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217 books about Power Resources and 30
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217 books about Power Resources and 30
217 books about Power Resources
30 start with P start with P
30 start with P start with P
Performance, Modelling and Reliability of Photovoltaic Systems
George E. Georghiou
The Institution of Engineering and Technology, 2020
This book provides a comprehensive range of topics for monitoring, modelling and assessing the performance of photovoltaic plants, and enabling effective asset management. Using real-world data, the book emphasises practical usability, systematically covering the knowledge needed to perform these tasks, from the basics all the way through to the evaluation of key performance indicators. Source code used to perform data analysis is also included. This book is ideal for anyone working with photovoltaic systems or plants.
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Periodic Control of Power Electronic Converters
Keliang Zhou
The Institution of Engineering and Technology, 2017
A key issue for power electronic converters is the ability to tackle periodic signals in electrical power processing to precisely and flexibly convert and regulate electrical power.
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Photovoltaic Technology for Hot and Arid Environments
Brahim Aïssa
The Institution of Engineering and Technology, 2023
The need to reduce greenhouse gas emissions and dependency on fossil fuels necessitates accelerated deployment of renewable energy, such as photovoltaics (PV). Regions with high insolation in the "Sun Belt" covering north Africa and the middle east, as well as in Australia, parts of Latin America, and elsewhere offer tremendous potential for PV, including for green hydrogen production. However, these regions are characterized by a hot climate and a dusty environment, both causing reduction of PV panel performance by 25% or more. The development of solar cells with enhanced resistance to thermal degradation and the reduction of panel soiling have therefore been subjects of intense study.
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Pollution, Politics, and Power
The Struggle for Sustainable Electricity
Thomas O. McGarity
Harvard University Press, 2019
The electric power industry has been transformed over the past forty years, becoming more reliable and resilient while meeting environmental goals. A big question now is how to prevent backsliding.
Pollution, Politics, and Power tells the story of the remarkable transformation of the electric power industry over the last four decades. Electric power companies have morphed from highly polluting regulated monopolies into competitive, deregulated businesses that generate, transmit, and distribute cleaner electricity. Power companies are investing heavily in natural gas and utility-scale renewable resources and have stopped building new coal-fired plants. They facilitate end-use efficiency and purchase excess electricity produced by rooftop solar panels and backyard wind turbines, helping to reduce greenhouse-gas emissions.
But these beneficial changes have come with costs. The once-powerful coal industry is on the edge of ruin, with existing coal-fired plants closing and coal mines shutting down. As a result, communities throughout Appalachia suffer from high unemployment and reduced resources, which have exacerbated a spiraling opioid epidemic. The Trump administration’s efforts to revive the coal industry by scaling back environmental controls and reregulating electricity prices have had little effect on the coal industry’s decline.
Major advances therefore come with warning signs, which we must heed in charting the continuing course of sustainable electricity. In Pollution, Politics, and Power, Thomas O. McGarity examines the progress made, details lessons learned, and looks to the future with suggestions for building a more sustainable grid while easing the economic downsides of coal’s demise.
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Power after Carbon
Building a Clean, Resilient Grid
Peter Fox-Penner
Harvard University Press, 2020
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.
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Power Circuit Breaker Theory and Design
C.H. Flurscheim
The Institution of Engineering and Technology, 1982
The aim has been to provide an up-to-date analysis of the theoretical and practical problems involved in circuit breaker design. Circuit breakers present very special design problems because of the wide mixture of experience required.
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Power Distribution Automation
Biswarup Das
The Institution of Engineering and Technology, 2016
Utilities around the world are under increasing pressure to provide reliable and good quality power supply to their retail customers, and to reduce their operational costs. These concerns call for real time monitoring and control of the distribution system, which can be accomplished by deploying distribution automation (DA) systems, a key enabling technology for smart grids.
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Power Distribution System State Estimation
Elizete Maria Lourenço
The Institution of Engineering and Technology, 2022
State estimation is a key function for real-time operation and control of electrical power systems since its role is to provide a complete, coherent, and reliable network real-time model used to set up other real-time operation and control functions. In recent years it has extended its applications to monitoring active distribution networks with distributed energy resources. The inputs of a conventional state estimator are a redundant collection of real-time measurement, load and production forecasts and a mathematical model that relates these measurements to the complex nodal voltages, which are taken as the state variables of the system. The goal of state estimation is to adjust models so that they are closer to observed values and deliver better forecasts. In power systems, this is key to maintaining power quality and operating generation and storage units well.
