DESIGN OF SMART POWER GRID RENEWABLE ENERGY SYSTEMS PDF

E-Book E-publications available from kosid.org are delivered on the VitalSource platdevelop. To download and also check out them, individuals must install the VitalSource Bookshelf Software.E-publications have actually DRM protection on them, which means just the perkid who purchases and also downloads the e-book have the right to accessibility it.E-publications are non-returnable and non-refundable." class="icon-info black" data-original-title="" title="">

You watching: Design of smart power grid renewable energy systems pdf

Downpack Product Flyer is to downpack PDF in new tab. This is a dummy description. Downfill Product Flyer is to download PDF in new tab. This is a dummy description. Downfill Product Flyer is to download PDF in brand-new tab. This is a dummy summary. Downpack Product Flyer is to download PDF in brand-new tab. This is a dummy summary.

See more: How To Make A Solar Oven With A Shoebox Solar Oven, How To Make A Shoebox Solar Oven

The Updated Third Edition Provides a Equipment Approach to Sustainable Green Energy Production and also Contains Analytical Tools for the Deauthorize of Renewable Microgrids

The revised third edition ofDeauthorize of Smart Power Grid Renewable Energy Systemsintegprices three areas of electrical engineering: power systems, power electronic devices, and also electric power convariation systems. The book also addresses the fundamental design of wind and also photovoltaic (PV) power microgrids as part of smart-mass power-grid systems.

In order to demystify the intricacy of the integrated strategy, the writer first presents the fundamental principles, and then explores a simulation test bed in MATLAB® in order to usage these concepts to solve an easy trouble in the advance of smart grid energy mechanism. Each chapter provides a problem of integration and also defines why it is important. Then the mathematical model of the problem is formulated, and the solution actions are outlined. This action is followed by developing a MATLAB® simula­tion test bed. This crucial book:

Reviews the basic values underlying power systems Explores topics including: AC/DC rectifiers, DC/AC inverters, DC/DC converters, and pulse width modulation (PWM) approaches Describes the fundamental ideas in the design and also procedure of smart grid power grids Supplementary product consists of a solutions hands-on and also PowerPoint presentations for instructors

Written for undergraduate and graduate students in electrical power units design, researchers, and also market experts, the revised 3rd edition ofDeauthorize of Smart Power Grid Renewable Energy Systemsis a overview to the basic principles of power grid integration on microgrids of green energy sources.


Ali Keyhani, PhD, is a Professor in the Department of Electrical and Computer Engineering at Ohio State University. He is a Other of the IEEE and also a recipient of Ohio State University, College of Engineering Research Award for 1989, 1999, and 2003. He has actually worked for Columbus and also Southern Electric Power Company type of, Hewlett-Packard Co., Foster Wheeler Engineering, and also TRW.

