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Good aging infrastructure management consists of optimizing the choice of equipment and its refurbishment while also making compatible changes in all those operating and ownership policies, the whole combination aimed at optimizing the business results the power system owner desires. Both a reference and tutorial guide, this second edition of Aging Power Delivery Infrastructures provides updated coverage of aging power delivery systems, the problems they cause, and the technical and managerial approaches that power systems owners can take to manage them. See What's New in the Second Edition: All chapters have been updated or are completely new Comprehensive discussions of all issues related to equipment aging Business impact analysis and models and engineering business studies of actual utility cases Strategy and policy issues and how to frame and customize them for specific situations This book looks at the basics of equipment aging and its system and business impacts on utilities. It covers various maintenance, service and retrofit methods available to mitigate age-related deterioration of equipment. It also presents numerous configuration and automation upgrades at the system level that can deal with higher portions of aging equipment in the system and still provide good service at a reasonable cost.
Good aging infrastructure management consists of optimizing the choice of equipment and its refurbishment while also making compatible changes in all those operating and ownership policies, the whole combination aimed at optimizing the business results the power system owner desires. Both a reference and tutorial guide, this second edition of Aging Power Delivery Infrastructures provides updated coverage of aging power delivery systems, the problems they cause, and the technical and managerial approaches that power systems owners can take to manage them. See What's New in the Second Edition: All chapters have been updated or are completely new Comprehensive discussions of all issues related to equipment aging Business impact analysis and models and engineering business studies of actual utility cases Strategy and policy issues and how to frame and customize them for specific situations This book looks at the basics of equipment aging and its system and business impacts on utilities. It covers various maintenance, service and retrofit methods available to mitigate age-related deterioration of equipment. It also presents numerous configuration and automation upgrades at the system level that can deal with higher portions of aging equipment in the system and still provide good service at a reasonable cost.
Due to its high impact on the cost of electricity and its direct
correlation with customer satisfaction, distribution reliability
continues to be one of the most important topics in the electric
power industry. Continuing in the unique tradition of the
bestselling first edition, Electric Power Distribution Reliability,
Second Edition consolidates all pertinent topics on electric power
distribution into one comprehensive volume balancing theory,
practical knowledge, and real world applications. Updated and expanded with new information on benchmarking, system hardening, underground conversion, and aging infrastructure, this timely reference enables you to- - Manage aging infrastructure - Harden electric power distribution systems - Avoid common benchmarking pitfalls - Apply effective risk management The electric power industry will continue to make distribution system reliability and customer-level reliability a top priority. Presenting a wealth of useful knowledge, Electric Power Distribution Reliability, Second Edition remains the only book that is completely dedicated to this important topic.
Implementing the automation of electric distribution networks, from simple remote control to the application of software-based decision tools, requires many considerations, such as assessing costs, selecting the control infrastructure type and automation level, deciding on the ambition level, and justifying the solution through a business case. Control and Automation of Electric Power Distribution Systems addresses all of these issues to aid you in resolving automation problems and improving the management of your distribution network. Bringing together automation concepts as they apply to utility distribution systems, this volume presents the theoretical and practical details of a control and automation solution for the entire distribution system of substations and feeders. The fundamentals of this solution include depth of control, boundaries of control responsibility, stages of automation, automation intensity levels, and automated device preparedness. To meet specific performance goals, the authors discuss distribution planning, performance calculations, and protection to facilitate the selection of the primary device, associated secondary control, and fault indicators. The book also provides two case studies that illustrate the business case for distribution automation (DA) and methods for calculating benefits, including the assessment of crew time savings. As utilities strive for better economies, DA, along with other tools described in this volume, help to achieve improved management of the distribution network. Using Control and Automation of Electric Power Distribution Systems, you can embark on the automation solution best suited for your needs.
"This book, with 16 chapters and five appendices, arguably may be the most comprehensive single volume on generator and motor protection on the market. .,."this book presents to practicing utility engineers a wealth of information that should be included in their library. Even those not directly involved in protection should have available to them the theory and practices associated with the protection described here .,."Throughout the book, typical protective equipment settings are calculated with appropriate reference to electromechanical, solid-state, and digital protective devices. Where required, the author resorts to the application of Excel and Mathcad. "Protective Relaying for Power Generation Systems is a recommended addition to every power engineer's library. The details may go beyond normal equipment protection requirements, but the depth of analysis, the data presented, and the qualitative discussion of all of the aspects involved in generator protection add a dimension not available in any single text. Reviewed by Stanley H. Horowitz in September/October 2006 Magazine of IEEE Power Engineering Society, Vol.4 No.5 Organizing material in a structure that allows for quick and easy reference, Protective Relaying for Power Generation Systems features an in-depth presentation of topics and specific information related to generators and motors. This book provides coverage of protective component considerations, including explanations of potential damage. It explores a broad range of subjects including detailed time decrement generator fault calculations and minimum excitation limits. The text contains Excel(R) and Mathcad(R) workbook constructions for performing protection-relatedcalculations. This is a valuable resource for electric utility engineers and those working in the power industry and at generation facilities.
