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Advanced solutions in power systems : HVDC, FACTS, and Artificial Intelligence / / dited by Mircea Eremia, Chen-Ching Liu, Abdel-Aty Edris
| Advanced solutions in power systems : HVDC, FACTS, and Artificial Intelligence / / dited by Mircea Eremia, Chen-Ching Liu, Abdel-Aty Edris |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , [2016] |
| Descrizione fisica | 1 online resource (1075 p.) |
| Disciplina | 621.31 |
| Collana | IEEE press series on power engineering |
| Soggetto topico | Electric power systems |
| ISBN |
1-119-17535-6
1-119-17533-X 1-119-17539-9 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTRIBUTORS xxi -- FOREWORD xxiii -- ACKNOWLEDGMENTS xxv -- CHAPTER 1 INTRODUCTION 1 /Mircea Eremia, Chen-Ching Liu, and Abdel-Aty Edris -- PART I HVDC TRANSMISSION /Mircea Eremia -- CHAPTER 2 POWER SEMICONDUCTOR DEVICES FOR HVDC AND FACTS SYSTEMS 11 /Remus Teodorescu and Mircea Eremia -- 2.1 Power Semiconductor Overview 12 -- 2.2 Converter Types 21 -- 2.3 HVDC Evolution 23 -- 2.4 FACTS Evolution 30 -- References 33 -- CHAPTER 3 CSC / HVDC TRANSMISSION 35 /Mircea Eremia and Constantin Bulac -- 3.1 Structure and Configurations 35 -- 3.2 Converter Bridge Modeling 47 -- 3.3 Control of CSC / HVDC Transmission 59 -- 3.4 Reactive Power and Harmonics 78 -- 3.5 Load Flow in Mixed HVAC/HVDC-CSC Systems 91 -- 3.6 Interaction Between AC and DC Systems 96 -- 3.7 Comparison Between DC and AC Transmission 101 -- 3.8 Application on a CSC / HVDC Link 109 -- Appendix 3.1 CSC / HVDC Systems in the World 118 -- References 123 -- CHAPTER 4 VSC / HVDC TRANSMISSION 125 /Mircea Eremia, José Antonio Jardini, Guangfu Tang, and Lucian Toma -- 4.1 VSC Converter Structures 126 -- 4.2 Modulation Techniques 151 -- 4.3 DC/AC Converter Analysis 166 -- 4.4 VSC Transmission Scheme and Operation 188 -- 4.5 Multiterminal VSC / HVDC Systems and HVDC Grids 203 -- 4.6 Load Flow and Stability Analysis 221 -- 4.7 Comparison of CSC / HVDC Versus VSC / HVDC Transmission 246 -- 4.8 Forward to Supergrid 249 -- Appendix 4.1 VSC / HVDC Projects Around the World 261 -- Appendix 4.2 Examples of VSC / HVDC One-Line Diagrams 263 -- References 263 -- PART II FACTS TECHNOLOGIES /Abdel-Aty Edris and Mircea Eremia -- CHAPTER 5 STATIC VAr COMPENSATOR (SVC) 271 /Mircea Eremia, Aniruddha Gole, and Lucian Toma -- 5.1 Generalities 271 -- 5.2 Thyristor-Controlled Reactor 273 -- 5.3 Thyristor-Switched Capacitor 284 -- 5.4 Configurations of SVC 287 -- 5.5 Control of SVC Operation 294 -- 5.6 SVC Modeling 296 -- 5.7 Placement of SVC 312 -- 5.8 Applications of SVC 314 -- 5.9 SVC Installations Worldwide 324 -- References 337 -- CHAPTER 6 SERIES CAPACITIVE COMPENSATION 339 /Mircea Eremia and Stig Nilsson.
6.1 Generalities 339 -- 6.2 Mechanical Commutation-Based Series Devices 339 -- 6.3 Static-Controlled Series Capacitive Compensation 342 -- 6.4 Control Schemes for the TCSC 365 -- 6.5 TCSC Modeling 370 -- 6.6 Applications of TSSC/TCSC Installations 382 -- 6.7 Series Capacitors Worldwide 387 -- Appendix 6.1 TCSC Systems Around the World 404 -- References 405 -- CHAPTER 7 PHASE SHIFTING TRANSFORMER: MECHANICAL AND STATIC DEVICES 409 /Mylavarapu Ramamoorty and Lucian Toma -- 7.1 Introduction 409 -- 7.2 Mechanical Phase Shifting Transformer 410 -- 7.3 Thyristor-Controlled Phase Shifting Transformer 428 -- 7.4 Applications of the Phase Shifting Transformers 439 -- 7.5 Phase Shifting Transformer Projects Around the World 450 -- References 456 -- CHAPTER 8 STATIC SYNCHRONOUS COMPENSATOR / STATCOM 459 /Rafael Mihalic, Mircea Eremia, and Bostjan Blazic -- 8.1 Principles and Topologies of Voltage Source Converter 459 -- 8.2 STATCOM Operation 473 -- 8.3 STATCOM Modeling 476 -- 8.4 STATCOM Applications 506 -- 8.5 STATCOM Installations in Operation 515 -- References 524 -- CHAPTER 9 STATIC SYNCHRONOUS SERIES COMPENSATOR (SSSC) 527 /Laszlo Gyugyi, Abded-Aty Edris, and Mircea Eremia -- 9.1 Introduction 527 -- 9.2 Architecture and Operating Principles 528 -- 9.3 Comparison of SSSC with Other Technologies 533 -- 9.4 Components of an SSSC 540 -- 9.5 SSSC Modeling 546 -- 9.6 Applications 551 -- 9.7 SSSC Installation 552 -- References 556 -- CHAPTER 10 UNIFIED POWER FLOW CONTROLLER (UPFC) 559 /Laszlo Gyugyi -- 10.1 Introduction 559 -- 10.2 Basic Characteristics of the UPFC 567 -- 10.3 UPFC Versus Conventional Power Flow Controllers 571 -- 10.4 UPFC Control System 575 -- 10.5 Equipment Structural and Rating Considerations 584 -- 10.6 Protection Considerations 596 -- 10.7 Application Example: UPFC at AEP's INEZ Station 600 -- 10.8 Modeling of the UPFC Device 613 -- References 627 -- CHAPTER 11 INTERLINE POWER FLOW CONTROLLER (IPFC) 629 /Laszlo Gyugyi -- 11.1 Generalities 629 -- 11.2 Basic Operating Principles and Characteristics of the IPFC 630. 