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| Chapter | Title | Description of Content | | :--- | :--- | :--- | | 1 | Load Characteristics | Covers the different types of electrical loads, their behavior, and their impact on system design and operation. | | 2 | Supply Systems | Discusses various systems of electric supply, including AC and DC, and their configurations. | | 3 | Conductors | Details the materials, types, and properties of conductors used in overhead lines and cables. | | 4 | Power Cables | Provides in-depth coverage of the construction, insulation, and classification of underground power cables. | | 5 | Line Insulators and Supports | Explains the types, materials, and characteristics of insulators and the structures that support transmission lines. | | 6 | Sag and Tension | Analyzes the mechanical design of overhead lines, focusing on sag calculations and tension in conductors. | | 7 | Line Parameters | A critical chapter covering the calculation of resistance, inductance, and capacitance of transmission lines. | | 8 | Per Unit Representation | Introduces the per-unit system, a crucial tool for simplifying calculations in large power networks. | | 9 | Short and Medium Lines | Focuses on the performance calculations for transmission lines of shorter lengths, using nominal-T and nominal-π methods. | | 10 | Long Transmission Lines | Deals with the rigorous analysis of long transmission lines using hyperbolic equations and ABCD constants. | | 11 | General Network Constants | Discusses the general circuit constants (A, B, C, D) for power transmission networks. | | 12 | Power Circle Diagrams | Presents a graphical method for understanding power flow and voltage control on transmission lines. | | 13 | Control of Voltage and Reactive Power | A key topic in modern power systems, explaining methods for maintaining voltage stability and managing reactive power flow. | | 14 | Load Flow Analysis | Introduces the methods (Gauss-Seidel, Newton-Raphson) used for steady-state analysis of a power system network. | | 15 | Economic Operation of Power Systems | Focuses on the economics of power generation, including load sharing between plants and transmission losses. | | 16 | Symmetrical Faults | Covers the analysis of balanced three-phase faults, including short-circuit calculations. | | 17 | Symmetrical Components | Introduces the powerful mathematical tool for analyzing unbalanced power system conditions. | | 18 | Unsymmetrical Faults | Applies symmetrical components to analyze single line-to-ground, line-to-line, and double line-to-ground faults. | | 19 | Power Systems Stability | Explores the ability of a power system to maintain synchronism after a disturbance, covering steady-state and transient stability. | | 20 | Travelling Waves | Deals with the propagation of surges on transmission lines caused by lightning or switching operations. | | 21 | Overvoltage Protection | Discusses methods and devices (lightning arresters, surge diverters) used to protect equipment from overvoltages. | | 22 | Corona | Explains the phenomenon of corona discharge, its effects, and methods to mitigate it on high-voltage lines. | | 23 | High Voltage Direct Current (HVDC) | Introduces the technology and applications of HVDC transmission systems for long-distance and underwater power transfer. | | 24 | System Neutral | Covers the methods of grounding the system neutral and the advantages and disadvantages of each. | | 25 | Tariffs | Discusses the different methods of charging consumers for electrical energy and the principles behind various tariff structures. | | 26 | Power Factor Improvement | Focuses on the importance of a good power factor, its effects, and methods for its improvement (e.g., using capacitor banks). | | 27 | Voltage Stability | A more advanced topic dealing with the ability of a power system to maintain steady acceptable voltages at all buses. | | 28 | Flexible AC Transmission Systems (FACTS) | Introduces modern power electronics-based devices used to enhance controllability and increase power transfer capability of AC transmission systems. |

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