of the poor as well as the nexus between biofuel industry and global trade bodies, making it one of the few introductory books without bias toward the contribution of biofuels in circular economy. With its diverse contributions on themes such as biofuels as potential alternatives to fossil fuels, biofuel economics and policies; biofuel standards, blending, and future insecurities; economic transitions from biomass to biofuels; and biofuel economy, development, and food security, the book would be a great resource for a wide and multi-disciplinary readership base ranging from researchers to academics, policy makers, innovators, corporates, and non-profit organizations working in this area.

New and Future Developments in Microbial Biotechnology and Bioengineering: From Cellulose to Cellulase: Strategies to Improve Biofuel Production outlines new methods for the industrial production of the cellulose enzyme. The book compares the various processes for the production of biofuels, including the cost of cellulose production and availability. Biofuels are considered to be the main alternatives to fossil fuels in reducing environmental pollution and climate change. Currently, all existing biofuel production is suffering because of the high costs of production processes. As a result, cost effective practical implementation is needed to make this a viable energy alternative.

With the continuous migration of people towards metropolitan areas in search of employment, the demands for core services and energy, coupled with an increasing awareness of the impact of climate change, have placed the management and planning of global urban energy under a lot of pressure. Trends toward urban energy service transformations that offer greater affordability, reliability, efficiency and adaptability provide hope for a global sustainable future. At the same time, there are also limits to these transitions, as well as risks involved. For example, on one end of the spectrum, our urban energy future includes land use sprawl, high fossil fuel use, pollution, and unhealthy urban conditions. On the other side of this transition spectrum is more energy choices, and healthier, more livable cities, along with less energy use and fewer greenhouse gas emissions. What the future might hold for transforming the world's cities depends upon an understanding of the risks of current trajectories and the opportunities for and limitations to developing sustainable urban energy systems.This edited volume brings together leading experts on the prospects and challenges of urban energy innovation and on related-economic, social and environmental sustainability transitions. The focus of the volume is on multidisciplinary reviews, research informing technologies and policies for sustainability, and analytical insights addressing rapid urbanization and changes across a diverse typology of global cities. The volume will include an overview of the current state of urban energy systems. It will also document and evaluate urban energy prospects for a sustainable, resilient future.

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.

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.

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 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.

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.

This new book, Bioethanol: Biochemistry and Biotechnological Advances, presents some insightful perspectives and important advances in the bioethanol industry. The volume goes into detail on the biochemical and physiological parameters carried out by the main bioethanol-producing microorganisms as well as the discusses the potential applications that bioproducts can have and the advantages they generate. The chapter authors discuss a variety of issues, including the physiology of ethanol production by yeasts, by Zymomonas mobilis, and by Clostridium thermocellum. Other sources of biofuel, such as sweet sorghum, Agave americana L. leaves waste, and fungi are included as well. Chapters also discuss the genetic regulation and genetic engineering of principal microorganisms and then go on to address ways to increase ethanol tolerance in industrially important ethanol fermenting organisms, methods for developing sustainable fermentable substrates, and new strategies for ethanol purification. Chapters explore the design and engineering requirements for bioreactors, bioelectrosynthesis of ethanol via bioelectrochemical systems, and more. The book will be a valuable resource for faculty and students in this area as well as for scientists, researchers, and managers in the biofuel industry in the area of biofuel production, fermentation process, environmental engineering and all other related scientific areas.

Written by an expert in energy business who has been invited to G20/B20 taskforces Covers the latest developments in smart cities, green transport, and carbon solutions Each chapter features practical strategies alongside international examples and case studies

Clean Energy for Sustainable Development: Comparisons and Contrasts of New Approaches presents information on the fundamental challenge that the energy sector faces with regard to meeting the ever growing demand for sustainable, efficient, and cleaner energy. The book compares recent developments in the field of energy technology, clean and low emission energy, and energy efficiency and environmental sustainability for industry and academia. Rasul, Azad and Sharma, along with their team of expert contributors, provide high-end research findings on relevant industry themes, including clean and sustainable energy sources and technologies, renewable energy technologies and their applications, biomass and biofuels for sustainable environment, energy system and efficiency improvement, solar thermal applications, and the environmental impacts of sustainable energy systems. This book uses global institutes and case studies to explore and analyze technological advancements alongside practical applications. This approach helps readers to develop and affirm a better understanding of the relevant concepts and solutions necessary to achieve clean energy and sustainable development in both medium and large-scale industries.