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Language | Englsih |
Pages | 968 |
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Measurement | 31.2 MB |
Handbook of Electrical Power System Dynamics
Handbook of Electrical Power System Dynamics: Modeling, Stability, and Management Edited by Mircea Eremia and Mohammad Shahidehpour | PDF Free Download.
Book Description:
Complete guidance for understanding electrical power system dynamics and blackouts
This handbook offers a comprehensive and up-to-date treatment of power system dynamics. Addressing the full range of topics, from the fundamentals to the latest technologies in modeling, stability, and control, Handbook of Electrical Power System Dynamics provides engineers with hands-on guidance for understanding the phenomena leading to blackouts so they can design the most appropriate solutions for a cost-effective and reliable operation.
Focusing on system dynamics, the book details analytical methods of power system behavior along with models for the main components of power plants and control systems used in dispatch centers. Special emphasis is given to evaluation methods for rotor angle stability and voltage stability as well as the control mechanism for frequency and voltage. With contributions from international experts in both academia and industry, the book features:
Critical insight into new trends in power system operation and control
Numerous examples and graphics, including more than 600 figures and 1,200 equations
In-depth coverage of wind generation, an alternative energy system
An easily accessible presentation for readers with varied experience, from students to practicing engineers
An invaluable resource for power system engineers and smart grid analysts, this is also an excellent reference for system operators, utility workers, manufacturers, consultants, vendors, and researchers.
Book Contents:
Chapter 1 Introduction (pages 1–6): Mircea Eremia and Mohammad Shahidehpour
Chapter 2 Synchronous Generator and Induction Motor (pages 9–135): Mircea Eremia and Constantin Bulac
Chapter 3 Modeling the Main Components of the Classical Power Plants (pages 137–178): Mohammad Shahidehpour, Mircea Eremia and Lucian Toma
Chapter 5 Short?Circuit Currents Calculation (pages 229–290): Nouredine Hadjsaid, Ion Trisstiu and Lucian Toma
Chapter 6 Active Power and Frequency Control (pages 291–339): Les Pereira
Chapter 7 Voltage and Reactive Power Control (pages 340–450): Sandro Corsi and Mircea Eremia
Chapter 4 Wind Power Generation (pages 179–228): Mohammad Shahidehpour and Mircea Eremia
Chapter 8 Background of Power System Stability (pages 453–475): S. S. (mani) Venkata, Mircea Eremia and Lucian Toma
Chapter 9 Small?Disturbance Angle Stability and Electromechanical Oscillation Damping (pages 477–569): Roberto Marconato and Alberto Berizzi
Chapter 10 Transient Stability (pages 570–656): Nikolai Voropai and Constantin Bulac
Chapter 11 Voltage Stability (pages 657–736): Mircea Eremia and Constantin Bulac
Chapter 12 Power System Protection (pages 737–785): Klaus?Peter Brand and Ivan De Mesmaeker
Chapter 13 Major Grid Blackouts: Analysis, Classification, and Prevention (pages 789–863): Yvon Besanger, Mircea Eremia and Nikolai Voropai
Chapter 14 Restoration Processes after Blackouts (pages 864–899): Alberto Borghetti, Carlo Alberto Nucci and Mario Paolone
Chapter 15 Computer Simulation of Scale?Bridging Transients in Power Systems (pages 900–927): Kai Strunz and Feng Gao
Handbook of Electrical Powers System Dynamics Contents
- PART I POWER SYSTEM MODELING AND CONTROL
- PART II POWER SYSTEM STABILITY AND PROTECTION
- PART III GRID BLACKOUTS AND RESTORATION PROCESS
Foreword to Handbook of Electrical Power System Dynamics
Electrical energy is the driving issue of the fashionable world. Humanity is demanding an increasing number of power because the demand for higher life high quality, and business growth is growing.
The historical past of trendy civilization begun a couple of century in the past when electrical energy mills and infrastructure for electrical energy transmission had been invented.
Because the demand for electrical energy has elevated, {the electrical} energy programs have been expanded over giant distances and change into extra complicated. There was, thus, a steady want for innovation to create extra environment friendly and dependable elements.
Just lately, {the electrical} energy programs have gone by way of a deregulation course of, and electrical energy market has been created aiming to stimulate competitors, obtain honest electrical power worth, encourage the investments for modernization and commissioning new energy vegetation, and many others.
Nonetheless, the fast results of the electrical energy market had been extra issues in energy system operation.
The restricted typical power sources and the necessity for surroundings safety, on one hand, and the benefits of precise strong simulation {hardware} and software program instruments, alternatively, inspired the humanity to efficiently exploit the Aeolian, photo voltaic, and different nonconventional sources.
The share of electrical energy technology from renewable power sources has considerably elevated within the final years, and the targets are very bold for the long run. Massive wind farms are developed onshore and offshore, leading to vital change within the technology sample and thus modifications within the energy circulate.
Furthermore, underneath the growing share of technology from renewables, modifications in energy flows might typically happen very often throughout one hour. This drawback, in impact, requires strengthening the transmission grid.
The ability system operators are, thus, dealing with greater challenges than that previously, equivalent to limitations in scheduling and dealing with technology sources as a result of electrical energy market, operation of the transmission networks near their technical limits attributable to difficulties in setting up new transmission amenities, and technology uncertainties as a result of intermittency and fewer inaccurate forecasts of the renewable power sources, and even attributable to pure forces like earthquakes and storms.
The foremost grid blackouts skilled within the final years show that investments and innovation are at all times required within the energy system infrastructure, administration, and schooling.
The operational handbook of the ENTSO-E community has been up to date as a way to stop main incidents that occurred previously attributable to permissive guidelines. In a strongly interconnected continental energy system, as it’s the ENTSO-E community, collaboration between energy system operators primarily based on clear guidelines is essential.
As a response to the technical points of energy programs, new ideas are underneath growth. It’s anticipated that the brand new concepts for extra clever electrical networks (Sensible Grids) and creation of continental supergrids might enhance the facility system safety whereas satisfying the shoppers’ wants as regards the amount and high quality.
This can be seen as a brand new period of electrical energy. This e book is a profitable assortment of theories and functions, from modeling for dynamic evaluation, strategies for stability evaluation and management methods that lastly assist the reader to grasp the causes and results of energy system blackouts and, on one hand, to grasp why some preventive actions are required as a way to guarantee applicable safety ranges and keep away from the blackouts.
The authors of this e book, each from academia and business, are energetic specialists in CIGRE and IEEE-PES actions.
Handbook of Electrical Power System Dynamics: Modeling, Stability, and Control PDF
Publisher: Wiley-IEEE Press
Year: 2013
ISBN: 9781118497173
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