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Energy Footprint and Sustainability: Case Studies (Environmental Footprints and Eco-design of Products and Processes)
by Subramanian Senthilkannan MuthuThis volume orients readers to the concept of energy footprints and their implications for sustainability and offers several cases that illustrate this concept. Significantly, a detailed review chapter presents a of models and methods for measurement of energy footprints across different industrial sectors. Following this, case study chapters from India and the United States offer demonstrations of the application of the described principles. The metrics and indicators described here and means to assess them offer powerful tools for organizations to work toward sustainability and the achievement of the United nations seventeen Sustainable Development Goals.
Energy Footprints of the Bio-refinery, Hotel, and Building Sectors (Environmental Footprints and Eco-design of Products and Processes)
by Subramanian Senthilkannan MuthuThis book deals with the energy footprints of biorefineries and the hotel and buildings sector. It presents footprint case studies, which include background information, methodological frameworks, assessment checklists, calculation tools and techniques, applications, challenges and limitations. It also discusses the application of each indicator/framework in various industrial sectors and the associated challenges, along with outlooks for the future. Consumption and conservation of energy are key elements in any industry’s sustainability strategy.
Energy Footprints of the Energy Sector (Environmental Footprints and Eco-design of Products and Processes)
by Subramanian Senthilkannan MuthuThis book examines the energy footprints of various industrial sectors, including the bio- and hydrogen energy systems, and explores the scope for improvement, particularly in India. It focuses on the consumption and conservation of energy, which are the key elements of any industry’s sustainability strategy.
Energy Footprints of the Food and Textile Sectors (Environmental Footprints And Eco-design Of Products And Processes)
by Subramanian Senthilkannan MuthuThis book addresses energy footprints in the food and textile sectors. Each footprint case study presents essential background information and discusses the scientific consensus, methodological framework, assessment checklist, calculation tools and techniques, applications, challenges and limitations. More importantly, the book explores the application of each indicator/framework in various industrial sectors and the associated challenges, as well as outlooks for the future – essential considerations, given that energy consumption and conservation are the primary elements in any industry’s sustainability strategy.
Energy for a Sustainable World: From the Oil Age to a Sun-Powered Future
by Vincenzo Balzani Nicola ArmaroliAn easy read, balancing the pros and cons, this book surveys the energy issue from a broad scientific perspective while considering environmental, economic, and social factors. It explains the basic concepts, provides a historical overview of energy resources, assesses our unsustainable energy system based on fossil fuels, and shows that the energy crisis is not only a tough challenge, but also an unprecedented opportunity to become more concerned about the world in which we live and the society we have built up. By outlining the alternatives for today and the future, it gives an extensive overview on nuclear energy, solar thermal and photovoltaics, solar fuels, wind power, ocean energies and other renewables, highlighting the increasing importance of electricity and the long-term perspectives of a hydrogen-based economy. An excellent source of updated and carefully documented information on the entangled aspects of the energy issue, this book is a guide for scientists, students and teachers looking for ways out of the energy and climate crisis, and the problems and disparities generated during the fossil fuel era.
Energy for a Sustainable World: From the Oil Age to a Sun-Powered Future
by Vincenzo Balzani Nicola ArmaroliAn easy read, balancing the pros and cons, this book surveys the energy issue from a broad scientific perspective while considering environmental, economic, and social factors. It explains the basic concepts, provides a historical overview of energy resources, assesses our unsustainable energy system based on fossil fuels, and shows that the energy crisis is not only a tough challenge, but also an unprecedented opportunity to become more concerned about the world in which we live and the society we have built up. By outlining the alternatives for today and the future, it gives an extensive overview on nuclear energy, solar thermal and photovoltaics, solar fuels, wind power, ocean energies and other renewables, highlighting the increasing importance of electricity and the long-term perspectives of a hydrogen-based economy. An excellent source of updated and carefully documented information on the entangled aspects of the energy issue, this book is a guide for scientists, students and teachers looking for ways out of the energy and climate crisis, and the problems and disparities generated during the fossil fuel era.
