An all-in-one resource on power system protection fundamentals, practices, and applications Made up of an assembly of electrical components, power system protections are a critical piece of the electric power system. Despite its central importance to the safe operation of the power grid, the information available on the topic is limited in scope and detail. In Power System Protection: Fundamentals and Applications, a team of renowned engineers delivers an authoritative and robust overview of power system protection ideal for new and early-career engineers and technologists. The book offers device- and manufacturer-agnostic fundamentals using an accessible balance of theory and practical application. It offers a wealth of examples and easy-to-grasp illustrations to aid the reader in understanding and retaining the information provided within. In addition to providing a wealth of information on power system protection applications for generation, transmission, and distribution facilities, the book offers readers: A thorough introduction to power system protection, including why it's required and foundational definitions Comprehensive explorations of basic power system protection components, including instrument transformers, terminations, telecommunications, and more Practical discussions of basic types of protection relays and their operation, including overcurrent, differential, and distance relays In-depth examinations of breaker failure protection and automatic reclosing, including typical breaker failure tripping zones, logic paths, pedestal breakers, and more Perfect for system planning engineers, system operators, and power system equipment specifiers, Power System Protection: Fundamentals and Applications will also earn a place in the libraries of design and field engineers and technologists, as well as students and scholars of power-system protection.

This new book manages the unthinkable- it conveys crucial technical information to engineers without boring them to tears In this unique reference, expert embedded designer Lisa Simone provides the solutions to typical embedded software debugging problems from a fresh new perspective. She introduces a team of engineers who readers will recognize from their own workplaces, and then confronts them with real-world debugging scenarios of progressive complexity, drawing the reader into the mysteries with their new fictional colleagues, and guiding them step-by-step toward successful solutions.
Table of Contents
Introduction
Chapter 1: The Case of the Irate Customer: Debugging Other People's Code, Fast
Chapter 2: The Newest Employee: Learning the Embedded Ropes Through Code Inheritance
Chapter 3: It Compiles with No Errors; It Must Work Integrating Changes in a Larger System
Chapter 4: The Case of Thermal Runaway: Rare Transient Bugs are Still Bugs
Chapter 5: The Case of the Creeping Slider Carriage and the Case of the Hesitating Clock: Alternate Methods of Understanding System Performance
Chapter 6: If I Only Changed the Software, Why is the Phone on Fire?
Chapter 7: The Case of the Rapid Heartbeat: Meeting the Spirit of the Requirement
Chapter 8: What Kind of Error Message is "lume Fault"? When all of the Symptoms Seem Impossible
Chapter 9: When It's Not Hardware, It's Software. And Vice Versa. Blurring the Interface.
Chapter 10: Li Mei s List of Debugging Secrets
.Unique format casts the reader as "technical detective" by presenting a new mystery in every chapter
.Not another dry technical book Conversational tone and intriguing quandaries draw the reader into the action, while teaching crucial debugging skills
.The final chapter, a summary of the smart debugging techniques introduced throughout the book, is a quick reference to help solve future problems"

This book presents a compelling account of atomic development over the last century that demonstrates how humans have repeatedly chosen to ignore the associated impacts for the sake of technological, scientific, military, and economic expediency. In 1945, Albert Einstein said, "The release of atomic power has changed everything except our way of thinking ... the solution to this problem lies in the heart of mankind." This statement seems more valid today than ever. Romancing the Atom: Nuclear Infatuation from the Radium Girls to Fukushima presents compelling moments that clearly depict the folly and shortsightedness of our "atomic mindset" and shed light upon current issues of nuclear power, waste disposal, and weapons development. The book consists of ten nonfiction historical vignettes, including the women radium dial painters of the 1920s, the expulsion of the Bikini Island residents to create a massive "petri dish" for post-World War II bomb and radiation testing, the government-subsidized uranium rush of the 1950s and its effects on Native American communities, and the secret radioactive material development facilities in residential neighborhoods. In addition, the book includes original interviews of prominent historians, writers, and private citizens involved with these poignant stories. More information is available online at www.romancingtheatom.com. Draws from top-secret government and military documents from the history of atomic development, archival documents from the Library of Congress, and letters from Albert Einstein and other prominent scientists during the 1950s and 1960s Presents chronological histories of events such as the displacement and relocation of the Bikini Islanders, uranium mines on Native American lands, and the cleanup of a secret uranium milling facility in a residential neighborhood in Oxford, Ohio Contains various maps including radioactive cleanup sites in the United States and other parts of the world Includes many photographs and illustrations that accompany the text Provides a bibliography containing a significant collection of books, magazine articles, newspaper reports, movies, comics, government documents, and other related archival materials