11.3 Generalized Interline Power Flow Controller for Multiline Systems 636 -- 11.4 Basic Control System 638 -- 11.5 Equipment Structural and Rating Considerations 640 -- 11.6 Protection Considerations 642 -- 11.7 Application Example: IPFC at NYPA's Marcy Substation 643 -- References 649 -- CHAPTER 12 SEN TRANSFORMER: A POWER REGULATING TRANSFORMER 651 /Kalyan K. Sen -- 12.1 Background 651 -- 12.2 The Sen Transformer Concept 656 -- References 679 -- CHAPTER 13 MEDIUM VOLTAGE POWER ELECTRONICS DEVICES FOR DISTRIBUTION GRIDS 681 /Ion Etxeberria-Otadui, David Frey, Seddik Bacha, and Bertrand Raison -- 13.1 Introduction 681 -- 13.2 High Power Switching Valves: Association of Semiconductor Components 683 -- 13.3 Topologies Used in High Power Converters 694 -- 13.4 Power Electronic Converter Control 697 -- References 717 -- PART III ARTIFICIAL INTELLIGENCE TECHNIQUES /Chen-Ching Liu and Mircea Eremia / /CHAPTER 14 ARTIFICIAL INTELLIGENCE AND COMPUTATIONAL INTELLIGENCE: A CHALLENGE FOR POWER SYSTEM ENGINEERS 721 /Chen-Ching Liu, Alexandru Stefanov, and Junho Hong -- References 729 -- CHAPTER 15 EXPERT SYSTEMS 731 /Mircea Eremia, Kevin Tomsovic, and Gheorghe Cârținã -- 15.1 Fundamental Concepts 731 -- 15.2 Architecture of Expert Systems 735 -- 15.3 Expert Systems Application 745 -- References 753 -- CHAPTER 16 NEURAL NETWORKS 755 /Dagmar Niebur, Ganesh Kumar Venayagamoorthy, and Ekrem Gursoy -- 16.1 Introduction 755 -- 16.2 Neural Network Architectures 755 -- 16.3 Adaptive Critic Designs 759 -- 16.4 Independent Component Analysis 760 -- 16.5 Learning Algorithms: The Determination of Weights 760 -- 16.6 Examples of Neural Network Applications for Power System Monitoring and Control 763 -- References 781 -- CHAPTER 17 FUZZY SYSTEMS 785 /Germano Lambert-Torres, Luiz Eduardo Borges da Silva, Carlos Henrique Valerio de Moraes, and Yvo Marcelo Chiaradia Masselli -- 17.1 Introduction 785 -- 17.2 Fundamental Notions 787 -- 17.3 Fuzzy Logic 797 -- 17.4 Fuzzy Model 801 -- 17.5 An Application of Fuzzy Logic in Control System 811. 17.6 Final Remarks 816 -- Acknowledgments 817 -- References 817 -- CHAPTER 18 DECISION TREES 819 /Constantin Bulac and Adrian Bulac -- 18.1 Introduction 819 -- 18.2 Decision Trees 820 -- 18.3 Oblique Decision Trees 829 -- 18.4 Applications of Decision Trees in Power Systems 833 -- 18.5 Case Study 836 -- References 843 -- CHAPTER 19 GENETIC ALGORITHMS 845 /Anastasios Bakirtzis and Spyros Kazarlis -- 19.1 Introduction to Evolutionary Computation 845 -- 19.2 Genetic Algorithms 859 -- 19.3 On The Optimal Location and Operation of FACTS Devices by Genetic Algorithms 897 -- References 898 -- CHAPTER 20 MULTIAGENT SYSTEMS 903 /Nan-Peng Yu and Chen-Ching Liu -- 20.1 Overview 903 -- 20.2 Multiagent Technology Overview 909 -- 20.3 Applications of Multiagent Systems in Power Engineering 917 -- 20.4 Electricity Markets Modeling and Simulation with Multiagent Systems 920 -- References 927 -- CHAPTER 21 HEURISTIC OPTIMIZATION TECHNIQUES 931 /Kwang Y. Lee, Malihe M. Farsangi, Jong-Bae Park, and John G. Vlachogiannis -- 21.1 Introduction 931 -- 21.2 Evolutionary Algorithms for Reactive Power Planning 932 -- 21.3 Genetic Algorithm for Generation Planning 943 -- 21.4 Particle Swarm Optimization for Economic Dispatch 951 -- 21.5 Ant Colony System for Constrained Load Flow Problem 961 -- 21.6 Immune Algorithm for Damping of Interarea Oscillation 968 -- 21.7 Simulated Annealing and Tabu Search for Optimal Allocation of Static VAr Compensators 974 -- 21.8 Conclusions 980 -- References 981 -- CHAPTER 22 UNSUPERVISED LEARNING AND HYBRID METHODS 985 /Nikos Hatziargyriou and Manolis Voumvoulakis -- 22.1 Generalities 985 -- 22.2 Supervised Learning Methods 988 -- 22.3 Unsupervised Learning Methods 996 -- 22.4 Som Variants 1000 -- 22.5 Combined Use of Unsupervised with Supervised Learning Methods 1007 -- 22.6 Applications to Power Systems 1007 -- References 1030 -- INDEX 1033. |
| Record Nr. | UNINA-9910135050203321 |