Energy for a Warming World: A Plan to Hasten the Demise of Fossil Fuels (Green Energy and Technology)
by Alan John Sangster"Energy for a Warming World" challenges the commonplace notion that the amount of power which mankind can potentially harness from renewable resources is more than large enough to assuage future demand levels.By examining the renewable issue from an electrical engineering perspective, and exercising due regard for the limited capability of current and future electrical generation and transmission systems, this book attempts to provide more realistic statistics for the levels of power which could be extracted from sustainable resources in the critical time frame of 30 to 40 years. The engineering logic leads inexorably to the importance of taking a global outlook on the switch to renewable power supply and transmission – an outlook which has some surprising and uncomfortable ramifications for mankind."Energy for a Warming World" provides a new perspective on renewable resources for academics and researchers in environmental or electrical power engineering, as well as to students in related areas.
Energy for Development: Resources, Technologies, Environment (Environment & Policy #54)
by Ferenc L. TothThis collection of contributions from a diverse group of prominent international scientists and policy makers brings together their in-depth analyses and innovative ideas about how to resolve the ‘energy for development’ predicament. It includes studies quantifying the role of energy in socioeconomic development, analysis of the interplay between supranational and national institutions in policy implementation, the energy implications of demographic trends such as urbanisation, and exploration of supply-side issues such as the potential role of nuclear energy and ‘cleaning’ fossil fuel energy generation through carbon capture.
Energy for Sustainable Society: From Resources to Users
by Oguz A. Soysal Hilkat S. SoysalA handbook of sustainable energy, covering entire energy aspects from present status to future alternatives under one umbrella This book takes an interdisciplinary system approach to evaluating energy systems so that readers can gain the necessary technical foundation to perform their own performance evaluations and understand their interactions with socioeconomic indicators. Topics include the current and future availability of primary sources, energy supply chain, conversion between different forms of energy, security of energy supply, and efficient end-use of energy sources. Each chapter provides readers with comprehensive background information, an outline of the current technologies, and potential future developments. The book also examines the global, economic, societal, ethical, and environmental issues associated with currently used energy technologies. Energy for Sustainable Society: From Resources to Users starts with ageneral overview of energy systems, and describes the major elements of energy transformation and supply chain. It then discusses interdisciplinary career opportunities in the “energy engineering” field. The fundamental concepts of energy conversion, transmission, and load flow in electrical systems are covered, as are conventional and unconventional fossil fuels, and the basics of nuclear power generation and reactor types. Other chapters look at: the fundamental concepts of thermodynamics and basic operation of steam turbines, gas turbines, and combined cycle heat engines used in fossil fuel and nuclear power plants; current technologies in hydroelectric power generation; renewable and alternative energy sources; energy security issues; and more. Contains up-to-date information on renewable energy technologies such as grid-tie, net-zero energy, battery backup, and utility-independent micro grids Presents the status of the share of renewable sources in the current and future energy supply mix Provides solved examples, case studies, self-assessment quizzes, and problems to enhance the understanding of readers Includes an exclusive chapter on energy security issues Supplemented with a companion web site featuring a solutions manual, sample problems, and additional reading material Energy for Sustainable Society gives readers a solid foundation to study energy related subjects and is an ideal book for a first course on energy systems for upper division undergraduate and first year graduate students.
Energy for Sustainable Society: From Resources to Users
by Oguz A. Soysal Hilkat S. SoysalA handbook of sustainable energy, covering entire energy aspects from present status to future alternatives under one umbrella This book takes an interdisciplinary system approach to evaluating energy systems so that readers can gain the necessary technical foundation to perform their own performance evaluations and understand their interactions with socioeconomic indicators. Topics include the current and future availability of primary sources, energy supply chain, conversion between different forms of energy, security of energy supply, and efficient end-use of energy sources. Each chapter provides readers with comprehensive background information, an outline of the current technologies, and potential future developments. The book also examines the global, economic, societal, ethical, and environmental issues associated with currently used energy technologies. Energy for Sustainable Society: From Resources to Users starts with ageneral overview of energy systems, and describes the major elements of energy transformation and supply chain. It then discusses interdisciplinary career opportunities in the “energy engineering” field. The fundamental concepts of energy conversion, transmission, and load flow in electrical systems are covered, as are conventional and unconventional fossil fuels, and the basics of nuclear power generation and reactor types. Other chapters look at: the fundamental concepts of thermodynamics and basic operation of steam turbines, gas turbines, and combined cycle heat engines used in fossil fuel and nuclear power plants; current technologies in hydroelectric power generation; renewable and alternative energy sources; energy security issues; and more. Contains up-to-date information on renewable energy technologies such as grid-tie, net-zero energy, battery backup, and utility-independent micro grids Presents the status of the share of renewable sources in the current and future energy supply mix Provides solved examples, case studies, self-assessment quizzes, and problems to enhance the understanding of readers Includes an exclusive chapter on energy security issues Supplemented with a companion web site featuring a solutions manual, sample problems, and additional reading material Energy for Sustainable Society gives readers a solid foundation to study energy related subjects and is an ideal book for a first course on energy systems for upper division undergraduate and first year graduate students.