Quantum mechanics - central not only to physics, but also to chemistry, materials science, and other fields - is notoriously abstract and difficult. Essential Quantum Mechanics is a uniquely concise and explanatory book that fills the gap between introductory and advanced courses, between popularizations and technical treatises. By focusing on the fundamental structure, concepts, and methods of quantum mechanics, this introductory yet sophisticated work emphasizes both physical and mathematical understanding. A modern perspective is adopted throughout - the goal, in part, being to gain entry into the world of 'real' quantum mechanics, as used by practicing scientists. With over 60 original problems, Essential Quantum Mechanics is suitable as either a text or a reference. It will be invaluable to physics students as well as chemists, electrical engineers, philosophers, and others whose work is impacted by quantum mechanics, or who simply wish to better understand this fascinating subject.

Research in environmental justice reveals that low-income and minority neighborhoods in our nation's cities are often the preferred sites for landfills, power plants, and polluting factories. Those who live in these sacrifice zones are forced to shoulder the burden of harmful environmental effects so that others can prosper. "Mountains of Injustice "broadens the discussion from the city to the country by focusing on the legacy of disproportionate environmental health impacts on communities in the Appalachian region, where the costs of cheap energy and cheap goods are actually quite high. Through compelling stories and interviews with people who are fighting for environmental justice, "Mountains of Injustice "contributes to the ongoing debate over how to equitably distribute the long-term environmental costs and consequences of economic development.

Get a firm handle on the engineering reliability process with this insightful and complete resource Named one of the Best Industrial Management eBooks of All Time by BookAuthority As featured on CNN, Forbes and Inc - BookAuthority identifies and rates the best books in the world, based on recommendations by thought leaders and experts The newly and thoroughly revised 3rd Edition of Reliability Engineering delivers a comprehensive and insightful analysis of this crucial field. Accomplished author, professor, and engineer, Elsayed. A. Elsayed includes new examples and end-of-chapter problems to illustrate concepts, new chapters on resilience and the physics of failure, revised chapters on reliability and hazard functions, and more case studies illustrating the approaches and methodologies described within. The book combines analyses of system reliability estimation for time independent and time dependent models with the construction of the likelihood function and its use in estimating the parameters of failure time distribution. It concludes by addressing the physics of failures, mechanical reliability, and system resilience, along with an explanation of how to ensure reliability objectives by providing preventive and scheduled maintenance and warranty policies. This new edition of Reliability Engineering covers a wide range of topics, including: Reliability and hazard functions, like the Weibull Model, the Exponential Model, the Gamma Model, and the Log-Logistic Model, among others System reliability evaluations, including parallel-series, series-parallel, and mixed parallel systems The concepts of time- and failure-dependent reliability within both repairable and non-repairable systems Parametric reliability models, including types of censoring, and the Exponential, Weibull, Lognormal, Gamma, Extreme Value, Half-Logistic, and Rayleigh Distributions Perfect for first-year graduate students in industrial and systems engineering, Reliability Engineering, 3rd Edition also belongs on the bookshelves of practicing professionals in research laboratories and defense industries. The book offers a practical and approachable treatment of a complex area, combining the most crucial foundational knowledge with necessary and advanced topics.