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Power Electronic Converters and Systems
Frontiers and applications
Andrzej M. Trzynadlowski
The Institution of Engineering and Technology, 2016
Power electronics is a branch of electrical engineering dealing with conversion and control of electric power using semiconductor power switches. This book, written by an international panel of more than 40 experts, provides an overview of modern power electronic converters and systems, and their applications. Topics covered include semiconductor power switches, multilevel, multi-input, modular, matrix, soft-switching, and Z-source converters, switching power supplies, and smart power electronic modules. Applications discussed encompass permanent magnet synchronous motor and induction motor drives, wind, photovoltaic, and automotive energy systems, shipboard power systems, the power grid, distributed generation and microgrids, uninterruptable power supplies, and wireless power transfer. Advanced control of power electronic systems is also examined. The book is essential reading for researchers and students working in power electronics, and for practising engineers specialising in the development and application of power electronic converters and systems.
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Power Electronics for Next-Generation Drives and Energy Systems
Clean Generation and Power Grids, Volume 2
Nayan Kumar
The Institution of Engineering and Technology, 2023
Power electronics converters are devices that change parameters of electric power, such as voltage and frequency, as well as between AC and DC. They are essential parts of both advanced drives, for machines and vehicles, and energy systems to meet required flexibility and efficiency criteria. In energy systems both stationary and mobile, control and converters help ensure reliability and quality of electric power supplies.
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Power Electronics for Next-Generation Drives and Energy Systems
Converters and Control for Drives, Volume 1
Nayan Kumar
The Institution of Engineering and Technology, 2023
Power electronics converters are devices that change parameters of electric power, such as voltage and frequency, as well as between AC and DC. They are essential parts of both advanced drives, for machines and vehicles, and energy systems to meet required flexibility and efficiency criteria. In energy systems both stationary and mobile, control and converters help ensure reliability and quality of electric power supplies.
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Power Electronics Packaging Reliability
Mark Johnson
The Institution of Engineering and Technology, 2020
Unpredictable fluctuating loads and exposure to widely varying environmental conditions (including heat, vibration, humidity and dust) present a particularly challenging environment for power electronics modules. This book describes the technologies involved in power electronic device manufacturing with an emphasis on characterising the key wear-out mechanisms and technologies to increase reliability. This book is a must-read for all engineers involved with electronics or reliable power systems.
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Power Grids with Renewable Energy
Storage, integration and digitalization
Abdelhay A. Sallam
The Institution of Engineering and Technology, 2021
Generation of electricity from renewable sources has become a necessity, particularly due to environmental concerns. In order for renewable sources to provide reliable power, their sporadic availability under certain conditions and the lack of control over the resource must be addressed. Different renewable energy sources and storage technologies bring various properties to the table, and power systems must be adapted and constructed to accommodate these. Power electronics and micro-grids play key roles in enabling the use of renewable energy in the evolving smarter grids.
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Power Line Communication Systems for Smart Grids
Ivan R.S. Casella
The Institution of Engineering and Technology, 2019
Power Line Communication (PLC) is a well-established technology that allows the transmission of data through electrical wires. A key advantage of PLC is its low cost of deployment when the electrical wiring infrastructure already exists, enabling it to compete or work in conjunction with wireless technologies. PLC has recently received growing attention and significant investments within the development of the Smart Grid (SG), that in turn requires sophisticated data exchange and communication.
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Power Market Transformation
Reducing emissions and empowering consumers
Barrie Murray
The Institution of Engineering and Technology, 2018
This book describes recent developments in the power and energy markets that are driving major changes in the generation mix, network requirements and customer engagement. The industry now faces new challenges associated with global warming and escalating demand from developing countries such as China and India. The effect of government interventions to manage changes and to meet emission targets has resulted in an industry that is neither a free market nor centrally coordinated and often lacks strategic direction. The uncertainty has resulted in a dearth of investment in generation and unprecedented low margins of spare capacity. This book provides an analysis of the changes and quantifies their impact. It reviews strategic decisions in the management of changes in the sector and aims to identify the optimal way forward to meet the triple objectives of security, affordability and sustainability with low emissions. It focuses on the economic aspects of initiatives to provide insight into their interaction. It also provides insight into the opportunities in the sector to the many new potential players.
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Power Plant Control and Instrumentation
The control of boilers and HRSG systems
David Lindsley
The Institution of Engineering and Technology, 2000
This book provides a practical and comprehensive analysis of control systems for boilers and HRSGs (heat-recovery steam generators) in a variety of applications from waste-to-energy plants through to combined-cycle gas-turbine power stations (CCGTs).
