This book provides a very common-sense approach to transforming the Electricity Industry to meet clean energy goals and simplifying coordination with DER at scale with plug and play interoperability ...over time. It shows you a new way to architect solutions using a modern, event-driven, standards-based, elastic, cloud-based, distributed architecture to simplify and abstract communications with utility, customer, and third-party owned clean energy assets.The book describes the architectural and technological problems of our 20th Century centralized model and provides a pragmatic alternative architecture with examples of how to seamlessly integrate large numbers of Distributed Energy Resources (DER) with centralized systems that take advantage of intelligent edge devices through coordination instead of direct command and control. It also includes references to DOE's Laminar Grid Architecture philosophy and shows how the Energy IoT Reference Architecture is aligned to solve today's biggest Electricity Industry problems.You'll find detailed explanations of common energy IoT reference architecture; understand integration of utility, customer, and third party distributed grid assets to support grid services and market opportunities, and master the elastic scalability solution which is considered by many to be the biggest problem in utility systems for DER. This is a must-have resource for architects, engineers, software developers, government officials, undergraduate students, and professors.
Power quality of power systems affects all connected electrical and electronic equipment. Power quality is a measure of deviations in voltage and frequency of the particular supply system. In recent ...years, there has been a considerable increase in nonlinear loads; in particular distributed loads, such as computers, TV monitors and lighting. These draw harmonic currents which, when distorted, have detrimental effects including interference, loss of reliability, increased operating costs, equipment overheating, motor failures, capacitor failure and inaccurate power metering. This subject is pertinent to engineers involved with electric power systems, electronic equipment, computers and manufacturing equipment. This book shows readers to understand the causes and effects of power quality problems such as non-sinusoidal wave shapes, voltage outages, losses due to poor power quality, and origins of single-time events such as voltage dips, voltage reductions and outages, along with techniques to mitigate these problems.
From tax advantages to hydrogen sourcing, Renewable Energy Investments for Sustainable Business Projectsexplores a variety of the latest practices and technological developments surrounding renewable ...energy, offering practical insight and tangible advice to academics and researchers in environmental management.
Multidimensional Strategic Outlook on Global Competitive Energy Economics and Financeanalyses current trends in energy production and use, with a focus on technological developments that contribute ...to the reduction of price in energy production and renewable energy sources that provide continuity in energy production.
A thorough and exhaustive presentation of theoretical analysis and practical techniques for the small-signal analysis and control of large modern electric power systems as well as an assessment of ...their stability and damping performance. Such systems may contain many hundreds of synchronous generators and high voltage power electronics equipment known as FACTS Devices. The book describes new techniques not only for the tuning and analysis of stabilizers for systems with many generators and FACTS Devices but also for their coordination. Of practical interest, these techniques are illustrated with relevant examples based on a multi-machine power system containing FACTS Devices for operating conditions ranging from light to peak load. By introducing new analytical concepts, using examples, and by employing production-grade software, practical insights are provided into the significance and application of various analytical techniques.
This 2005 book is a comparative history of the economic organisation of energy, telecommunications and transport in Europe in the nineteenth and twentieth centuries. It examines the role that private ...and public enterprise have played in the construction and operation of the railways, electricity, gas and water supply, tramways, coal, oil and natural gas industries, telegraph, telephone, computer networks and other modern telecommunications. The book begins with the arrival of the railways in the 1830s, charts the development of arms' length regulation, municipalisation and nationalisation, and ends on the eve of privatisation in the 1980s. Robert Millward argues that the role of ideology, especially in the form of debates about socialism and capitalism, has been exaggerated. Instead the driving forces in changes in economic organisation were economic and technological factors and the book traces their influence in shaping the pattern of regulation and ownership of these key sectors of modern economies.
The book (' The Energy Needs Of Humanity Through Time: From The Industrial Revolution To Type I Civilization') is about global consumption of energy and its impact on our planet. Energy demand is a ...quite dynamic phenomenon and depends heavily on technological development, which is particularly evident during industrial revolutions, which had improved the quality of life for the inhabitants, but lead to increase in energy consumption. However~the economic progress did not account for tangible physical limits of our planet, which manifested in rise in greenhouse gas concentrations in the atmosphere and a rapid increase in average annual global temperature. The consequences of this type of behavior are clear – future global warming, rising sea levels and direct threat to vast, low-lying areas, as well as a rapid increase in the number and consequences of extreme weather events such as storms, prolonged rainfall, and the like. A path toward less energy intense future requires rapid reductions of fossil fuels usage but also a radical shift towards larger energy efficiency. The book is intended as a source of key data showing how we have arrived at the current state of energy consumption and understanding of climate change.
In 2011, the nuclear industry was marked by a wide-scale natural disaster which triggered the nuclear accident at the Fukushima-Daiichi power plant in Japan on 11 March. This accident has drawn ...renewed political attention to the need to minimise risk and guarantee the most robust levels of nuclear safety, security and non-proliferation. Guaranteeing the highest possible standards of nuclear safety, security and emergency preparedness and response remains a central concern of nuclear energy policy, in Europe as much as globally. In the EU, in the wake of the Fukushima accident, a programme of comprehensive risk and safety assessments of nuclear power plants was launched by the European Commission in close cooperation with national regulators and the nuclear industry. The conclusions of these ‘stress tests’ are due in late autumn 2012. Proposals to improve the legal and regulatory framework governing the safety of nuclear installations should follow by the end of the year. In the aftermath of the Fukushima accident, the global nuclear fuel market became exposed to greater uncertainty. ESA’s Annual Report gives concise insights into EU Member States’ responses to this incident.
As the electric power industry faces the challenges of climate change, technological disruption, new market imperatives, and changing policies, a renowned energy expert offers a roadmap to the future ...of this essential sector. As the damaging and costly impacts of climate change increase, the rapid development of sustainable energy has taken on great urgency. The electricity industry has responded with necessary but wrenching shifts toward renewables, even as it faces unprecedented challenges and disruption brought on by new technologies, new competitors, and policy changes. The result is a collision course between a grid that must provide abundant, secure, flexible, and affordable power, and an industry facing enormous demands for power and rapid, systemic change.The fashionable solution is to think small: smart buildings, small-scale renewables, and locally distributed green energy. But Peter Fox-Penner makes clear that these will not be enough to meet our increasing needs for electricity. He points instead to the indispensability of large power systems, battery storage, and scalable carbon-free power technologies, along with the grids and markets that will integrate them. The electric power industry and its regulators will have to provide all of these, even as they grapple with changing business models for local electric utilities, political instability, and technological change. Power after Carbon makes sense of all the moving parts, providing actionable recommendations for anyone involved with or relying on the electric power system.