Sugarcane exhibits all the major characteristics of a promising bioenergy crop including high biomass yield, C4 photosynthetic system, perennial nature, and ratooning ability. Being the largest agricultural commodity of the world with respect to total production, sugarcane biomass is abundantly available. Brazil has already become a sugarcane biofuels centered economy while Thailand, Colombia, and South Africa are also significantly exploiting this energy source. Other major cane producers include India, China, Pakistan, Mexico, Australia, Indonesia, and the United States. It has been projected that sugarcane biofuels will be playing extremely important role in world's energy matrix in recent future. This book analyzes the significance, applications, achievements, and future avenues of biofuels and bioenergy production from sugarcane, in top cane growing countries around the globe. Moreover, we also evaluate the barriers and areas of improvement for targeting efficient, sustainable, and cost-effective biofuels from sugarcane to meet the world's energy needs and combat the climate change.

This book discusses dynamic modeling, simulation, and control strategies for Photovoltaic (PV) stand-alone systems during variation of environmental conditions. Moreover, the effectiveness of the implemented Maximum Power Point Tracking (MPPT) techniques and the employed control strategy are evaluated during variations of solar irradiance and cell temperature. The simulation results are based on the reliability of the MPPT techniques applied in extracting the maximum power from the PV system during the rapid variation of the environmental conditions. The authors review two MPPT techniques implemented in PV systems, namely the perturb and observe (P&O) MPPT Technique and the Incremental Conductance (InCond) MPPT technique. These two MPPT techniques were simulated by the MATLAB/Simulink and the results response of the PV array from voltage, current, and power are compared to the effect of solar irradiation and temperature change.

This book explores categories of applications and driving factors surrounding the Smart City phenomenon. The contributing authors provide perspective on the Smart Cities, covering numerous applications and classes of applications. The book uses a top-down exploration of the driving factors in Smart Cities, by including focal areas including "Smart Healthcare," "Public Safety & Policy Issues," and "Science, Technology, & Innovation." Contributors have direct and substantive experience with important aspects of Smart Cities and discuss issues with technologies & standards, roadblocks to implementation, innovations that create new opportunities, and other factors relevant to emerging Smart City infrastructures. Features an exploration of Smart City issues and solutions from a variety of stakeholders in the evolving field Presents conversational, nuanced, and forward thinking perspectives on Smart Cities, their implications, limitations, obstacles, and opportunities Includes contributions from industry insiders who have direct, relevant experience with their respective subjects as well as positioning and corporate stature

The development of nuclear weapons by the Manhattan Project during World War II was one of the most dramatic scientific/technological episodes in human history. This book, prepared by a recognized expert on the Manhattan Project, offers a concise survey of the essential physics concepts underlying fission weapons. The text describes the energetics and timescales of fast-neutron chain reactions, why only certain isotopes of uranium and plutonium are suitable for use in fission weapons, how critical mass and bomb yield can be estimated, how the efficiency of nuclear weapons can be enhanced, how the fissile forms of uranium and plutonium were obtained, some of the design details of the 'Little Boy' and 'Fat Man' bombs, and some of the thermal, shock, and radiation effects of nuclear weapons. Calculation exercises are provided, and a Bibliography lists authoritative print and online sources of information for readers who wish to pursue more detailed study of this fascinating topic.

The energy efficiency paradigm associated with Wireless Sensor Networks (WSNs) and the Internet of Things (IoT) is a major bottleneck for the development of related technologies. To overcome this limitation, the design and development of efficient and high-performance energy harvesting systems for WSN and IoT environments are being explored. This edited book comprehensively covers energy harvesting sources and techniques that can be used for WSN and IoT systems. The authors cover energy harvesting, energy management and energy prediction models to maximize the energy harvested. They also identify major architecture advances to develop cost-effective, efficient, and reliable energy harvesting systems. This is a useful reference for researchers, engineers, practitioners, designers, and R&D staff involved in the development of energy harvesting models, architectures and technologies for practical deployments in WSN and IoT environments. The book will be of interest to professionals involved in developing energy harvesting systems, industry practitioners, and manufacturers in IoT, sensing, and energy harvesting technologies. Finally, it will also be a useful reference for graduate, PhD and postdoctoral students following courses in WSNs, IoT and energy harvesting technologies.