Includes specific examples with highlights and detailed explanations of key points to consider for both standard and unusual utility forecasting situations. The Second Edition of Spatial Electric Load Forecasting contains 12 new chapters offering increased-coverage of weather correction and normalization of forecasts, anticipation of redevelopment, determining the validity of announced developments, and minimizing risk from over- or under-planning up-to-date information on new algorithms and innovative concepts in forecasting a review of forecasting pitfalls and mistakes encountered in the last decade by utilities in the U.S. and internationally case studies depicting challenging forecast environments load models illustrating various types of demand and discusses the components and qualities of an accurate load forecast the advantages and limitations of eight redevelopment forecasting techniques solutions to common roadblocks in popular spatial simulation programs Completely revised and expanded to reflect the latest advances in the field, Spatial Electric Load Forecasting, Second Edition is an authoritative and timely reference for electrical, electronics, industrial, transmission, distribution, power, energy, and research and development engineers; and planners, forecasters, economists, and analysts involved in transmission and distribution systems; and an outstanding text for upper-level undergraduate and graduate students in these disciplines.
This watershed reference explains distributed power generation systems for residential, commercial, industrial, and electric utility applications, objectively evaluating capabilities and limitations; carefully selecting where, when, and how they should be used; and thoroughly assessing layout and design possibilities. Offers detailed chapter-by-chapter case studies worked out in basic and sensitivity or alternative scenario variations focusing on the selection of DG and DG performance Placing DG in context through a series of tutorial background discussions, Distributed Power Generation examines the major types of distributed generators by category, including piston-driven and turbine, fuel cell, and renewable energy provides an overview of distributed and dispersed generation systems covers reliability and availability from the perspective of the customer and the electric utility focuses on time value of money concepts and their pragmatic application as decision-making tools looks at the cost, performance, and environmental impact of solar, wind, and low head hydro power explores energy storage systems including battery, flywheel, capacitors, and superconducting coil technologies investigates how demand and power generation vary over time, interact, and impact DG needs analyzes the application of predictive reliability methods to estimate the energy availability of a proposed DG design demonstrates the complexities involved in designing renewable systems to quantitative availability standards shows how equipment characteristics are optimized using simulation design methods details how and where unintentional or intentional bias can be hidden in a planning study and more Comparing DG to electric power systems and considering why it has become so competitive and desirable, Distributed Power Generation is a comprehensive reference ideal for power, electrical and electronics, industrial, manufacturing, and mechanical e
Power interruptions of the scale of the North American Blackout of 2003 are rare, but they still loom as a possibility. Will the aging infrastructure fail because deregulated monopolies have no financial incentives to upgrade? Is centralized planning becoming subordinate to market forces? Understanding Electric Utilities and De-Regulation, Second Edition provides an updated, non-technical description that sheds light on the nature of the industry and the issues involved in its transition away from a regulated environment. The book begins by broadly surveying the industry, from a regulated utility structure to the major concepts of de-regulation to the history of electricity, the technical aspects, and the business of power. Then, the authors delve into the technologies and functions on which the industry operates; the many ways that power is used; and the various means of power generation, including central generating stations, renewable energy, and single-household size generators. The authors then devote considerable attention to the details of regulation and de-regulation. To conclude, one new chapter examines aging infrastructures and reliability of service, while another explores the causes of blackouts and how they can be prevented. Based on the authors' extensive experience, Understanding Electric Utilities and De-Regulation, Second Edition offers an up-to-date perspective on the major issues impacting the daily operations as well as the long-term future of the electric utilities industry.
Power interruptions of the scale of the North American Blackout of 2003 are rare, but they still loom as a possibility. Will the aging infrastructure fail because deregulated monopolies have no financial incentives to upgrade? Is centralized planning becoming subordinate to market forces? Understanding Electric Utilities and De-Regulation, Second Edition provides an updated, non-technical description that sheds light on the nature of the industry and the issues involved in its transition away from a regulated environment. The book begins by broadly surveying the industry, from a regulated utility structure to the major concepts of de-regulation to the history of electricity, the technical aspects, and the business of power. Then, the authors delve into the technologies and functions on which the industry operates; the many ways that power is used; and the various means of power generation, including central generating stations, renewable energy, and single-household size generators. The authors then devote considerable attention to the details of regulation and de-regulation. To conclude, one new chapter examines aging infrastructures and reliability of service, while another explores the causes of blackouts and how they can be prevented. Based on the authors' extensive experience, Understanding Electric Utilities and De-Regulation, Second Edition offers an up-to-date perspective on the major issues impacting the daily operations as well as the long-term future of the electric utilities industry.
Providing more than twice the content of the original edition, this new edition is the premier source on the selection, development, and provision of safe, high-quality, and cost-effective electric utility distribution systems, and it promises vast improvements in system reliability and layout by spanning every aspect of system planning including load forecasting, scheduling, performance, and economics. Responding to the evolving needs of electric utilities, Power Distribution Planning Reference Book presents an abundance of real-world examples, procedural and managerial issues, and engineering and analytical methodologies that are crucial to efficient and enhanced system performance.
Illustrates state-of-the-art planning, design, operational, and managerial methods. Demonstrates novel approaches to utilizing resources in an aging electric power delivery infrastructure-maximizing system effectiveness and maintaining competitive financial performance while reinforcing good customer service.
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