000 16343nam a2201693 i 4500
001 7753049
003 IEEE
005 20200421114641.0
006 m o d
007 cr |n|||||||||
008 170118s2016 njua ob 001 eng d
010 _z 2014001834 (print)
020 _a9781118755525
_qelectronic
020 _z9781118634035
_qcloth
024 7 _a10.1002/9781118755525
_2doi
035 _a(CaBNVSL)mat07753049
035 _a(IDAMS)0b0000648585c68c
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aTK7881.15
_b.P6725 2014eb
082 0 0 _a621.31/7
_223
245 0 0 _aPower electronics for renewable energy systems, transportation, and industrial applications /
_cedited by Haitham Abu-Rub, Mariusz Malinowski, Kamal Al-Haddad.
264 1 _aChichester, West Sussex, United Kingdom ;
_aHoboken, New Jersey :
_bWiley/IEEE
_c2014.
264 2 _a[Piscataqay, New Jersey] :
_bIEEE Xplore,
_c[2014]
300 _a1 PDF (xxx, 795 pages) :
_billustrations.
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
500 _aAuthor's surname spelled "Haitham" on title page.
504 _aIncludes bibliographical references and index.
505 0 _aForeword xix -- Preface xxi -- Acknowledgements xxv -- List of Contributors xxvii -- 1 Energy, Global Warming and Impact of Power Electronics in the Present Century 1 -- 1.1 Introduction 1 -- 1.2 Energy 2 -- 1.3 Environmental Pollution: Global Warming Problem 3 -- 1.4 Impact of Power Electronics on Energy Systems 8 -- 1.5 Smart Grid 20 -- 1.6 Electric/Hybrid Electric Vehicles 21 -- 1.7 Conclusion and Future Prognosis 23 -- References 25 -- 2 Challenges of the Current Energy Scenario: The Power Electronics Contribution 27 -- 2.1 Introduction 27 -- 2.2 Energy Transmission and Distribution Systems 28 -- 2.3 Renewable Energy Systems 34 -- 2.4 Transportation Systems 41 -- 2.5 Energy Storage Systems 42 -- 2.6 Conclusions 47 -- References 47 -- 3 An Overview on Distributed Generation and Smart Grid Concepts and Technologies 50 -- 3.1 Introduction 50 -- 3.2 Requirements of Distributed Generation Systems and Smart Grids 51 -- 3.3 Photovoltaic Generators 52 -- 3.4 Wind and Mini-hydro Generators 55 -- 3.5 Energy Storage Systems 56 -- 3.6 Electric Vehicles 57 -- 3.7 Microgrids 57 -- 3.8 Smart Grid Issues 59 -- 3.9 Active Management of Distribution Networks 60 -- 3.10 Communication Systems in Smart Grids 61 -- 3.11 Advanced Metering Infrastructure and Real-Time Pricing 62 -- 3.12 Standards for Smart Grids 63 -- References 65 -- 4 Recent Advances in Power Semiconductor Technology 69 -- 4.1 Introduction 69 -- 4.2 Silicon Power Transistors 70 -- 4.3 Overview of SiC Transistor Designs 75 -- 4.4 Gate and Base Drivers for SiC Devices 80 -- 4.5 Parallel Connection of Transistors 89 -- 4.6 Overview of Applications 97 -- 4.7 Gallium Nitride Transistors 100 -- 4.8 Summary 102 -- References 102 -- 5 AC-Link Universal Power Converters: A New Class of Power Converters for Renewable Energy and Transportation 107 -- 5.1 Introduction 107 -- 5.2 Hard Switching ac-Link Universal Power Converter 108 -- 5.3 Soft Switching ac-Link Universal Power Converter 112 -- 5.4 Principle of Operation of the Soft Switching ac-Link Universal Power Converter 113.