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Power Quality in Future Electrical Power Systems
Ahmed F. Zobaa
The Institution of Engineering and Technology, 2017
Power quality is necessary for electrical systems to operate in their intended manner without any deterioration of performance. This book highlights the new emerging challenges of power quality due to the penetration of large-scale renewable energy generation technologies, the advances in nonlinear loads, the increased electricity demands in the deregulated market, and the recent requirements of smart grids that need better hierarchical design with enhanced quality, improved controllability, higher reliability, and security. Novel research that links the past, present and future of electrical power grids from a power quality perspective is also introduced. Topics include power quality definitions; frequency-domain power theory and metering of harmonic pollution responsibility; active and passive harmonic filters; shunt flexible AC transmission; power quality improvement using series FACTS; distributed generation systems; islanding scenario generation algorithm; decentralised voltage control in smart grids; techno-economic issues of power quality; economic robust programming for energy management systems; and future trends in power quality.
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Power System Commissioning and Maintenance Practice
Keith Harker
The Institution of Engineering and Technology, 1997
Power system reliability and security is highly dependent on the practices employed in both the commissioning and maintenance processes. Both must be to a high standard to ensure that equipment does not enter service with latent deficiencies. This demands engineers who understand the necessary management involved as well as the technical processes. There is very little literature currently available on the subject; a situation which this book seeks to redress.
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Power System Protection
Application, Volume 3
The Electricity Training Association Electricity Training Association
The Institution of Engineering and Technology, 1995
The worldwide growth in demand for electricity has forced the pace of developments in electrical power system design to meet consumer needs for reliable, secure and cheap supplies. Power system protection, as a technology essential to high quality supply, is widely recognised as a specialism of growing and often critical importance, in which power system needs and technological progress have combined to result in rapid developments in policy and practice in recent years. In the United Kingdom, the need for appropriate training in power system protection was recognised in the early 1960s with the launch of a correspondence course from which these books emerged and have since developed designed to meet the needs of protection staff throughout the world.
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Power System Protection
Digital protection and signalling, Volume 4
The Electricity Training Association Electricity Training Association
The Institution of Engineering and Technology, 1995
The worldwide growth in demand for electricity has forced the pace of developments in electrical power system design to meet consumer needs for reliable, secure and cheap supplies. Power system protection, as a technology essential to high quality supply, is widely recognised as a specialism of growing and often critical importance, in which power system needs and technological progress have combined to result in rapid developments in policy and practice in recent years. In the United Kingdom, the need for appropriate training in power system protection was recognised in the early 1960s with the launch of a correspondence course from which these books emerged and have since developed designed to meet the needs of protection staff throughout the world.
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Power System Protection
Principles and components, Volume 1
The Electricity Training Association Electricity Training Association
The Institution of Engineering and Technology, 1995
The worldwide growth in demand for electricity has forced the pace of developments in electrical power system design to meet consumer needs for reliable, secure and cheap supplies. Power system protection, as a technology essential to high quality supply, is widely recognised as a specialism of growing and often critical importance, in which power system needs and technological progress have combined to result in rapid developments in policy and practice in recent years. In the United Kingdom, the need for appropriate training in power system protection was recognised in the early 1960s with the launch of a correspondence course from which these books emerged and have since developed designed to meet the needs of protection staff throughout the world.
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Power System Protection
Systems and methods, Volume 2
The Electricity Training Association Electricity Training Association
The Institution of Engineering and Technology, 1995
The worldwide growth in demand for electricity has forced the pace of developments in electrical power system design to meet consumer needs for reliable, secure and cheap supplies. Power system protection, as a technology essential to high quality supply, is widely recognised as a specialism of growing and often critical importance, in which power system needs and technological progress have combined to result in rapid developments in policy and practice in recent years. In the United Kingdom, the need for appropriate training in power system protection was recognised in the early 1960s with the launch of a correspondence course from which these books emerged and have since developed designed to meet the needs of protection staff throughout the world.
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Power System Stability
Modelling, analysis and control
Abdelhay A. Sallam
The Institution of Engineering and Technology, 2015
To ensure stable operation of a power system, it is necessary to analyse the power system performance under various operating conditions. Analysis includes studies such as power flow and both steady-state and transient stability. To perform such studies requires knowledge about the models used to represent the various components that constitute an integrated power system. In situations where there is a risk of loss of stability, it is necessary to apply controls that can ensure stable and uninterrupted supply of electricity following a disturbance.
