| Description |
1 online resource |
| Series |
Power systems |
|
Power systems.
|
| Contents |
Intro -- Preface -- Contents -- About the Author -- List of Abbreviations -- List of Figures -- List of Tables -- Chapter 1: Introduction -- 1.1 Background and Motivation -- 1.2 Problem Definition -- 1.3 Objectives -- 1.4 Book Outline -- Chapter 2: High-Voltage Direct Current Transmission -- 2.1 Introduction -- 2.2 HVDC Converter Arrangements -- 2.3 Classic HVDC Transmission -- 2.4 VSC-Based HVDC System -- 2.4.1 Configuration of VSC-HVDC -- 2.4.2 Operation of VSC-HVDC -- 2.4.3 Difference from Classical HVDC and Advantages -- 2.5 Applications of Classic HVDC Systems |
|
Chapter 3: VSC-HVDC Control System -- 3.1 Introduction -- 3.2 Control Strategies -- 3.2.1 The Principle of Power Angle Control -- 3.2.2 Vector Control Principle -- 3.2.3 dq Transformation -- 3.2.4 Vector Control -- 3.2.5 Inner Current Controller -- 3.2.5.1 System Description and Transfer Functions -- 3.2.5.2 PI Regulator -- 3.2.5.3 PWM Converter -- 3.2.6 The Outer Controller -- 3.2.7 DC Voltage Control Using Classic Control Algorithm -- 3.2.8 Active and Reactive Power Controllers -- 3.3 Hysteresis Current Control -- 3.4 Filter Design -- Chapter 4: VSC-HVDC Under AC and DC Fault Conditions |
|
4.1 Introduction -- 4.2 Faults on the DC System -- 4.2.1 Line-to-Ground Fault -- 4.2.2 Pole-to-Pole Fault -- 4.3 DC Fault Analysis -- 4.3.1 Pole-to-Ground Fault -- 4.3.1.1 First Stage -- 4.3.1.2 Second Stage -- 4.3.1.3 Third Stage Finally -- 4.3.2 Pole-to-Pole Fault -- 4.3.2.1 First Stage -- 4.3.2.2 Second Stage -- 4.3.2.3 Third Stage Finally -- 4.4 Faults on the AC System -- 4.4.1 Transient Grid Faults: the Voltage Sags (Dips) -- 4.4.1.1 Sag Type A: Three-Phase Fault and Three-Phase-to-Ground Fault -- 4.4.1.2 Sag Type B: Single-Phase-to-Ground Fault -- 4.4.1.3 Sag Type C: Phase-to-Phase Fault |
|
4.4.1.4 Sag Type D: Two-Phase-to-Ground Fault -- 4.5 Control of Grid Converters Under Grid Faults -- 4.5.1 Sequence Extraction -- 4.5.2 Decoupling by Compensation -- 4.5.3 Decoupling in dq Frame -- 4.5.4 Synchronization -- 4.5.5 Inner Control -- 4.5.6 Control in the DQ Reference Frame -- 4.5.7 Outer Control -- 4.5.8 Current Reference Distribution -- 4.6 PNSC (Positive Negative Sequence Control) -- 4.7 AARC (Average Active-Reactive Control) -- 4.8 BPSC (Balanced Positive Sequence Control) -- 4.9 IARC (Instantaneous Active-Reactive Control) -- Chapter 5: VSC-HVDC Simulation Results |
|
5.1 Introduction -- 5.2 Simulation Environment -- 5.2.1 Control Performance-Controller Tracking Capability -- 5.2.1.1 Control of DC Voltage -- 5.2.1.2 Control of Active Power -- 5.2.2 Steady-State Simulation -- 5.3 Harmonic Analysis -- 5.4 Hysteresis Band Current Controller Simulation -- 5.5 System Response Under Unbalance Fault Condition -- 5.5.1 DC Line Fault -- 5.5.2 Pole-to-Pole Fault -- 5.5.3 Positive Pole-to-Ground Fault -- 5.5.4 Negative Pole-to-Ground Fault -- 5.6 System Response Under Recovery of DC Fault -- 5.6.1 Grounding by High-Impedance Branch |
| Summary |
This book looks at the control of voltage source converter based high voltage direct current (VSC-HVDC). The objective is to understand the control structure of the VSC-HVDC system and establish the tuning criteria for the proportional-integral (PI) control of the converter controllers. Coverage includes modeling of the VSC-based HVDC transmission system using MATLAB and Simulink simulation package; implementation of control strategies for the VSC-based HVDC transmission system; and analysis of the developed system behavior under different conditions (normal and fault conditions). The book provides researchers, students, and engineers working in electrical power system transmission and power electronics and control in power transmission with a good understanding of the VSC-based HVDC transmission system concept and its behavior. Focuses on the analysis of the control structure in HVDC systems; Provides a solid understanding of the VSC-based HVDC transmission system concept and of its behavior; Models the VSC-based HVDC transmission system using MATLAB and Simulink |
| Bibliography |
Includes bibliographical references and index |
| Subject |
Electric current converters -- Design
|
|
High voltages.
|
|
High voltages
|
| Form |
Electronic book
|
| Author |
Dessouky, Sobhy S
|
| ISBN |
9783030516611 |
|
303051661X |
|
