دانلود کتاب Fundamentals of Electrical Power Systems: A Primer With Matlab

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Contents
Abstract
Preface
Acknowledgments
Chapter 1
Electrical Energy Sources
1.1. Structure of Electrical Power Systems
1.2. Energy Resources
1.3. Location of the Power Station
1.4. Types of Power Stations
1.4.1. Thermal Power Station (Steam Power Station)
1.4.1.1. Main Parts of the Thermal Power Station
1.4.1.2. Selection Site of the Thermal Power Station
1.4.2. Hydro-Electric Power Station
1.4.2.1. Choice of the Site
1.4.2.2. Hydro-Electric Plants Classification
1.4.2.3. Main Parts of Hydro-Electric Plants
1.4.2.4. Hydrology
1.4.3. Nuclear Power Station
1.4.3.1. Choice of the Site
1.4.3.2. Fuels
1.4.3.3. Elements of a Nuclear Power Station
1.4.4. Diesel Power Station
1.4.4.1. The Advantages of Diesel Power Station
1.4.4.2. The Disadvantages of Diesel Power Station
1.4.5. GAS Turbine Power Plant
1.4.5.1. The advantages of GAS Turbine Power Plant
1.4.5.2. The Disadvantages of GAS Turbine Power Plant
1.4.6. Solar Cell
1.4.6.1. Equivalent Circuit Model of Ideal and Practical Solar Cell
1.4.6.2. Performance Analysis
1.4.6.3. Series and Parallel Wiring
Example 1.1
Solution
Example 1.2
Solution
Example 1.3
Solution
Example 1.4
Solution
Example 1.5
Solution
1.4.6.4. Sizing of the Solar Array
1.4.6.5. Sizing of the Battery
1.4.6.6. Sizing of the Voltage Controller
1.4.6.7. Sizing of the Inverter
1.4.6.8. Sizing of the System Wiring
Example 1.6
1.4.7. Modelling of Wind Power
1.4.7.1. Efficiency in Extracting Wind Power (Betz Limit & Power Coefficient)
1.4.7.2. Power Curve of Wind Turbine
1.4.7.3. Technical Specifications E-82 ENERCON Wind Energy Converters
1.5. Load Curves and Factors
Important Terms and Factors
Example 1.7
Solution
1.6. Load Duration Curve
1.7. Load Curves and Selection of the Number and Sizes of the Generation Units
Example 1.8
Solution
Example 1.9
Solution
1.8. Prediction of load and Energy Requirements
1.9. Choice of Type, Size, and Number of Generator Units
1.10. Power Calculation in Single-Phase AC Circuits
1.11. Balanced Three-Phase Circuits
1.11.1. Delta Connection
1.11.2. Wye Connection
1.11.3. Power Calculations in Balanced Three-Phase Circuits
Example 3.11
Solution
Example 3.12
Solution
Example 3.13
Solution
1.12. Per Unit Quantity
Problems
Chapter 2
Elements of Power Systems
2.1. Generating Unit
2.2. Transmission Network
2.3. Grounding Transformer
2.4. Distribution System
2.5. Power Consumption / Load
2.6. Conductors
2.7. Power Electronics Devices
2.8. Protective Devices
2.9. Economic Choice of Transmission Voltage
2.10. Conductor material Characteristics of the Material
Example 2.1
Solution
2.11. Parameters of Overhead Transmission Lines
2.11.1. Resistance
2.11.2. Inductance
2.11.2.1. Inductance of a Solid Cylindrical Conductor due to Internal Flux
2.11.2.2. Inductance of Single-Phase Two – Wireline
2.11.2.3. The Inductance of Composite Conductor Lines
2.11.2.4. The Inductance of Three-Phase Lines
2.11.2.5. Inductance of Bundled Conductors
Example 2.2
Solution
Example 2.3
Solution
2.11.3. Capacitance of Transmission Lines
2.11.3.1. Capacitance of a Two Wire Line
2.11.3.2. Capacitance of Three-Phase Line
2.11.3.3. Effect of the Earth on the Capacitance of a Line
2.11.3.4. Charging Current due to Capacitance
2.11.3.5. Capacitance of Bundle Conductors
Example 2.4
Example 2.5
Solution
2.12. Performance of Transmission Lines
2.12.1. Short Transmission Line
2.12.2. Medium Transmission Line
2.12.2.1. Nominal π Circuit
2.12.2.2. Nominal T Circuit
2.12.3. Long Transmission Line
2.12.3.1. Nominal π Circuit
2.12.3.2. Transmission Efficiency
2.13. Generalized Constants
Example 2.6
Solution
Example 2.7
Solution
2.14. Underground Cables
Problems
Chapter 3
Load Flow Analysis
3.1. Incidence and Network Matrices
3.2. Power System Representation
3.3. Incidence Matrices
3.3.1. Element-Node Incidence Matrix ,