Prechallenge xiii

Acknowledgments xvi

About the Companion Website xvii

1 Energy and also Civilization 1

1.1 Introduction: Motivation 1

1.2 Fossil Fuel 2

1.3 Energy Use and also Industrialization 2

1.4 Nuclear Energy 4

1.5 Global Warming 5

1.6 The Era of the Electric Power Grid 9

1.7 Eco-friendly and Renewable Energy Sources 10

1.8 Hydrogen 11

1.9 Solar and also Photovoltaic 11

1.9.1 Wind Power 12

1.9.2 Geothermal 13

1.10 Biomass 13

1.11 Ethanol 13

1.12 Energy Units and also Conversions 13

1.13 Estimating the Cost of Energy 17

1.14 New Oil Boom–Hydraulic Fracturing (Fracking) 20

1.15 Estimation of Future CO2 21

1.16 The Paris Commitment | UNFCCC 22

1.17 Energy Utilization and Economic Growth 23

1.18 Conclusion 23

Problems 24

Further Reading 26

2 Power Grids 28

2.1 Introduction 28

2.2 Electric Power Grids 29

2.2.1 Background 29

2.2.2 The Construction of a Power Grid System 29

2.3 Basic Concepts of Power Grids 33

2.3.1 Usual Terms 33

2.3.2 Calculating Power Consumption 33

2.4 Load Models 49

2.5 Transformers in Electric Power Grids 53

2.5.1 A Quick History of Transformers 54

2.5.2 Transmission Voltage 54

2.5.3 Transformers 55

2.6 Modeling a Microgrid System 59

2.6.1 The Per Unit System 60

2.7 Modeling Three-Phase Transformers 69

2.8 Tap-Changing Transformers 72

2.9 Modeling Transmission Lines 74

Problems 87

References 92

3 Modeling of Converters in Power Grid Distributed Generation Equipment 93

3.1 Introduction 93

3.2 Single-Phase DC/AC Inverters via Two Switches 94

3.3 Single-Phase DC/AC Inverters with a Four-Switch Bipolar Switching Method 106

3.3.1 Pulse Width Modulation through Unipolar Voltage Switching for a Single-Phase Full-Bridge Inverter 110

3.4 Three-Phase DC/AC Inverters 113

3.5 Pulse Width Modulation Methods 114

3.5.1 The Triangular Method 114

3.5.2 The Identity Method 119

3.6 Analysis of DC/AC Three-Phase Inverters 120

3.7 Microgrid of Renewable Energy Equipment 130

3.8 DC/DC Converters in Green Energy Solution 133

3.8.1 The Step-Up Converter 134

3.8.2 The Step-Down Converter 144

3.8.3 The Buck–Boost Converter 151

3.9 Rectifiers 156

3.10 Pulse Width Modulation Rectifiers 160

3.11 A Three-Phase Voltage Source Rectifier Utilizing Sinusoidal PWM Switching 163

3.12 The Sizing of an Inverter for Microgrid Operation 167

3.13 The Sizing of a Rectifier for Microgrid Operation 169

3.14 The Sizing of DC/DC Converters for Microgrid Operation 170

Problems 171

References 176

4 Smart Power Grid Equipment 177

4.1 Overview 177

4.2 Power Grid Operation 178

4.3 Vertically and also Market-Structured Power Grid 184

4.4 The Operations Control of a Power Grid 187

4.5 Load Frequency Control 187

4.6 Automatic Generation Control 193

4.7 Operating Reserve Calculation 198

4.8 Basic Concepts of a Smart Power Grid 199

4.9 The Load Factor 206

4.10 The Load Factor and also Real-Time Pricing 209

4.11 A Cyber-Controlled Smart Grid 212

4.12 Smart Grid Advancement 214

4.13 Smart Microgrid Renewable and Green Energy Systems 216

4.14 A Power Grid Steam Generator 223

4.15 Power Grid Modeling 234

Problems 240

References 245

5 Solar Energy Systems 247

5.1 Overview 247

5.2 The Solar Energy Conversion Process: Thermal Power Plants 251

5.3 Photovoltaic Power Convariation 253

5.4 Photovoltaic Materials 253

5.5 Photovoltaic Characteristics 255

5.6 Photovoltaic Efficiency 258

5.7 The Design of Photovoltaic Solution 262

5.8 The Modeling of a Photovoltaic Module 277

5.9 The Measurement of Photovoltaic Performance 278

5.10 The Maximum Power Point of a Photovoltaic Array 278

5.11 A Battery Storage System 292

