Böcker i IEEE Press Power and Energy Sy-serien

Understand transients and their roles in linear systems with this essential guide Electromagnetic transients are a fundamental aspect of linear power systems, and therefore a key knowledge area for electrical engineers. Understanding Electromagnetic Transients in Power Systems provides a comprehensive but accessible overview to transients, their underlying theory and mathematics, and their impact in electrical power system design. Its detailed but clear presentation makes it a must-own for students and working engineers alike. Readers of Understanding Electromagnetic Transients in Power Systems will also find: Deep consideration of the relationship between foundational concepts, mathematical calculations, and impacts on equipment Detailed discussion of topics including time and frequency domain analysis, basic transforms, fundamentals on electrical circuit transients and traveling waves, overvoltage, insulation coordination, and many more Over 100 solved simple examples to facilitate understandingUnderstanding Electromagnetic Transients in Power Systems is ideal for electrical engineers and professionals in utilities and equipment manufacturing, as well as for graduate and advanced undergraduate students learning about transients, electrical circuits, and related subjects.

Understand and deploy a sustainable alternative to mineral oils Transformers rank among the costliest and most important components in an electrical power network. Traditionally, mineral oils have been used as the primary insulating liquids for transformers, playing a crucial role in extending transformer life span. In an expanding global energy market, however, demand for sustainable alternatives to mineral oils has skyrocketed, and the search for alternative, biodegradable insulating liquids has accelerated. Electrical Discharges in Alternative Transformer Liquids is the first work of its kind to survey the available range of biodegradable insulating liquids and analyze their electrical discharging behavior. It addresses the knowledge gaps which have led to slow adoption of these insulating liquids by utility companies, despite their obvious performance benefits. The result promises to be a durable guide to monitoring transformer condition and designing transformer insulation. Readers will also find: Knowledge, behavioral observations, intrinsic aspects, various accessing parameters, and measuring methodologies concerning electrical discharges in transformer liquids Detailed discussion of topics high voltage electrical insulation, electrical machine maintenance, and more Comparative analysis of ester liquids relative to mineral oils Electrical Discharges in Alternative Transformer Liquids is ideal for researchers involved in electrical power utilities and transformer design, as well as for engineers and industry professionals in the energy industries, insulation design, and related fields.

A timely introduction to the revolutionary technologies reshaping the global energy market The search for more efficient and sustainable ways to meet society's energy requirements has driven recent technological innovation on an unprecedented scale. The energy needs of a growing population coupled with concerns about climate change have posed unique challenges that necessitate novel energy technologies. The transition of modern energy grids towards multi-energy networks, or MENs, promises to be a fundamental transformation in the way we energize our world. Interconnected Modern Multi-Energy Networks and Intelligent Transportation Systems presents an overview of the foundational methodologies and technologies underlying MENs and the groundbreaking vehicle systems that bring them together. With the inclusion of transformative technologies from radically different sectors, the content covered in this book will be of high value for researchers interested in future energy systems. Readers will also find: In-depth examination of the process of switching from conventional transportation systems to modern intelligent transportation ones Detailed discussions of topics including self-driving vehicles, hybrid energy technologies, grid-edge, and more The introduction of a holistic, reconfigurable system adaptable to vastly different conditions and forms of network interaction Interconnected Modern Multi-Energy Networks and Intelligent Transportation Systems is useful for researchers in electrical, mechanical, civil, architectural, or environmental engineering, as well as for telecommunications researchers and for any industry professionals with an interest in energy transportation.

"In electrical engineering, electric machine is a general term for machines using electromagnetic forces, such as electric motors, electric generators, and others. They are electromechanical energy converters: an electric motor converts electricity to mechanical power while an electric generator converts mechanical power to electricity. The moving parts in a machine can be rotating (rotating machines) or linear (linear machines). Besides motors and generators, a third category often included is transformers, which although they do not have any moving parts are also energy converters, changing the voltage level of an alternating current"--

Stability-Constrained Optimization for Modern Power System Operation and PlanningComprehensive treatment of an aspect of stability constrained operations and planning, including the latest research and engineering practicesStability-Constrained Optimization for Modern Power System Operation and Planning focuses on the subject of power system stability. Unlike other books in this field, which focus mainly on the dynamic modeling, stability analysis, and controller design for power systems, this book is instead dedicated to stability-constrained optimization methodologies for power system stability enhancement, including transient stability-constrained power system dispatch and operational control, and voltage stability-constrained dynamic VAR Resources planning in the power grid.Authored by experts with established track records in both research and industry, Stability-Constrained Optimization for Modern Power System Operation and Planning covers three parts:* Overview of power system stability, including definition, classification, phenomenon, mathematical models and analysis tools for stability assessment, as well as a review of recent large-scale blackouts in the world* Transient stability-constrained optimal power flow (TSC-OPF) and transient stability constrained-unit commitment (TSC-UC) for power system dispatch and operational control, including a series of optimization model formulations, transient stability constraint construction and extraction methods, and efficient solution approaches* Optimal planning of dynamic VAR Resources (such as STATCOM and SVC) in power system for voltage stability enhancement, including a set of voltage stability indices, candidate bus selection methods, multi-objective optimization model formulations, and high-quality solution approachesStability-Constrained Optimization for Modern Power System Operation and Planning provides the latest research findings to scholars, researchers, and postgraduate students who are seeking optimization methodologies for power system stability enhancement, while also offering key practical methods to power system operators, planners, and optimization algorithm developers in the power industry.