| Piscataway, New Jersey : , : IEEE Press, , [2016] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced solutions in power systems : HVDC, FACTS, and Artificial Intelligence / / dited by Mircea Eremia, Chen-Ching Liu, Abdel-Aty Edris
| Advanced solutions in power systems : HVDC, FACTS, and Artificial Intelligence / / dited by Mircea Eremia, Chen-Ching Liu, Abdel-Aty Edris |
| Pubbl/distr/stampa | Piscataway, New Jersey : , : IEEE Press, , [2016] |
| Descrizione fisica | 1 online resource (1075 p.) |
| Disciplina | 621.31 |
| Collana | IEEE press series on power engineering |
| Soggetto topico | Electric power systems |
| ISBN |
1-119-17535-6
1-119-17533-X 1-119-17539-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
CONTRIBUTORS xxi -- FOREWORD xxiii -- ACKNOWLEDGMENTS xxv -- CHAPTER 1 INTRODUCTION 1 /Mircea Eremia, Chen-Ching Liu, and Abdel-Aty Edris -- PART I HVDC TRANSMISSION /Mircea Eremia -- CHAPTER 2 POWER SEMICONDUCTOR DEVICES FOR HVDC AND FACTS SYSTEMS 11 /Remus Teodorescu and Mircea Eremia -- 2.1 Power Semiconductor Overview 12 -- 2.2 Converter Types 21 -- 2.3 HVDC Evolution 23 -- 2.4 FACTS Evolution 30 -- References 33 -- CHAPTER 3 CSC / HVDC TRANSMISSION 35 /Mircea Eremia and Constantin Bulac -- 3.1 Structure and Configurations 35 -- 3.2 Converter Bridge Modeling 47 -- 3.3 Control of CSC / HVDC Transmission 59 -- 3.4 Reactive Power and Harmonics 78 -- 3.5 Load Flow in Mixed HVAC/HVDC-CSC Systems 91 -- 3.6 Interaction Between AC and DC Systems 96 -- 3.7 Comparison Between DC and AC Transmission 101 -- 3.8 Application on a CSC / HVDC Link 109 -- Appendix 3.1 CSC / HVDC Systems in the World 118 -- References 123 -- CHAPTER 4 VSC / HVDC TRANSMISSION 125 /Mircea Eremia, José Antonio Jardini, Guangfu Tang, and Lucian Toma -- 4.1 VSC Converter Structures 126 -- 4.2 Modulation Techniques 151 -- 4.3 DC/AC Converter Analysis 166 -- 4.4 VSC Transmission Scheme and Operation 188 -- 4.5 Multiterminal VSC / HVDC Systems and HVDC Grids 203 -- 4.6 Load Flow and Stability Analysis 221 -- 4.7 Comparison of CSC / HVDC Versus VSC / HVDC Transmission 246 -- 4.8 Forward to Supergrid 249 -- Appendix 4.1 VSC / HVDC Projects Around the World 261 -- Appendix 4.2 Examples of VSC / HVDC One-Line Diagrams 263 -- References 263 -- PART II FACTS TECHNOLOGIES /Abdel-Aty Edris and Mircea Eremia -- CHAPTER 5 STATIC VAr COMPENSATOR (SVC) 271 /Mircea Eremia, Aniruddha Gole, and Lucian Toma -- 5.1 Generalities 271 -- 5.2 Thyristor-Controlled Reactor 273 -- 5.3 Thyristor-Switched Capacitor 284 -- 5.4 Configurations of SVC 287 -- 5.5 Control of SVC Operation 294 -- 5.6 SVC Modeling 296 -- 5.7 Placement of SVC 312 -- 5.8 Applications of SVC 314 -- 5.9 SVC Installations Worldwide 324 -- References 337 -- CHAPTER 6 SERIES CAPACITIVE COMPENSATION 339 /Mircea Eremia and Stig Nilsson.
6.1 Generalities 339 -- 6.2 Mechanical Commutation-Based Series Devices 339 -- 6.3 Static-Controlled Series Capacitive Compensation 342 -- 6.4 Control Schemes for the TCSC 365 -- 6.5 TCSC Modeling 370 -- 6.6 Applications of TSSC/TCSC Installations 382 -- 6.7 Series Capacitors Worldwide 387 -- Appendix 6.1 TCSC Systems Around the World 404 -- References 405 -- CHAPTER 7 PHASE SHIFTING TRANSFORMER: MECHANICAL AND STATIC DEVICES 409 /Mylavarapu Ramamoorty and Lucian Toma -- 7.1 Introduction 409 -- 7.2 Mechanical Phase Shifting Transformer 410 -- 7.3 Thyristor-Controlled Phase Shifting Transformer 428 -- 7.4 Applications of the Phase Shifting Transformers 439 -- 7.5 Phase Shifting Transformer Projects Around the World 450 -- References 456 -- CHAPTER 8 STATIC SYNCHRONOUS COMPENSATOR / STATCOM 459 /Rafael Mihalic, Mircea Eremia, and Bostjan Blazic -- 8.1 Principles and Topologies of Voltage Source Converter 459 -- 8.2 STATCOM Operation 473 -- 8.3 STATCOM Modeling 476 -- 8.4 STATCOM Applications 506 -- 8.5 STATCOM Installations in Operation 515 -- References 524 -- CHAPTER 9 STATIC SYNCHRONOUS SERIES COMPENSATOR (SSSC) 527 /Laszlo Gyugyi, Abded-Aty Edris, and Mircea Eremia -- 9.1 Introduction 527 -- 9.2 Architecture and Operating Principles 528 -- 9.3 Comparison of SSSC with Other Technologies 533 -- 9.4 Components of an SSSC 540 -- 9.5 SSSC Modeling 546 -- 9.6 Applications 551 -- 9.7 SSSC Installation 552 -- References 556 -- CHAPTER 10 UNIFIED POWER FLOW CONTROLLER (UPFC) 559 /Laszlo Gyugyi -- 10.1 Introduction 559 -- 10.2 Basic Characteristics of the UPFC 567 -- 10.3 UPFC Versus Conventional Power Flow Controllers 571 -- 10.4 UPFC Control System 575 -- 10.5 Equipment Structural and Rating Considerations 584 -- 10.6 Protection Considerations 596 -- 10.7 Application Example: UPFC at AEP's INEZ Station 600 -- 10.8 Modeling of the UPFC Device 613 -- References 627 -- CHAPTER 11 INTERLINE POWER FLOW CONTROLLER (IPFC) 629 /Laszlo Gyugyi -- 11.1 Generalities 629 -- 11.2 Basic Operating Principles and Characteristics of the IPFC 630. 