Energy for the Year 2000 (Ettore Majorana International Science Series #6)
by Richard WilsonThe Third International School on Energetics was devoted to the subject of Energy for the Year 2000. By this title we hoped to avoid discussion of such matters as the role of OPEC in raising oil prices. In one sense, therefore, our task was made easier; we could merely look into our crystal balls. The choice of lecturers was made with the idea that no reason able source of energy can be overlooked. We omitted detailed lectures on oil and natural gas because we took it as a given fact that we would continue to use as much of these fuels as we can get at a reasonable price. To give us an overview we started the School by discussing U.S. energy policy and possible U.S. energy scenarios. As might be ex pected, there was some disagreement about the current energy program in the U.S., but little disagreement about the facts presented.
Energy, Foresight and Strategy (Routledge Revivals)
by S. Rao Aiyagari Zvi Eckstein Martin S. Eichenbaum Dennis Epple Lars Peter Hansen Raymond G. Riezman William RoberdsThe essays in Energy, Foresight and Strategy apply rational expectation theory to various energy markets with the intention of discussing issues relevant to analysis and decision making in the whole of the energy field. Originally published in 1985, issues explored include oil exportation, energy prices and embargoes, both focussing on how past regulation has created issues in the market at the time of publication as well as creating models to ascertain the futures of various energy resources. This title will be of interest to students of Environmental Studies and Economics.
Energy, Foresight and Strategy (Routledge Revivals)
by Thomas J. SargentThe essays in Energy, Foresight and Strategy apply rational expectation theory to various energy markets with the intention of discussing issues relevant to analysis and decision making in the whole of the energy field. Originally published in 1985, issues explored include oil exportation, energy prices and embargoes, both focussing on how past regulation has created issues in the market at the time of publication as well as creating models to ascertain the futures of various energy resources. This title will be of interest to students of Environmental Studies and Economics.
Energy formula (contracted)
by RnibA standard formula triangle showing the formula for energy. The top section shows E, the bottom left shows M, and the bottom right shows L.
Energy from Biomass: Proceedings of the EC Contractors’ Meeting held in Copenhagen, 23–24 June 1981 (Solar Energy R&D in the Ec Series E: #1)
by P. Chartier Willeke PalzProceedings of the EC Contractors' Meeting held in Copenahgen, 23-24 June, 1981
Energy from Microalgae (Green Energy and Technology)
by Eduardo Jacob-Lopes Leila Queiroz Zepka Maria Isabel QueirozThis book presents an authoritative and comprehensive overview of the production and use of microalgal biomass and bioproducts for energy generation. It also offers extensive information on engineering approaches to energy production, such as process integration and process intensification in harnessing energy from microalgae. Issues related to the environment, food, chemicals and energy supply pose serious threats to nations’ success and stability. The challenge to provide for a rapidly growing global population has made it imperative to find new technological routes to increase the production of consumables while also bearing in mind the biosphere’s ability to regenerate resources. Microbial biomass is a bioresource that provides effective solutions to these challenges.Divided into eight parts, the book explores microalgal production systems, life cycle assessment and the bio-economy of biofuels from microalgae, process integration and process intensification applied to microalgal biofuels production. In addition, it discusses the main fuel products obtained from microalgae, summarizing a range of useful energy products derived from algae-based systems, and outlines future developments. Given the book’s breadth of coverage and extensive bibliography, it offers an essential resource for researchers and industry professionals working in renewable energy.
