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Advanced Simulation of Alternative Energy [electronic resource] : Simulation with Simulink® and SimPowerSystems(tm).

By: Perelʹmuter, V. M. (Viktor Moiseevich)Material type: TextTextPublisher: Boca Raton, FL : CRC Press LLC, 2020Description: 1 online resource (315 pages)ISBN: 9781000053142; 1000053148; 9780429324055; 0429324057; 9781000053128; 1000053121Subject(s): Electric power systems -- Computer simulation | SCIENCE / Energy | TECHNOLOGY / Electricity | TECHNOLOGY / Electronics / GeneralDDC classification: 621.31 LOC classification: TK1005Online resources: Taylor & Francis | OCLC metadata license agreement
Contents:
Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- 1. SimPowerSystems Blocks and Units Used for Simulation of the Renewable Energy Systems -- 1.1. Standard Blocks -- 1.1.1. Electrical Sources -- 1.1.2. Loads, Impedances, and Transformers -- 1.1.3. Transmission Lines, Filters, and Breakers -- 1.1.4. Power Electronic Devices and Circuits -- 1.1.5. Electric Generators -- 1.1.6. Powergui -- 1.1.7. Control and Measuring Blocks -- 1.2. Advanced Devices and Units -- 1.2.1. Batteries and Supercapacitors -- 1.2.2. Power Converters
1.2.3. Multiphase Electric Generators -- 1.2.3.1. Six-Phase IG -- 1.2.3.2. Six-Phase SG -- 1.2.3.3. Nine-Phase SG -- 1.2.3.4. Six-Phase PMSG -- References -- 2. Wind Generator System Simulation -- 2.1. Fundamentals -- 2.2. Modeling Wind Shear and Tower Shadow Effect -- 2.3. Active Damping Simulation -- 2.4. System Inertia Support -- 2.5. Synchronverter Simulation -- 2.6. Wind Turbines with Multiphase Generators -- 2.7. Offshore Wind Park with Series-Connected Generators -- 2.8. Simulation of Two-Terminal Offshore Wind Park -- 2.9. Direct Power Control of VSI-Gr -- References
3. Photovoltaic Energy Sources -- 3.1. Fundamentals -- 3.2. Simulation of Grid-Connected Photovoltaic Systems -- 3.3. Grid-Connected Photovoltaic Systems with Cascaded H-Bridge Multilevel Inverters -- 3.4. PV Island Operation -- References -- 4. Fuel Cell and Microturbine Simulation -- 4.1. Simulation of the Fuel Cells and Electrolyzers -- 4.2. Microturbine Simulation -- References -- 5. Hydro and Marine Power Plants -- 5.1. River Hydro Stations -- 5.2. Ocean Wave Energy Conversion -- 5.2.1. Point Absorber -- 5.2.2. Oscillating Water Columns -- 5.3. Ocean Tide Energy
5.3.1. Tidal Power Plant Simulation -- 5.3.2. Tidal Current Plant Simulation -- 5.4. Pumped Storage Hydropower -- References -- 6. Hybrid System Simulation -- 6.1. Plants with Diesel Generators -- 6.2. Hybrid Systems with FC -- 6.3. Microgrid Simplified Simulation -- List of the Appended Models -- Index
Summary: Advanced Simulation of Alternative Energy: Simulations with Simulink and SimPowerSystems considers models of new and promising installations of renewable energy sources, as well as the new trends in this technical field. The book is focused on wind generators with multiphase generators, models of different offshore parks, wind shear and tower shadow effect, active damping, system inertia support, synchronverter modeling, photovoltaic cells with cascaded H-Bridge multilevel inverters, operation of fuel cells with electrolyzers and microturbines, utilization of ocean wave and ocean tide energy sources, pumped storage hydropower simulation, and simulation of some hybrid systems. Simulink and its toolbox, SimPowerSystems (its new name Electrical/Specialized Power Systems), are the most popular means for simulation of these systems. More than 100 models of the renewable energy systems that are made with use of this program environment are appended to the book. The aims of these models are to aid students studying various electrical engineering fields including industrial electronics, electrical machines, electrical drives, and production and distribution of electrical energy; to facilitate the understanding of various renewable energy system functions; and to create a platform for the development of systems by readers in their fields. This book can be used by engineers and investigators as well as undergraduate and graduate students to develop new electrical systems and investigate the existing ones.
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Cover -- Half Title -- Title Page -- Copyright Page -- Dedication -- Contents -- Preface -- About the Author -- 1. SimPowerSystems Blocks and Units Used for Simulation of the Renewable Energy Systems -- 1.1. Standard Blocks -- 1.1.1. Electrical Sources -- 1.1.2. Loads, Impedances, and Transformers -- 1.1.3. Transmission Lines, Filters, and Breakers -- 1.1.4. Power Electronic Devices and Circuits -- 1.1.5. Electric Generators -- 1.1.6. Powergui -- 1.1.7. Control and Measuring Blocks -- 1.2. Advanced Devices and Units -- 1.2.1. Batteries and Supercapacitors -- 1.2.2. Power Converters

