Technologies for Electrical Power Conversion Efficiency and Distribution
Thursday, June 10, 2010
Section 1 Energy, Conversion and Storage of Energy
Chapter 1 Energy and Energy Efficiency
Energy Sources 1
Energy Efficiency and Contemporary Trends 6
References 9
Chapter 2 Storage and Usage of Energy 10
Overview 10
Storage of Energy as Electrochemical Energy 11
Storage of Energy as Electromagnetic Energy 21
Storage of Energy as Electrostatic Energy 24
Storage of Energy as Mechanical Energy 26
Using the Energy as Electrical Energy 30
References 30
Chapter 3 Power Electronics and Its Role in Effective Conversion of Electrical Energy
Overview 32
Principles of Conversion of Electrical Energy 36
Computer-Aided Design of Power Electronic Converters in Power Electronics 41
References 47
End notes 58
Section 2 Electronic Energy Converters
Chapter 4 AC/DC Conversion 50
Basic Indicators in Respect to the Supply Network 50
Single-Phase and Three-Phase Uncontrolled Rectifiers 55
Single-Phase and Three-Phase Controlled Rectifiers 66
Bidirectional AC/DC Conversion 77
Methods to Improve Power Efficiency in AC/DC Conversion 83
References 96
Chapter 5 AC/AC Conversion 98
Basic Indicators in Respect to the Supply Network 98
Single-Phase and Three-Phase AC Regulators 199
Methods to Improve Power Efficiency in AC/AC Conversion 114
References 133
Chapter 6 DC/DC Conversion 134
Basic Indicators 134
Conversion Without Galvanic Isolation 135
Conversion with Galvanic Isolation 143
Bidirectional DC/DC Conversion 155
Methods to Improve Power Efficiency in DC/DC Conversion 157
References 165
Endnote 166
Chapter 7 DC/AC Conversion 167
Basic Indicators 167
Single-Phase and Three-Phase Converters 169
Methods to Improve Power Efficiency in DC/AC Conversion 201
References 205
Endnote 206
Section 3 Applications of Electronic Energy Converters
Chapter 8 Conversion of Electrical Energy in the Processes of Its Generation and Transmission 208
Conversion in the Process of Electrical Generation 208
Static VAR Compensators (SVC) 211
Static Synchronous Compensator (STATCOM) 211
Thyristor Controlled Series Compensator (TCSC) 213
Static Synchronous Series Controller (SSSC) 214
Unified Power Flow Controller (UPFC) 214
Interline Power Flow Controller (IPFC) 215
High Voltage DC Transmission 227
References 229
Chapter 9 Conversion of Electrical Power from Renewable Energy Sources 231
Overview 231
Conversion of Solar Energy 233
Conversion of Wind Energy 239
Conversion of Water Energy 245
References 246
Chapter 10 Uninterruptible Power Supply Systems 248
Introduction 248
Basic Schemas and Their Indicators 254
Methods to Increase the Reliability 262
Communication between UPS Systems and Different Systems 267
References 268
Endnotes 269
Chapter 11 Other Applications of Converters and Systems of Converters 270
Industrial Applications 270
Transport Applications 280
Home Appliances 286
Elevators 293
Applications in Communication 293
Medical Applications 295
References 298
Chapter 12 State-of-the-Art Review on Power Electronics 300
Contemporary Study in the Field of Components for Power Electronics 301
Contemporary Study in the Field of Circuits for Power Electronic Converters 303
Contemporary Study in the Field of Systems of Power Electronic Converters 307
Contemporary Study in the Field of the Control Systems of Power Electronic Converters 309
Contemporary Study in the Field of Computer Simulation of Power Electronic Converters 310
References 311
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1 comments:
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