11.3 Generalized Interline Power Flow Controller for Multiline Systems 636 -- 11.4 Basic Control System 638 -- 11.5 Equipment Structural and Rating Considerations 640 -- 11.6 Protection Considerations 642 -- 11.7 Application Example: IPFC at NYPA's Marcy Substation 643 -- References 649 -- CHAPTER 12 SEN TRANSFORMER: A POWER REGULATING TRANSFORMER 651 /Kalyan K. Sen -- 12.1 Background 651 -- 12.2 The Sen Transformer Concept 656 -- References 679 -- CHAPTER 13 MEDIUM VOLTAGE POWER ELECTRONICS DEVICES FOR DISTRIBUTION GRIDS 681 /Ion Etxeberria-Otadui, David Frey, Seddik Bacha, and Bertrand Raison -- 13.1 Introduction 681 -- 13.2 High Power Switching Valves: Association of Semiconductor Components 683 -- 13.3 Topologies Used in High Power Converters 694 -- 13.4 Power Electronic Converter Control 697 -- References 717 -- PART III ARTIFICIAL INTELLIGENCE TECHNIQUES /Chen-Ching Liu and Mircea Eremia / /CHAPTER 14 ARTIFICIAL INTELLIGENCE AND COMPUTATIONAL INTELLIGENCE: A CHALLENGE FOR POWER SYSTEM ENGINEERS 721 /Chen-Ching Liu, Alexandru Stefanov, and Junho Hong -- References 729 -- CHAPTER 15 EXPERT SYSTEMS 731 /Mircea Eremia, Kevin Tomsovic, and Gheorghe Cârținã -- 15.1 Fundamental Concepts 731 -- 15.2 Architecture of Expert Systems 735 -- 15.3 Expert Systems Application 745 -- References 753 -- CHAPTER 16 NEURAL NETWORKS 755 /Dagmar Niebur, Ganesh Kumar Venayagamoorthy, and Ekrem Gursoy -- 16.1 Introduction 755 -- 16.2 Neural Network Architectures 755 -- 16.3 Adaptive Critic Designs 759 -- 16.4 Independent Component Analysis 760 -- 16.5 Learning Algorithms: The Determination of Weights 760 -- 16.6 Examples of Neural Network Applications for Power System Monitoring and Control 763 -- References 781 -- CHAPTER 17 FUZZY SYSTEMS 785 /Germano Lambert-Torres, Luiz Eduardo Borges da Silva, Carlos Henrique Valerio de Moraes, and Yvo Marcelo Chiaradia Masselli -- 17.1 Introduction 785 -- 17.2 Fundamental Notions 787 -- 17.3 Fuzzy Logic 797 -- 17.4 Fuzzy Model 801 -- 17.5 An Application of Fuzzy Logic in Control System 811. 17.6 Final Remarks 816 -- Acknowledgments 817 -- References 817 -- CHAPTER 18 DECISION TREES 819 /Constantin Bulac and Adrian Bulac -- 18.1 Introduction 819 -- 18.2 Decision Trees 820 -- 18.3 Oblique Decision Trees 829 -- 18.4 Applications of Decision Trees in Power Systems 833 -- 18.5 Case Study 836 -- References 843 -- CHAPTER 19 GENETIC ALGORITHMS 845 /Anastasios Bakirtzis and Spyros Kazarlis -- 19.1 Introduction to Evolutionary Computation 845 -- 19.2 Genetic Algorithms 859 -- 19.3 On The Optimal Location and Operation of FACTS Devices by Genetic Algorithms 897 -- References 898 -- CHAPTER 20 MULTIAGENT SYSTEMS 903 /Nan-Peng Yu and Chen-Ching Liu -- 20.1 Overview 903 -- 20.2 Multiagent Technology Overview 909 -- 20.3 Applications of Multiagent Systems in Power Engineering 917 -- 20.4 Electricity Markets Modeling and Simulation with Multiagent Systems 920 -- References 927 -- CHAPTER 21 HEURISTIC OPTIMIZATION TECHNIQUES 931 /Kwang Y. Lee, Malihe M. Farsangi, Jong-Bae Park, and John G. Vlachogiannis -- 21.1 Introduction 931 -- 21.2 Evolutionary Algorithms for Reactive Power Planning 932 -- 21.3 Genetic Algorithm for Generation Planning 943 -- 21.4 Particle Swarm Optimization for Economic Dispatch 951 -- 21.5 Ant Colony System for Constrained Load Flow Problem 961 -- 21.6 Immune Algorithm for Damping of Interarea Oscillation 968 -- 21.7 Simulated Annealing and Tabu Search for Optimal Allocation of Static VAr Compensators 974 -- 21.8 Conclusions 980 -- References 981 -- CHAPTER 22 UNSUPERVISED LEARNING AND HYBRID METHODS 985 /Nikos Hatziargyriou and Manolis Voumvoulakis -- 22.1 Generalities 985 -- 22.2 Supervised Learning Methods 988 -- 22.3 Unsupervised Learning Methods 996 -- 22.4 Som Variants 1000 -- 22.5 Combined Use of Unsupervised with Supervised Learning Methods 1007 -- 22.6 Applications to Power Systems 1007 -- References 1030 -- INDEX 1033. |