5.12 A Storage System Based on a Single-Cell Battery 294

5.13 The Energy Yield of a Photovoltaic Module and also the Angle of Incidence 317

5.14 The State of Photovoltaic Generation Technology 318

Problems 318

References 326

6 Microgrid Wind Energy Solution 328

6.1 Review 328

6.2 Wind Power 329

6.3 Wind Turbine Generators 331

6.4 The Modeling of Induction Machines 334

6.4.1 Calculation of Slip 343

6.4.2 The Equivalent Circuit of an Induction Machine 343

6.5 Power Flow Analysis of an Induction Machine 346

6.6 The Operation of an Induction Generator 351

6.7 Dynamic Performance 366

6.8 The Doubly Fed Induction Generator 372

6.9 Brushmuch less Doubly Fed Induction Generator Solution 375

6.10 Variable-Speed Permanent Magnet Generators 376

6.11 A Variable-Speed Synchronous Generator 377

6.12 A Variable-Speed Generator with a Converter Isolated from the Grid 378

Problems 380

References 384

7 Load Flow Analysis of Power Grids and Microgrids 386

7.1 Summary 386

7.2 Voltage Calculation in Power Grid Analysis 387

7.3 The Power Flow Problem 391

7.4 Load Flow Study as a Power System Engineering Device 392

7.5 Bus Types 392

7.6 General Formulation of the Power Flow Problem 397

7.7 Algorithm for Calculation of Bus Admittance Model 400

7.7.1 The History of Algebra, Algorithm, and Number Equipment 400

7.7.2 Bus Admittance Algorithm 402

7.8 The Bus Impedance Algorithm 403

7.9 Formulation of the Load Flow Problem 404

7.10 The Gauss–Seidel YBUS Algorithm 407

7.11 The Gauss–Seidel ZBUS Algorithm 412

7.12 Comparison of the YBUS and also ZBUS Power Flow Solution Methods 419

7.13 The Synchronous and Asynchronous Operation of Microgrids 420

7.14 An Modern Power Flow Equipment Method: The Newton–Raphkid Algorithm 422

7.14.1 The Newton–Raphkid Algorithm 425

7.15 General Formulation of the Newton–Raphboy Algorithm 430

7.16 The Decoupled Newton–Raphchild Algorithm 434

7.17 The Rapid Decoupled Load Flow Algorithm 435

7.18 Analysis of a Power Flow Problem 436

Problems 448

References 461

8 Power Grid and Microgrid Fault Studies 462

8.1 Overview 462

8.2 Power Grid Fault Current Calculation 464

8.3 Symmetrical Components 468

8.4 Sequence Netfunctions for Power Generators 473

8.5 The Modeling of Wind and also PV Generating Stations 476

8.6 Sequence Networks for Balanced Three-Phase Transmission Lines 477

8.7 Ground Current Flow in Balanced Three-Phase Transformers 479

8.8 Zero Sequence Netjob-related 481

8.8.1 Transformers 481

8.8.2 Load Connections 482

8.8.3 Power Grid 484

8.9 Fault Studies 487

8.9.1 Balanced Three-Phase Fault Analysis 490

8.9.2 Unbalanced Faults 508

8.9.3 Single-Line-to-Ground Faults 508

8.9.4 Double-Line-to-Ground Faults 511

8.9.5 Line-to-Line Faults 513

Problems 527

References 533

9 Smart Devices and also Energy Efficiency Monitoring Systems 534

9.1 Overview 534

9.2 Kilowatt-Hour Measurements 535

9.3 Current and Voltage Measurements 536

9.4 Power Measurements at 60 or 50HZ 537

9.5 Analog-to-Digital Conversions 538

9.6 Root Median Square (RMS) Measurement Devices 538

9.7 Energy Monitoring Systems 539

9.8 Smart Meters 539

9.9 Power Monitoring and also Scheduling 540

9.10 Communication Equipment 541

9.11 Netoccupational Security and Software 543

9.12 Smartphone Applications 546

9.13 Outline 546

Problems 547

More Reading 548

10 Load Estimation and Category 549

10.1 Summary 549

10.2 Load Estimation of a Residential Load 549

10.3 Service Feeder and also Metering 557

10.3.1 Assumed Wattperiods 557

Problems 560

References 562

11 Energy Saving and Cost Estimation of Incandescent and Light-Emitting Diodes 563