1.2.3. Multiphase Electric Generators -- 1.2.3.1. Six-Phase IG -- 1.2.3.2. Six-Phase SG -- 1.2.3.3. Nine-Phase SG -- 1.2.3.4. Six-Phase PMSG -- References -- 2. Wind Generator System Simulation -- 2.1. Fundamentals -- 2.2. Modeling Wind Shear and Tower Shadow Effect -- 2.3. Active Damping Simulation -- 2.4. System Inertia Support -- 2.5. Synchronverter Simulation -- 2.6. Wind Turbines with Multiphase Generators -- 2.7. Offshore Wind Park with Series-Connected Generators -- 2.8. Simulation of Two-Terminal Offshore Wind Park -- 2.9. Direct Power Control of VSI-Gr -- References

3. Photovoltaic Energy Sources -- 3.1. Fundamentals -- 3.2. Simulation of Grid-Connected Photovoltaic Systems -- 3.3. Grid-Connected Photovoltaic Systems with Cascaded H-Bridge Multilevel Inverters -- 3.4. PV Island Operation -- References -- 4. Fuel Cell and Microturbine Simulation -- 4.1. Simulation of the Fuel Cells and Electrolyzers -- 4.2. Microturbine Simulation -- References -- 5. Hydro and Marine Power Plants -- 5.1. River Hydro Stations -- 5.2. Ocean Wave Energy Conversion -- 5.2.1. Point Absorber -- 5.2.2. Oscillating Water Columns -- 5.3. Ocean Tide Energy

5.3.1. Tidal Power Plant Simulation -- 5.3.2. Tidal Current Plant Simulation -- 5.4. Pumped Storage Hydropower -- References -- 6. Hybrid System Simulation -- 6.1. Plants with Diesel Generators -- 6.2. Hybrid Systems with FC -- 6.3. Microgrid Simplified Simulation -- List of the Appended Models -- Index

Advanced Simulation of Alternative Energy: Simulations with Simulink and SimPowerSystems considers models of new and promising installations of renewable energy sources, as well as the new trends in this technical field. The book is focused on wind generators with multiphase generators, models of different offshore parks, wind shear and tower shadow effect, active damping, system inertia support, synchronverter modeling, photovoltaic cells with cascaded H-Bridge multilevel inverters, operation of fuel cells with electrolyzers and microturbines, utilization of ocean wave and ocean tide energy sources, pumped storage hydropower simulation, and simulation of some hybrid systems. Simulink and its toolbox, SimPowerSystems (its new name Electrical/Specialized Power Systems), are the most popular means for simulation of these systems. More than 100 models of the renewable energy systems that are made with use of this program environment are appended to the book. The aims of these models are to aid students studying various electrical engineering fields including industrial electronics, electrical machines, electrical drives, and production and distribution of electrical energy; to facilitate the understanding of various renewable energy system functions; and to create a platform for the development of systems by readers in their fields. This book can be used by engineers and investigators as well as undergraduate and graduate students to develop new electrical systems and investigate the existing ones.

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