| Record Nr. | UNINA-9910677632003321 |
| Piscataway, New Jersey : , : IEEE Press, , [2016] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour
| Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2013] |
| Descrizione fisica | 1 online resource (975 p.) |
| Disciplina |
621.3
621.31 |
| Altri autori (Persone) |
ShahidehpourM. <1955->
EremiaMircea |
| Collana | IEEE press series on power engineering |
| Soggetto topico |
Electric power system stability - Mathematical models
Electric power systems - Control Electric machinery - Dynamics |
| ISBN |
1-299-24203-0
1-118-51604-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword xxiii -- Acknowledgments xxv -- Contributors xxvii -- 1. INTRODUCTION 1 -- Mircea Eremia and Mohammad Shahidehpour -- PART I POWER SYSTEM MODELING AND CONTROL 7 -- 2. SYNCHRONOUS GENERATOR AND INDUCTION MOTOR 9 -- Mircea Eremia and Constantin Bulac -- 2.1. Theory and Modeling of Synchronous Generator 9 -- 2.2. Theory and Modeling of the Induction Motor 114 -- 3. MODELING THE MAIN COMPONENTS OF THE CLASSICAL POWER PLANTS 137 -- Mohammad Shahidehpour, Mircea Eremia, and Lucian Toma -- 3.1. Introduction 137 -- 3.2. Types of Turbines 138 -- 3.3. Thermal Power Plants 143 -- 3.4. Combined-Cycle Power Plants 158 -- 3.5. Nuclear Power Plants 167 -- 3.6. Hydraulic Power Plants 169 -- 4. WIND POWER GENERATION 179 -- Mohammad Shahidehpour and Mircea Eremia -- 4.1. Introduction 179 -- 4.2. Some Characteristics of Wind Power Generation 181 -- 4.3. State of the Art Technologies 184 -- 4.4. Modeling the Wind Turbine Generators 200 -- 4.5. Fault Ride-Through Capability 223 -- 5. SHORT-CIRCUIT CURRENTS CALCULATION 229 -- Nouredine Hadjsaid, Ion TriSstiu, and Lucian Toma -- 5.1. Introduction 229 -- 5.2. Characteristics of Short-Circuit Currents 232 -- 5.3. Methods of Short-Circuit Currents Calculation 236 -- 5.4. Calculation of Short-Circuit Current Components 264 -- 6. ACTIVE POWER AND FREQUENCY CONTROL 291 -- Les Pereira -- 6.1. Introduction 291 -- 6.2. Frequency Deviations in Practice 293 -- 6.3. Typical Standards and Policies for "Active Power and Frequency Control" or "Load Frequency Control" 294 -- 6.4. System Modeling, Inertia, Droop, Regulation, and Dynamic Frequency Response 297 -- 6.5. Governor Modeling 302 -- 6.6. AGC Principles and Modeling 328 -- 6.7. Other Topics of Interest Related to Load Frequency Control 336 -- 7. VOLTAGE AND REACTIVE POWER CONTROL 340 -- Sandro Corsi and Mircea Eremia -- 7.1. Relationship Between Active and Reactive Powers and Voltage 342 -- 7.2. Equipments for Voltage and Reactive Power Control 347 -- 7.3. Grid Voltage and Reactive Power Control Methods 374.
7.4. Grid Hierarchical Voltage Regulation 399 -- 7.5. Implementation Study of the Secondary Voltage Regulation in Romania 423 -- 7.6. Examples of Hierarchical Voltage Control in the World 429 -- PART II POWER SYSTEM STABILITY AND PROTECTION 451 -- 8. BACKGROUND OF POWER SYSTEM STABILITY 453 -- S.S. (Mani) Venkata, Mircea Eremia, and Lucian Toma -- 8.1. Introduction 453 -- 8.2. Classification of Power Systems Stability 453 -- 8.3. Parallelism Between Voltage Stability and Angular Stability 469 -- 8.4. Importance of Security for Power System Stability 469 -- 9. SMALL-DISTURBANCE ANGLE STABILITY AND ELECTROMECHANICAL OSCILLATION DAMPING 477 -- Roberto Marconato and Alberto Berizzi -- 9.1. Introduction 477 -- 9.2. The Dynamic Matrix 478 -- 9.3. A General Simplified Approach 482 -- 9.4. Major Factors Affecting the Damping of Electromechanical Oscillations 501 -- 9.5. Damping Improvement 546 -- 9.6. Typical Cases of Interarea Or Low-Frequency Electromechanical Oscillations 564 -- 10. TRANSIENT STABILITY 570 -- Nikolai Voropai and Constantin Bulac -- 10.1. General Aspects 570 -- 10.2. Direct Methods for Transient Stability Assessment 572 -- 10.3. Integration Methods for Transient Stability Assessment 603 -- 10.4. Dynamic Equivalents 614 -- 10.5. Transient Stability Assessment of Large Electric Power Systems 638 -- 10.6. Application 645 -- 11. VOLTAGE STABILITY 657 -- Mircea Eremia and Constantin Bulac -- 11.1. Introduction 657 -- 11.2. System Characteristics and Load Modeling 658 -- 11.3. Static Aspects of Voltage Stability 667 -- 11.4. Voltage Instability Mechanisms: Interaction Between Electrical Network, Loads, and Control Devices 674 -- 11.5. Voltage Stability Assessment Methods 688 -- 11.6. Voltage Instability Countermeasures 716 -- 11.7. Application 724 -- 12. POWER SYSTEM PROTECTION 737 -- Klaus-Peter Brand and Ivan De Mesmaeker -- 12.1. Introduction 737 -- 12.2. Summary of IEC 61850 744 -- 12.3. The Protection Chain in Details 746 -- 12.4. Transmission and Distribution Power System Structures 753. 