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Power Systems Electromagnetic Transients Simulation
Neville Watson
The Institution of Engineering and Technology, 2019
Accurate knowledge of electromagnetic power system transients is crucial to the operation of an economic, efficient and environmentally friendly power systems network without compromising on the reliability and quality of electrical power supply. Electromagnetic transient (EMT) simulation has therefore become a universal tool for the analysis of power system electromagnetic transients in the range of nanoseconds to seconds, and is the backbone for the design and planning of power systems, as well as for the investigation of problems.
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Power Systems Electromagnetic Transients Simulation
Neville Watson
The Institution of Engineering and Technology, 2003
Accurate knowledge of electromagnetic power system transients is crucial to the operation of an economic, efficient and environmentally-friendly power system network, without compromising on the reliability and quality of the electrical power supply. Simulation has become a universal tool for the analysis of power system electromagnetic transients and yet is rarely covered in-depth in undergraduate programmes. It is likely to become core material in future courses.
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Power Transformer Condition Monitoring and Diagnosis
Ahmed Abu-Siada
The Institution of Engineering and Technology, 2018
Power transformers are a key asset for electricity utilities around the globe. However, aging populations of large power transformers require reliable monitoring and diagnostics techniques to extend the asset's lifetime and minimise the possibility of catastrophic failure. This book describes the most popular power transformer condition monitoring techniques from principles to practice.
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Propulsion Systems for Hybrid Vehicles
John M. Miller
The Institution of Engineering and Technology, 2010
Worldwide, the automotive industry is being challenged to make dramatic improvements in vehicle fuel economy. In Europe there are CO2 emissions penalties prorated by the degree to which vehicles exceed mandated CO2 levels. In the United States, vehicle fuel economy targets set by Congress in 2007 for 20 per cent fuel economy improvement by 2020 are now being accelerated by the Obama administration to 35.5 mpg by 2016 for a passenger car. Taking effect in 2012, the new rules set more aggressive fuel economy measures that will require significant gains in engine and driveline efficiency, better performance cabin climate control and the introduction of electric hybridization. This 2nd Edition of Propulsion Systems for Hybrid Vehicles addresses the electrification innovations that will be required, ranging from low end brake energy recuperators, idle-stop systems and mild hybrids on to strong hybrids of the power split architecture in both single mode and two mode and introducing new topics in plug-in hybrid and battery electrics. Important topics of the 1st Edition are retained and expanded and some outdated material has been replaced with new information.
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Propulsion Systems for Hybrid Vehicles
John M. Miller
The Institution of Engineering and Technology, 2004
The automotive industry is waking up to the fact that hybrid electric vehicles could provide an answer to the ever-increasing need for lower-polluting and more fuel-efficient forms of personal transport. This is the first book to give comprehensive coverage of all aspects of the hybrid vehicle design, from its power plant and energy storage systems, to supporting chassis subsystems necessary for realising hybrid modes of operation. Key topics covered include hybrid propulsion system architectures, propulsion system sizing, electric traction system sizing and design, loss mechanisms, system simulation and vehicle certification. Offering in-depth coverage of hybrid propulsion topics, energy storage systems and modelling, and supporting electrical systems, this book will be an invaluable resource for practising engineers and managers involved in all aspects of hybrid vehicle development, modelling, simulation and testing. It will also be of interest to postgraduate students in the field.
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Protection of Electricity Distribution Networks
Juan M. Gers
The Institution of Engineering and Technology, 2022
High quality electrical service is key to power systems around the world, particularly in utilities and industrial facilities. Both voltage and grid frequency must be kept within tight limits to maintain functioning of critical infrastructure. The growing use of renewable power of intermittent character is adding to that challenge.
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Protection of Electricity Distribution Networks
Juan M. Gers
The Institution of Engineering and Technology, 2011
High quality electrical service is everyday more stringent in utilities and industrial facilities around the world. One of the main players to achieve this is the protection system, which has to be reliable, fast and with a good cost/benefit ratio. This book refers to most aspects of electrical protections, with emphasis on Distribution Systems. Protection of generation and transmission systems are also treated in the text. References to modern topics such as the Distributed Generation, Smart Grid and Standard IEC 61850 have been introduced. Written by two well experienced engineers who combine a comprehensive theoretical background with examples and exercises, this book will allow the reader to easily follow the ideas explored. The book will be valuable to pre and postgraduate students, design, maintenance and consulting engineers as well as instructors looking for proper references.
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