The energy sector continues to receive increased attention from both consumers and producers due to its impact on all aspects of life. Electrical energy especially has become more in demand because of the delivery of the service to a large percentage of consumers in addition to the progress and increase of industrial production. It is thus necessary to find advanced systems capable of transferring huge amounts of electrical energy efficiently and safely. Nanotechnology aims to develop new types of atomic electronics that adopt quantum mechanics and the movement of individual particles to produce equipment faster and smaller and solve problems attributed to the electrical engineering field. Emerging Nanotechnology Applications in Electrical Engineering contains innovative research on the methods and applications of nanoparticles in electrical engineering. This book discusses the wide array of uses nanoparticles have within electrical engineering and the diverse electric and magnetic properties that nanomaterials help make prevalent. While highlighting topics including electrical applications, magnetic applications, and electronic applications, this book is ideally designed for researchers, engineers, industry professionals, practitioners, scientists, managers, manufacturers, analysts, students, and educators seeking current research on nanotechnology in electrical, electronic, and industrial applications.

Residential buildings consume about a quarter of all energy (including electrical and thermal) in industrialized countries and emit around 20% of the carbon emissions there. Older and outdated heating and cooling technology causes high energy demand and, depending on building type, secondary causes can include ventilation and lighting. Technology is available to mitigate high energy consumption, and to enable the use of renewable or environmentally friendly energy, partly generated locally. This book, written by international experts from academia as well as industry, compiles and describes several key technologies available to reduce a residential building's energy consumption. Key themes include local energy generation, such as the use of sunlight to reduce heating needs, and photovoltaics for electricity. Case studies are included in most chapters to provide real-world context for the technologies described.

The IP Multimedia Subsystem (IMS) is the foundation architecture for the next generation of mobile phones, wireless-enabled PDAs, PCs, and so on, delivering multimedia content (audio, video, text, etc.) over all types of networks. It is essential for network engineers/administrators and telecommunications engineers to not only understand IMS architecture but to also be able to apply it at every stage of the network design process. This book will contain pragmatic information on how to engineer IMS networks as well as an applications oriented approach, for engineering and networking professionals who are responsible for making IMS "play" in the real world.
* Describes the convergence of wireless IMS (IP Multimedia Subsystem) with other networks, including wireline and cable
* Discusses building interfaces for end users and IMS applications servers
* Explores network management issues with IMS

The pressing need for a smarter and greener grid is obvious, but how this goal should be achieved is much less clear. This book clearly defines the environmental promise of the smart grid and describes the policies necessary for fully achieving the environmental benefits of the digital energy revolution. The United States' electrical grid is an antique. It was built to serve a 20th-century economy and designed in an era when the negative environmental impacts of electricity production were poorly understood. It must be upgraded and modernized. The proposed solution is a "smart grid"-a network of new digital technologies, equipment, and controls that can respond quickly to the public's changing energy needs by facilitating two-way communication between the utility and consumers. This book explains the environmental benefit of a smart grid, examines case studies of existing smart grids, and identifies the legal and regulatory policy hurdles that must be overcome to fully realize the smart grid's benefits. Based on six diverse organizations' experience as "early adopters" in the digital energy revolution, the authors explore how a smart electric grid offers real promise for supercharging energy efficiency, democratizing demand response, electrifying transportation, preparing for ubiquitous distributed clean energy technologies, and automating the distribution system. Against the backdrop of climate change and continuing economic uncertainty, setting a path for environmental improvement and upgrading our electric grid with new digital technologies and associated smart policies is more critical than ever before. Deciphers the muddled "information" from industry leaders and policymakers about 21st-century energy technology, enabling readers to understand how a smart grid can be a cost-effective tool to benefit the climate Provides detailed information from case studies of six early smart grid leaders to showcase the strengths and weaknesses of these programs Identifies the legal and regulatory challenges that could prevent the successful implementation of a smart electric grid, making it clear that the issues are not purely technological Serves ideally as a primary text for courses on smart grid technology and policy as well as a resource for graduate-level research for energy policy or climate change policy courses