12.5. Properties of the Three-Phase Systems Relevant for Protection 755 -- 12.6. Protection Functions Sorted According to the Objects Protected 759 -- 12.7. From Single Protection Functions to System Protection 773 -- 12.8. Conclusions 780 -- PART III GRID BLACKOUTS AND RESTORATION PROCESS 787 -- 13. MAJOR GRID BLACKOUTS: ANALYSIS, CLASSIFICATION, AND PREVENTION 789 -- Yvon Besanger, Mircea Eremia, and Nikolai Voropai -- 13.1. Introduction 789 -- 13.2. Description of Some Previous Blackouts 792 -- 13.3. Analysis of Blackouts 835 -- 13.4. Economical and Social Effects 847 -- 13.5. Recommendations for Preventing Blackouts 849 -- 13.6. On Some Defense and Restoration Actions 850 -- 13.7. Survivability/vulnerability of Electric Power Systems 856 -- 13.8. Conclusions 860 -- 14. RESTORATION PROCESSES AFTER BLACKOUTS 864 -- Alberto Borghetti, Carlo Alberto Nucci, and Mario Paolone -- 14.1. Introduction 864 -- 14.2. Overview of The Restoration Process 865 -- 14.3. Black-Start-Up Capabilities of Thermal Power Plant: Modeling and Computer Simulations 869 -- 14.4. Description of Computer Simulators 888 -- 14.5. Concluding Remarks 896 -- 15. COMPUTER SIMULATION OF SCALE-BRIDGING TRANSIENTS IN POWER SYSTEMS 900 -- Kai Strunz and Feng Gao -- 15.1. Bridging of Instantaneous and Phasor Signals 901 -- 15.2. Network Modeling 903 -- 15.3. Modeling of Power System Components 909 -- 15.4. Application: Simulation of Blackout 923 -- References 926 -- Index 929. |
| Record Nr. | UNINA-9910141599903321 |
| Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2013] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour
| Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2013] |
| Descrizione fisica | 1 online resource (975 p.) |
| Disciplina |
621.3
621.31 |
| Altri autori (Persone) |
ShahidehpourM. <1955->
EremiaMircea |
| Collana | IEEE press series on power engineering |
| Soggetto topico |
Electric power system stability - Mathematical models
Electric power systems - Control Electric machinery - Dynamics |
| ISBN |
1-299-24203-0
1-118-51604-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword xxiii -- Acknowledgments xxv -- Contributors xxvii -- 1. INTRODUCTION 1 -- Mircea Eremia and Mohammad Shahidehpour -- PART I POWER SYSTEM MODELING AND CONTROL 7 -- 2. SYNCHRONOUS GENERATOR AND INDUCTION MOTOR 9 -- Mircea Eremia and Constantin Bulac -- 2.1. Theory and Modeling of Synchronous Generator 9 -- 2.2. Theory and Modeling of the Induction Motor 114 -- 3. MODELING THE MAIN COMPONENTS OF THE CLASSICAL POWER PLANTS 137 -- Mohammad Shahidehpour, Mircea Eremia, and Lucian Toma -- 3.1. Introduction 137 -- 3.2. Types of Turbines 138 -- 3.3. Thermal Power Plants 143 -- 3.4. Combined-Cycle Power Plants 158 -- 3.5. Nuclear Power Plants 167 -- 3.6. Hydraulic Power Plants 169 -- 4. WIND POWER GENERATION 179 -- Mohammad Shahidehpour and Mircea Eremia -- 4.1. Introduction 179 -- 4.2. Some Characteristics of Wind Power Generation 181 -- 4.3. State of the Art Technologies 184 -- 4.4. Modeling the Wind Turbine Generators 200 -- 4.5. Fault Ride-Through Capability 223 -- 5. SHORT-CIRCUIT CURRENTS CALCULATION 229 -- Nouredine Hadjsaid, Ion TriSstiu, and Lucian Toma -- 5.1. Introduction 229 -- 5.2. Characteristics of Short-Circuit Currents 232 -- 5.3. Methods of Short-Circuit Currents Calculation 236 -- 5.4. Calculation of Short-Circuit Current Components 264 -- 6. ACTIVE POWER AND FREQUENCY CONTROL 291 -- Les Pereira -- 6.1. Introduction 291 -- 6.2. Frequency Deviations in Practice 293 -- 6.3. Typical Standards and Policies for "Active Power and Frequency Control" or "Load Frequency Control" 294 -- 6.4. System Modeling, Inertia, Droop, Regulation, and Dynamic Frequency Response 297 -- 6.5. Governor Modeling 302 -- 6.6. AGC Principles and Modeling 328 -- 6.7. Other Topics of Interest Related to Load Frequency Control 336 -- 7. VOLTAGE AND REACTIVE POWER CONTROL 340 -- Sandro Corsi and Mircea Eremia -- 7.1. Relationship Between Active and Reactive Powers and Voltage 342 -- 7.2. Equipments for Voltage and Reactive Power Control 347 -- 7.3. Grid Voltage and Reactive Power Control Methods 374.