505 8 _a5.5 Design Procedure 122 -- 5.6 Analysis 123 -- 5.7 Applications 126 -- 5.8 Summary 133 -- Acknowledgment 133 -- References 133 -- 6 High Power Electronics: Key Technology forWind Turbines 136 -- 6.1 Introduction 136 -- 6.2 Development of Wind Power Generation 137 -- 6.3 Wind Power Conversion 138 -- 6.4 Power Converters for Wind Turbines 143 -- 6.5 Power Semiconductors for Wind Power Converter 149 -- 6.6 Controls and Grid Requirements for Modern Wind Turbines 150 -- 6.7 Emerging Reliability Issues for Wind Power System 155 -- 6.8 Conclusion 156 -- References 156 -- 7 Photovoltaic Energy Conversion Systems 160 -- 7.1 Introduction 160 -- 7.2 Power Curves and Maximum Power Point of PV Systems 162 -- 7.3 Grid-Connected PV System Configurations 165 -- 7.4 Control of Grid-Connected PV Systems 181 -- 7.5 Recent Developments in Multilevel Inverter-Based PV Systems 192 -- 7.6 Summary 195 -- References 195 -- 8 Controllability Analysis of Renewable Energy Systems 199 -- 8.1 Introduction 199 -- 8.2 Zero Dynamics of the Nonlinear System 201 -- 8.3 Controllability of Wind Turbine Connected through L Filter to the Grid 202 -- 8.4 Controllability of Wind Turbine Connected through LCL Filter to the Grid 208 -- 8.5 Controllability and Stability Analysis of PV System Connected to Current Source Inverter 219 -- 8.6 Conclusions 228 -- References 229 -- 9 Universal Operation of Small/Medium-Sized Renewable Energy Systems 231 -- 9.1 Distributed Power Generation Systems 231 -- 9.2 Control of Power Converters for Grid-Interactive Distributed Power Generation Systems 243 -- 9.3 Ancillary Feature 259 -- 9.4 Summary 267 -- References 268 -- 10 Properties and Control of a Doubly Fed Induction Machine 270 -- 10.1 Introduction. Basic principles of DFIM 270 -- 10.2 Vector Control of DFIM Using an AC/DC/AC Converter 280 -- 10.3 DFIM-Based Wind Energy Conversion Systems 305 -- References 317 -- 11 AC–DC–AC Converters for Distributed Power Generation Systems 319 -- 11.1 Introduction 319 -- 11.2 Pulse-Width Modulation for AC–DC–AC Topologies 328.
505 8 _a11.3 DC-Link Capacitors Voltage Balancing in Diode-Clamped Converter 334 -- 11.4 Control Algorithms for AC–DC–AC Converters 345 -- 11.5 AC–DC–AC Converter with Active Power FeedForward 356 -- 11.6 Summary and Conclusions 361 -- References 362 -- 12 Power Electronics for More Electric Aircraft 365 -- 12.1 Introduction 365 -- 12.2 More Electric Aircraft 367 -- 12.3 More Electric Engine (MEE) 372 -- 12.4 Electric Power Generation Strategies 374 -- 12.5 Power Electronics and Power Conversion 378 -- 12.6 Power Distribution 381 -- 12.7 Conclusions 384 -- References 385 -- 13 Electric and Plug-In Hybrid Electric Vehicles 387 -- 13.1 Introduction 387 -- 13.2 Electric, Hybrid Electric and Plug-In Hybrid Electric Vehicle Topologies 388 -- 13.3 EV and PHEV Charging Infrastructures 392 -- 13.4 Power Electronics for EV and PHEV Charging Infrastructure 404 -- 13.5 Vehicle-to-Grid (V2G) and Vehicle-to-Home (V2H) Concepts 407 -- 13.6 Power Electronics for PEV Charging 410 -- References 419 -- 14 Multilevel Converter/Inverter Topologies and Applications 422 -- 14.1 Introduction 422 -- 14.2 Fundamentals of Multilevel Converters/Inverters 423 -- 14.3 Cascaded Multilevel Inverters and Their Applications 432 -- 14.4 Emerging Applications and Discussions 444 -- 14.5 Summary 459 -- Acknowledgment 461 -- References 461 -- 15 Multiphase Matrix Converter Topologies and Control 463 -- 15.1 Introduction 463 -- 15.2 Three-Phase Input with Five-Phase Output Matrix Converter 464 -- 15.3 Simulation and Experimental Results 484 -- 15.4 Matrix Converter with Five-Phase Input and Three-Phase Output 488 -- 15.5 Sample Results 499 -- Acknowledgment 501 -- References 501 -- 16 Boost Preregulators for Power Factor Correction in Single-Phase Rectifiers 503 -- 16.1 Introduction 503 -- 16.2 Basic Boost PFC 504 -- 16.3 Half-Bridge Asymmetric Boost PFC 511 -- 16.4 Interleaved Dual-Boost PFC 519 -- 16.5 Conclusion 528 -- References 529 -- 17 Active Power Filter 534 -- 17.1 Introduction 534 -- 17.2 Harmonics 535.