Energy from Nuclear Fission: An Introduction (Undergraduate Lecture Notes in Physics)
by Enzo De Sanctis Stefano Monti Marco RipaniThis book provides an overview on nuclear physics and energy production from nuclear fission. It serves as a readable and reliable source of information for anyone who wants to have a well-balanced opinion about exploitation of nuclear fission in power plants. The text is divided into two parts; the first covers the basics of nuclear forces and properties of nuclei, nuclear collisions, nuclear stability, radioactivity, and provides a detailed discussion of nuclear fission and relevant topics in its application to energy production. The second part covers the basic technical aspects of nuclear fission reactors, nuclear fuel cycle and resources, safety, safeguards, and radioactive waste management. The book also contains a discussion of the biological effects of nuclear radiation and of radiation protection, and a summary of the ten most relevant nuclear accidents. The book is suitable for undergraduates in physics, nuclear engineering and other science subjects. However, the mathematics is kept at a level that can be easily followed by wider circles of readers. The addition of solved problems, strategically placed throughout the text, and the collections of problems at the end of the chapters allow readers to appreciate the quantitative aspects of various phenomena and processes. Many illustrations and graphs effectively supplement the text and help visualising specific points.
Energy from Waste: Production and Storage
by Ram K. GuptaConversion of waste into value-added products such as energy transforms a potential environmental problem into a sustainable solution. Energy from Waste: Production and Storage focuses on the conversion of waste from various sources for use in energy production and storage applications. It provides the state-of-the-art in developing advanced materials and chemicals for energy applications using wastes and discusses the various treatment processes and technologies. Covers synthesis of usable materials from various types of waste and their application in energy production and storage Presents an overview and applications of wastes for green energy production and storage Provides fundamentals of electrochemical behavior and understanding of energy devices such as fuel cells, batteries, supercapacitors, and solar cells Elaborates on advanced technologies used to convert waste into green biochemical energy This work provides new direction to scientists, researchers, and students in materials and chemical engineering and related subjects seeking to sustainable solutions to energy production and waste management.
Energy from Waste: Production and Storage
by Ram K. Gupta Tuan Anh NguyenConversion of waste into value-added products such as energy transforms a potential environmental problem into a sustainable solution. Energy from Waste: Production and Storage focuses on the conversion of waste from various sources for use in energy production and storage applications. It provides the state-of-the-art in developing advanced materials and chemicals for energy applications using wastes and discusses the various treatment processes and technologies. Covers synthesis of usable materials from various types of waste and their application in energy production and storage Presents an overview and applications of wastes for green energy production and storage Provides fundamentals of electrochemical behavior and understanding of energy devices such as fuel cells, batteries, supercapacitors, and solar cells Elaborates on advanced technologies used to convert waste into green biochemical energy This work provides new direction to scientists, researchers, and students in materials and chemical engineering and related subjects seeking to sustainable solutions to energy production and waste management.
Energy from waves (Large print)
by RnibThis is a labelled diagram of a wave generator used to produce electrical energy from the power of ocean waves. There is a locator dot shown, which will be at the top left of the page when the image is the correct way up. The diagram is surrounded by a dashed line image border. The ocean water is shown stretching across the bottom half of the page. The device is seen from the side. At the centre of the page is an axle that is connected to a generator. It fixed to a paddle-shape component to the left that is turned alternately clockwise and anti-clockwise in a rocking motion by the action of the waves. This motion is converted to electrical energy by the generator. There are many other systems for converting wave energy into electrical power, using buoys or piston devices.
Energy Futures: The Story of Fossil Fuel, Greenhouse Gas, and Climate Change
by Daniel SoederThe objective of this book is to help readers better understand the links between fossil fuel, greenhouse gas, and climate change in a clear, explanatory format. It avoids sensationalism and politics, using plain language to explain the details of the science, how the science works, and how we know what we know. It describes the history of fossil fuels, why fossil fuel combustion products are a problem, and what must be done to address the impacts on climate. It provides details about a number of energy engineering solutions to replace fossil fuels and technology called geoengineering that can cool the planet and directly remove greenhouse gases from the atmosphere. Some of these technologies can be implemented almost immediately, and others may be applied in the future. Many young people are pessimistic about the future and prepared to give up on addressing climate change. The book strives to maintain hope throughout that humanity can solve this and other environmental problems. The climate crisis was caused by human engineering, and human engineering can fix it. The goal is to produce informed readers that can have responsible discussions with their political leaders about implementing solutions to climate change.