7.4. Grid Hierarchical Voltage Regulation 399 -- 7.5. Implementation Study of the Secondary Voltage Regulation in Romania 423 -- 7.6. Examples of Hierarchical Voltage Control in the World 429 -- PART II POWER SYSTEM STABILITY AND PROTECTION 451 -- 8. BACKGROUND OF POWER SYSTEM STABILITY 453 -- S.S. (Mani) Venkata, Mircea Eremia, and Lucian Toma -- 8.1. Introduction 453 -- 8.2. Classification of Power Systems Stability 453 -- 8.3. Parallelism Between Voltage Stability and Angular Stability 469 -- 8.4. Importance of Security for Power System Stability 469 -- 9. SMALL-DISTURBANCE ANGLE STABILITY AND ELECTROMECHANICAL OSCILLATION DAMPING 477 -- Roberto Marconato and Alberto Berizzi -- 9.1. Introduction 477 -- 9.2. The Dynamic Matrix 478 -- 9.3. A General Simplified Approach 482 -- 9.4. Major Factors Affecting the Damping of Electromechanical Oscillations 501 -- 9.5. Damping Improvement 546 -- 9.6. Typical Cases of Interarea Or Low-Frequency Electromechanical Oscillations 564 -- 10. TRANSIENT STABILITY 570 -- Nikolai Voropai and Constantin Bulac -- 10.1. General Aspects 570 -- 10.2. Direct Methods for Transient Stability Assessment 572 -- 10.3. Integration Methods for Transient Stability Assessment 603 -- 10.4. Dynamic Equivalents 614 -- 10.5. Transient Stability Assessment of Large Electric Power Systems 638 -- 10.6. Application 645 -- 11. VOLTAGE STABILITY 657 -- Mircea Eremia and Constantin Bulac -- 11.1. Introduction 657 -- 11.2. System Characteristics and Load Modeling 658 -- 11.3. Static Aspects of Voltage Stability 667 -- 11.4. Voltage Instability Mechanisms: Interaction Between Electrical Network, Loads, and Control Devices 674 -- 11.5. Voltage Stability Assessment Methods 688 -- 11.6. Voltage Instability Countermeasures 716 -- 11.7. Application 724 -- 12. POWER SYSTEM PROTECTION 737 -- Klaus-Peter Brand and Ivan De Mesmaeker -- 12.1. Introduction 737 -- 12.2. Summary of IEC 61850 744 -- 12.3. The Protection Chain in Details 746 -- 12.4. Transmission and Distribution Power System Structures 753. 12.5. Properties of the Three-Phase Systems Relevant for Protection 755 -- 12.6. Protection Functions Sorted According to the Objects Protected 759 -- 12.7. From Single Protection Functions to System Protection 773 -- 12.8. Conclusions 780 -- PART III GRID BLACKOUTS AND RESTORATION PROCESS 787 -- 13. MAJOR GRID BLACKOUTS: ANALYSIS, CLASSIFICATION, AND PREVENTION 789 -- Yvon Besanger, Mircea Eremia, and Nikolai Voropai -- 13.1. Introduction 789 -- 13.2. Description of Some Previous Blackouts 792 -- 13.3. Analysis of Blackouts 835 -- 13.4. Economical and Social Effects 847 -- 13.5. Recommendations for Preventing Blackouts 849 -- 13.6. On Some Defense and Restoration Actions 850 -- 13.7. Survivability/vulnerability of Electric Power Systems 856 -- 13.8. Conclusions 860 -- 14. RESTORATION PROCESSES AFTER BLACKOUTS 864 -- Alberto Borghetti, Carlo Alberto Nucci, and Mario Paolone -- 14.1. Introduction 864 -- 14.2. Overview of The Restoration Process 865 -- 14.3. Black-Start-Up Capabilities of Thermal Power Plant: Modeling and Computer Simulations 869 -- 14.4. Description of Computer Simulators 888 -- 14.5. Concluding Remarks 896 -- 15. COMPUTER SIMULATION OF SCALE-BRIDGING TRANSIENTS IN POWER SYSTEMS 900 -- Kai Strunz and Feng Gao -- 15.1. Bridging of Instantaneous and Phasor Signals 901 -- 15.2. Network Modeling 903 -- 15.3. Modeling of Power System Components 909 -- 15.4. Application: Simulation of Blackout 923 -- References 926 -- Index 929. |
| Record Nr. | UNINA-9910829963503321 |
| Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2013] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour
| Handbook of electrical power system dynamics : modeling, stability, and control / / edited by Mircea Eremia, Mohammad Shahidehpour |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons Inc., 2013 |
| Descrizione fisica | 1 online resource (975 p.) |
| Disciplina | 621.31 |
| Altri autori (Persone) |
EremiaMircea
ShahidehpourM. <1955-> |
| Collana | IEEE press series on power engineering |
| Soggetto topico |
Electric power system stability - Mathematical models
Electric power systems - Control Electric machinery - Dynamics |
| ISBN |
1-299-24203-0
1-118-51604-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword xxiii -- Acknowledgments xxv -- Contributors xxvii -- 1. INTRODUCTION 1 -- Mircea Eremia and Mohammad Shahidehpour -- PART I POWER SYSTEM MODELING AND CONTROL 7 -- 2. SYNCHRONOUS GENERATOR AND INDUCTION MOTOR 9 -- Mircea Eremia and Constantin Bulac -- 2.1. Theory and Modeling of Synchronous Generator 9 -- 2.2. Theory and Modeling of the Induction Motor 114 -- 3. MODELING THE MAIN COMPONENTS OF THE CLASSICAL POWER PLANTS 137 -- Mohammad Shahidehpour, Mircea Eremia, and Lucian Toma -- 3.1. Introduction 137 -- 3.2. Types of Turbines 138 -- 3.3. Thermal Power Plants 143 -- 3.4. Combined-Cycle Power Plants 158 -- 3.5. Nuclear Power Plants 167 -- 3.6. Hydraulic Power Plants 169 -- 4. WIND POWER GENERATION 179 -- Mohammad Shahidehpour and Mircea Eremia -- 4.1. Introduction 179 -- 4.2. Some Characteristics of Wind Power Generation 181 -- 4.3. State of the Art Technologies 184 -- 4.4. Modeling the Wind Turbine Generators 200 -- 4.5. Fault Ride-Through Capability 223 -- 5. SHORT-CIRCUIT CURRENTS CALCULATION 229 -- Nouredine Hadjsaid, Ion TriSstiu, and Lucian Toma -- 5.1. Introduction 229 -- 5.2. Characteristics of Short-Circuit Currents 232 -- 5.3. Methods of Short-Circuit Currents Calculation 236 -- 5.4. Calculation of Short-Circuit Current Components 264 -- 6. ACTIVE POWER AND FREQUENCY CONTROL 291 -- Les Pereira -- 6.1. Introduction 291 -- 6.2. Frequency Deviations in Practice 293 -- 6.3. Typical Standards and Policies for "Active Power and Frequency Control" or "Load Frequency Control" 294 -- 6.4. System Modeling, Inertia, Droop, Regulation, and Dynamic Frequency Response 297 -- 6.5. Governor Modeling 302 -- 6.6. AGC Principles and Modeling 328 -- 6.7. Other Topics of Interest Related to Load Frequency Control 336 -- 7. VOLTAGE AND REACTIVE POWER CONTROL 340 -- Sandro Corsi and Mircea Eremia -- 7.1. Relationship Between Active and Reactive Powers and Voltage 342 -- 7.2. Equipments for Voltage and Reactive Power Control 347 -- 7.3. Grid Voltage and Reactive Power Control Methods 374.