505 8 _a17.3 Effects and Negative Consequences of Harmonics 535 -- 17.4 International Standards for Harmonics 536 -- 17.5 Types of Harmonics 537 -- 17.5.1 Harmonic Current Sources 537 -- 17.5.2 Harmonic Voltage Sources 537 -- 17.6 Passive Filters 539 -- 17.7 Power Definitions 540 -- 17.8 Active Power Filters 543 -- 17.9 APF Switching Frequency Choice Methodology 547 -- 17.10 Harmonic Current Extraction Techniques (HCET) 548 -- 17.11 Shunt Active Power Filter 555 -- 17.12 Series Active Power Filter 564 -- 17.13 Unified Power Quality Conditioner 565 -- Acknowledgment 569 -- References 569 -- 18A Hardware-in-the-Loop Systems with Power Electronics: A Powerful Simulation Tool 573 -- 18A.1 Background 573 -- 18A.2 Increasing the Performance of the Power Stage 575 -- 18A.3 Machine Model of an Asynchronous Machine 581 -- 18A.4 Results and Conclusions 583 -- References 589 -- 18B Real-Time Simulation of Modular Multilevel Converters (MMCs) 591 -- 18B.1 Introduction 591 -- 18B.2 Choice of Modeling for MMC and Its Limitations 597 -- 18B.3 Hardware Technology for Real-Time Simulation 598 -- 18B.4 Implementation for Real-Time Simulator Using Different Approach 601 -- 18B.5 Conclusion 606 -- References 606 -- 19 Model Predictive Speed Control of Electrical Machines 608 -- 19.1 Introduction 608 -- 19.2 Review of Classical Speed Control Schemes for Electrical Machines 609 -- 19.3 Predictive Current Control 613 -- 19.4 Predictive Torque Control 617 -- 19.5 Predictive Torque Control Using a Direct Matrix Converter 619 -- 19.6 Predictive Speed Control 622 -- 19.7 Conclusions 626 -- Acknowledgment 627 -- References 627 -- 20 The Electrical Drive Systems with the Current Source Converter 630 -- 20.1 Introduction 630 -- 20.2 The Drive System Structure 631 -- 20.3 The PWM in CSCs 633 -- 20.4 The Generalized Control of a CSR 636 -- 20.5 The Mathematical Model of an Asynchronous and a Permanent Magnet Synchronous Motor 639 -- 20.6 The Current and Voltage Control of an Induction Machine 641 -- 20.7 The Current and Voltage Control of Permanent Magnet Synchronous Motor 651.
505 8 _a20.8 The Control System of a Doubly Fed Motor Supplied by a CSC 657 -- 20.9 Conclusion 661 -- References 662 -- 21 Common-Mode Voltage and Bearing Currents in PWM Inverters: Causes, Effects and Prevention 664 -- 21.1 Introduction 664 -- 21.2 Determination of the Induction Motor Common-Mode Parameters 671 -- 21.3 Prevention of Common-Mode Current: Passive Methods 674 -- 21.4 Active Systems for Reducing the CM Current 682 -- 21.5 Common-Mode Current Reduction by PWM Algorithm Modifications 683 -- 21.6 Summary 692 -- References 692 -- 22 High-Power Drive Systems for Industrial Applications: Practical Examples 695 -- 22.1 Introduction 695 -- 22.2 LNG Plants 696 -- 22.3 Gas Turbines (GTs): the Conventional Compressor Drives 697 -- 22.4 Technical and Economic Impact of VFDs 699 -- 22.5 High-Power Electric Motors 700 -- 22.6 High-Power Electric Drives 705 -- 22.7 Switching Devices 705 -- 22.8 High-Power Converter Topologies 709 -- 22.9 Multilevel VSI Topologies 711 -- 22.10 Control of High-Power Electric Drives 719 -- 22.11 Conclusion 723 -- Acknowledgment 724 -- References 724 -- 23 Modulation and Control of Single-Phase Grid-Side Converters 727 -- 23.1 Introduction 727 -- 23.2 Modulation Techniques in Single-Phase Voltage Source Converters 729 -- 23.3 Control of AC–DC Single-Phase Voltage Source Converters 748 -- 23.4 Summary 763 -- References 763 -- 24 Impedance Source Inverters 766 -- 24.1 Multilevel Inverters 766 -- 24.2 Quasi-Z-Source Inverter 767 -- 24.3 qZSI-Based Cascade Multilevel PV System 775 -- 24.4 Hardware Implementation 780 -- Acknowledgments 782 -- References 782 -- Index 787.