Energy Generation using Reverse Electrodialysis: Principles, Implementation, and Applications (SpringerBriefs in Applied Sciences and Technology)
by Daejoong Kim Kilsung Kwon Deok Han Kim Longnan LiThis book provides an introduction to the working principles of reverse electrodialysis and its practical application in the generation of electricity. Salinity gradient energy (SGE) has received significant attention recently due to the energy crisis resulting from the depletion of fossil fuels and the growth in energy demand. There are currently three methods to convert SGE into electricity: pressure retarded osmosis (PRO), reverse electrodialysis (RED), and capacitive mixing (CAPMIX). This book covers the theory and implementation of reverse electrodialysis, which uses ion exchange membranes to selectively deliver cations or anions, and its advantages over other methods, such as high reliability without any moving parts, the direct energy conversion process from chemical energy to electrical energy, and its low fouling rate. All of these have made RED an attractive option, however, there are various challenges in the route to commercialization and these are also described. The book summarizes the research progress and current status of RED, with a final chapter considering the outlook for the future of the technology at a commercial level.
Energy Harvesting and Energy Efficiency: Technology, Methods, and Applications (Lecture Notes in Energy #37)
by Nicu Bizon Naser Mahdavi Tabatabaei Frede Blaabjerg Erol KurtThis book presents basic and advanced concepts for energy harvesting and energy efficiency, as well as related technologies, methods, and their applications. The book provides up-to-date knowledge and discusses the state-of-the-art equipment and methods used for energy harvesting and energy efficiency, combining theory and practical applications. Containing over 200 illustrations and problems and solutions, the book begins with overview chapters on the status quo in this field. Subsequent chapters introduce readers to advanced concepts and methods. In turn, the final part of the book is dedicated to technical strategies, efficient methods and applications in the field of energy efficiency, which also makes it of interest to technicians in industry.The book tackles problems commonly encountered using basic methods of energy harvesting and energy efficiency, and proposes advanced methods to resolve these issues. All the methods proposed have been validated through simulation and experimental results. These “hot topics” will continue to be of interest to scientists and engineers in future decades and will provide challenges to researchers around the globe as issues of climate change and changing energy policies become more pressing.Here, readers will find all the basic and advanced concepts they need. As such, it offers a valuable, comprehensive guide for all students and practicing engineers who wishing to learn about and work in these fields.
Energy Harvesting for Wearable Sensor Systems: Inductive Architectures for the Swing Excitation of the Leg (Springer Series in Advanced Microelectronics #62)
by Klevis Ylli Yiannos ManoliThis book investigates several non-resonant inductive harvester architectures in order to find the magnet coil arrangement that generates the largest power output. The book is useful as a step-by-step guide for readers unfamiliar with this form of energy harvesting, but who want to build their own system models to calculate the magnet motion and, from that, the power generation available for body-worn sensor systems. The detailed description of system model development will greatly facilitate experimental work with the aim of fabricating the design with the highest predicted power output. Based on the simulated optimal geometry, fabricated devices achieve an average power output of up to 43 mW during walking, an amount of power that can supply modern low-power, body-worn systems. Experiments were also carried out in industrial applications with power outputs up to 15 mW. In sum, researchers and engineers will find a step-by-step introduction to inductive harvesting and its modeling aspects for achieving optimal harvester designs in an efficient manner.
Energy Harvesting Technologies
by Shashank Priya Daniel J. InmanEnergy Harvesting Technologies provides a cohesive overview of the fundamentals and current developments in the field of energy harvesting. In a well-organized structure, this volume discusses basic principles for the design and fabrication of bulk and MEMS based vibration energy systems, theory and design rules required for fabrication of efficient electronics, in addition to recent findings in thermoelectric energy harvesting systems. Combining leading research from both academia and industry onto a single platform, Energy Harvesting Technologies serves as an important reference for researchers and engineers involved with power sources, sensor networks and smart materials.