7.4. Grid Hierarchical Voltage Regulation 399 -- 7.5. Implementation Study of the Secondary Voltage Regulation in Romania 423 -- 7.6. Examples of Hierarchical Voltage Control in the World 429 -- PART II POWER SYSTEM STABILITY AND PROTECTION 451 -- 8. BACKGROUND OF POWER SYSTEM STABILITY 453 -- S.S. (Mani) Venkata, Mircea Eremia, and Lucian Toma -- 8.1. Introduction 453 -- 8.2. Classification of Power Systems Stability 453 -- 8.3. Parallelism Between Voltage Stability and Angular Stability 469 -- 8.4. Importance of Security for Power System Stability 469 -- 9. SMALL-DISTURBANCE ANGLE STABILITY AND ELECTROMECHANICAL OSCILLATION DAMPING 477 -- Roberto Marconato and Alberto Berizzi -- 9.1. Introduction 477 -- 9.2. The Dynamic Matrix 478 -- 9.3. A General Simplified Approach 482 -- 9.4. Major Factors Affecting the Damping of Electromechanical Oscillations 501 -- 9.5. Damping Improvement 546 -- 9.6. Typical Cases of Interarea Or Low-Frequency Electromechanical Oscillations 564 -- 10. TRANSIENT STABILITY 570 -- Nikolai Voropai and Constantin Bulac -- 10.1. General Aspects 570 -- 10.2. Direct Methods for Transient Stability Assessment 572 -- 10.3. Integration Methods for Transient Stability Assessment 603 -- 10.4. Dynamic Equivalents 614 -- 10.5. Transient Stability Assessment of Large Electric Power Systems 638 -- 10.6. Application 645 -- 11. VOLTAGE STABILITY 657 -- Mircea Eremia and Constantin Bulac -- 11.1. Introduction 657 -- 11.2. System Characteristics and Load Modeling 658 -- 11.3. Static Aspects of Voltage Stability 667 -- 11.4. Voltage Instability Mechanisms: Interaction Between Electrical Network, Loads, and Control Devices 674 -- 11.5. Voltage Stability Assessment Methods 688 -- 11.6. Voltage Instability Countermeasures 716 -- 11.7. Application 724 -- 12. POWER SYSTEM PROTECTION 737 -- Klaus-Peter Brand and Ivan De Mesmaeker -- 12.1. Introduction 737 -- 12.2. Summary of IEC 61850 744 -- 12.3. The Protection Chain in Details 746 -- 12.4. Transmission and Distribution Power System Structures 753. 12.5. Properties of the Three-Phase Systems Relevant for Protection 755 -- 12.6. Protection Functions Sorted According to the Objects Protected 759 -- 12.7. From Single Protection Functions to System Protection 773 -- 12.8. Conclusions 780 -- PART III GRID BLACKOUTS AND RESTORATION PROCESS 787 -- 13. MAJOR GRID BLACKOUTS: ANALYSIS, CLASSIFICATION, AND PREVENTION 789 -- Yvon Besanger, Mircea Eremia, and Nikolai Voropai -- 13.1. Introduction 789 -- 13.2. Description of Some Previous Blackouts 792 -- 13.3. Analysis of Blackouts 835 -- 13.4. Economical and Social Effects 847 -- 13.5. Recommendations for Preventing Blackouts 849 -- 13.6. On Some Defense and Restoration Actions 850 -- 13.7. Survivability/vulnerability of Electric Power Systems 856 -- 13.8. Conclusions 860 -- 14. RESTORATION PROCESSES AFTER BLACKOUTS 864 -- Alberto Borghetti, Carlo Alberto Nucci, and Mario Paolone -- 14.1. Introduction 864 -- 14.2. Overview of The Restoration Process 865 -- 14.3. Black-Start-Up Capabilities of Thermal Power Plant: Modeling and Computer Simulations 869 -- 14.4. Description of Computer Simulators 888 -- 14.5. Concluding Remarks 896 -- 15. COMPUTER SIMULATION OF SCALE-BRIDGING TRANSIENTS IN POWER SYSTEMS 900 -- Kai Strunz and Feng Gao -- 15.1. Bridging of Instantaneous and Phasor Signals 901 -- 15.2. Network Modeling 903 -- 15.3. Modeling of Power System Components 909 -- 15.4. Application: Simulation of Blackout 923 -- References 926 -- Index 929. |
| Record Nr. | UNINA-9911018956703321 |
| Hoboken, N.J., : John Wiley & Sons Inc., 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||