506 1 _aRestricted to subscribers or individual electronic text purchasers.
520 _aPower Electronics for Renewable Energy, Transportation, and Industrial Applications combines state-of-the-art global expertise to present the latest research on power electronics and its application in transportation, renewable energy, and different industrial applications. This timely book aims to facilitate the implementation of cutting-edge techniques to design problems offering innovative solutions to the growing power demands in small- and large-size industries. Application areas in the book range from smart homes and electric and plug-in hybrid electrical vehicles (PHEVs), to smart distribution and intelligence operation centers where significant energy efficiency improvements can be achieved through the appropriate use and design of power electronics and energy storage devices. Key features: . Discusses wide range of power electronics converters and control techniques to reduce energy waste and improve grid power quality.. Brings together power electronics technologies such as renewable energy conversion, electric transportation, and electric drives, which are prevalent in industry and at education and research stages.. Defines existing challenges, concerns, and selected problems complying with international trends, standards, and programs for electric power conversion, distribution, and sustainable energy development. . An imperative and far reaching learning resource for power electronics engineers, researchers, and students.
530 _aAlso available in print.
538 _aMode of access: World Wide Web
588 _aDescription based on PDF viewed 01/18/2017.
650 0 _aPower electronics.
650 0 _aIndustries
_xPower supply.
655 0 _aElectronic books.
695 _aActive filters
695 _aAerospace control
695 _aAerospace electronics
695 _aAircraft
695 _aAircraft propulsion
695 _aAutomobiles
695 _aBatteries
695 _aBlades
695 _aBridge circuits
695 _aCapacitance
695 _aCapacitors
695 _aCoal
695 _aCompressors
695 _aConductivity
695 _aControl systems
695 _aControllability
695 _aCurrent control
695 _aDistortion
695 _aDistributed power generation
695 _aElectric motors
695 _aEnergy storage
695 _aEngines
695 _aField programmable gate arrays
695 _aFilms
695 _aFrequency control
695 _aFrequency conversion
695 _aFuels
695 _aGenerators
695 _aGlobal warming
695 _aHVDC transmission
695 _aHarmonic analysis
695 _aHarmonic distortion
695 _aHybrid electric vehicles
695 _aIce
695 _aInductance
695 _aInduction machines
695 _aInduction motors
695 _aInductors
695 _aInsulated gate bipolar transistors
695 _aIntegrated circuit modeling
695 _aInverters
695 _aLiquefied natural gas
695 _aLogic gates
695 _aMOSFET
695 _aMaintenance engineering
695 _aMathematical model
695 _aMatrix converters
695 _aMaximum power point trackers
695 _aMedium voltage
695 _aNatural gas
695 _aNonlinear dynamical systems
695 _aOils
695 _aPhotovoltaic systems
695 _aPower conversion
695 _aPower electronics
695 _aPower factor correction
695 _aPower generation
695 _aPower harmonic filters
695 _aPower system stability
695 _aPower transmission lines
695 _aPulse width modulation
695 _aRadiation effects
695 _aReactive power
695 _aReal-time systems
695 _aRectifiers
695 _aReliability
695 _aRenewable energy sources
695 _aResistance
695 _aRotors
695 _aSaturation magnetization
695 _aSections
695 _aShafts
695 _aSilicon
695 _aSilicon carbide
695 _aSmart grids
695 _aSoft switching
695 _aStability analysis
695 _aStandards
695 _aStator windings
695 _aStators
695 _aSteady-state
695 _aStress
695 _aSwitches
695 _aSwitching frequency
695 _aTemperature
695 _aTopology
695 _aTorque
695 _aTransistors
695 _aTransportation
695 _aTwo dimensional displays
695 _aVelocity control
695 _aVoltage control
695 _aWind power generation
695 _aWind turbines
700 1 _aAbu-Rub, Haitham,
_eeditor of compilation.
700 1 _aMalinowski, Mariusz
_c(Electrical engineer),
_eeditor of compilation.
700 1 _aAl-Haddad, Kamal,
_eeditor of compilation.
710 2 _aIEEE Xplore (Online Service),
_edistributor.
710 2 _aWiley,
_epublisher.
856 4 2 _3Abstract with links to resource
_uhttp://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=7753049
942 _cEBK
999 _c59967
_d59967