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Xu, Zheng.

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Flexible power transmission systems based on cascaded submodule converters

Record Type:	Electronic resources : Monograph/item
Title/Author:	Flexible power transmission systems based on cascaded submodule converters/ by Zheng Xu, Huangqing Xiao, Zheren Zhang.
Author:	Xu, Zheng.
other author:	Xiao, H.
Published:	Singapore :Springer Nature Singapore : : 2025.,
Description:	lvii, 937 p. :ill., digital ;24 cm.
[NT 15003449]:	Characteristics and Applications of Flexible Transmission Technology Based on Cascaded-Submodule Converters -- Working Principle of MMC Basic Units -- Main Circuit Parameter Design and Loss Calculation of MMC -- Synchronization Control Method between Voltage Source Converters and AC Power Grid -- Control Strategies for MMC-HVDC Transmission Systems -- Submodule Capacitor Voltage Control Strategies Under Four Typical Operating Modes of MMC -- Analysis of AC/DC Fault Characteristics and DC-Side Fault Self-Clearing Principle of MMC -- MMC-HVDC Systems for Overhead Line Power Transmission -- MMC-HVDC Transmission Systems for Large-Scale Renewable Energy Base Power Delivery -- Typical Schemes for Offshore Wind Power Transmission and Application of MMC -- Control Principles and Fault Handling Methods of MMC-based DC Grids -- Basic Principles and Implementation Methods of High Voltage Direct Current Circuit Breakers -- All-DC Collection and Transmission System for Large-Scale New Energy Bases -- Principles and Applications of MMC-Based Versatile Static Synchronous Machine.
Contained By:	Springer Nature eBook
Subject:	Electric current converters. -
Online resource:	https://doi.org/10.1007/978-981-95-0861-7
ISBN:	9789819508617

Flexible power transmission systems based on cascaded submodule converters
Xu, Zheng.

Flexible power transmission systems based on cascaded submodule converters[electronic resource] /by Zheng Xu, Huangqing Xiao, Zheren Zhang. - Singapore :Springer Nature Singapore :2025. - lvii, 937 p. :ill., digital ;24 cm.

Characteristics and Applications of Flexible Transmission Technology Based on Cascaded-Submodule Converters -- Working Principle of MMC Basic Units -- Main Circuit Parameter Design and Loss Calculation of MMC -- Synchronization Control Method between Voltage Source Converters and AC Power Grid -- Control Strategies for MMC-HVDC Transmission Systems -- Submodule Capacitor Voltage Control Strategies Under Four Typical Operating Modes of MMC -- Analysis of AC/DC Fault Characteristics and DC-Side Fault Self-Clearing Principle of MMC -- MMC-HVDC Systems for Overhead Line Power Transmission -- MMC-HVDC Transmission Systems for Large-Scale Renewable Energy Base Power Delivery -- Typical Schemes for Offshore Wind Power Transmission and Application of MMC -- Control Principles and Fault Handling Methods of MMC-based DC Grids -- Basic Principles and Implementation Methods of High Voltage Direct Current Circuit Breakers -- All-DC Collection and Transmission System for Large-Scale New Energy Bases -- Principles and Applications of MMC-Based Versatile Static Synchronous Machine.

This book consists of three major sections. The first section covers the fundamental theories of new energy power systems. The content includes five synchronization control methods between Voltage Source Converters (VSC) and AC grids, classification of VSC and its control modes, principles and applications of versatile static synchronous machines based on Modular Multilevel Converters (MMC), definition and calculation methods of power system strength, definition and analysis methods of power system resonance stability, and the dilemma of AC power system resonance stability analysis based on impedance models. The second section focuses on the principles and applications of MMC-HVDC transmission systems. The content includes the working principles and steady-state characteristics of MMC, selection of main circuit parameters and loss calculation for MMC, control strategies for MMC-HVDC transmission systems, submodule capacitor voltage control strategies under four typical MMC operation modes, analysis of AC/DC side fault characteristics and DC side fault self-clearing capability construction, MMC-HVDC transmission systems suitable for overhead lines, MMC-HVDC transmission systems for large-scale renewable energy bases, MMC-HVDC transmission applied to offshore wind farm grid integration, voltage control principles and transient fault characteristics of MMC-HVDC grids, basic principles and implementation methods of high-voltage DC circuit breakers, full DC collection and transmission systems for renewable energy bases, insulation coordination design of MMC-HVDC converter stations, and fast electromagnetic transient simulation methods for MMC. The third section covers the principles and applications of flexible AC transmission systems based on cascaded submodule converters. The content includes principles and control strategies of Modular Multilevel Matrix Converters (M3C), principles of low-frequency AC transmission systems for offshore wind farms based on M3C, principles of Unified Power Flow Controllers (UPFC) based on MMC, principles of Static Synchronous Compensators (STATCOM) with cascaded submodules, etc. This book is suitable for advanced engineering and technical personnel engaged in research, planning, design, operation of new energy power systems and development of flexible transmission equipment, as well as teachers and graduate students in electrical engineering disciplines at universities.

ISBN: 9789819508617

Standard No.: 10.1007/978-981-95-0861-7doiSubjects--Topical Terms:

778376
Electric current converters.

LC Class. No.: TK7872.C8

Dewey Class. No.: 621.3815322

Flexible power transmission systems based on cascaded submodule converters
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245 1 0 $a Flexible power transmission systems based on cascaded submodule converters $h [electronic resource] / $c by Zheng Xu, Huangqing Xiao, Zheren Zhang.
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505 0 $a Characteristics and Applications of Flexible Transmission Technology Based on Cascaded-Submodule Converters -- Working Principle of MMC Basic Units -- Main Circuit Parameter Design and Loss Calculation of MMC -- Synchronization Control Method between Voltage Source Converters and AC Power Grid -- Control Strategies for MMC-HVDC Transmission Systems -- Submodule Capacitor Voltage Control Strategies Under Four Typical Operating Modes of MMC -- Analysis of AC/DC Fault Characteristics and DC-Side Fault Self-Clearing Principle of MMC -- MMC-HVDC Systems for Overhead Line Power Transmission -- MMC-HVDC Transmission Systems for Large-Scale Renewable Energy Base Power Delivery -- Typical Schemes for Offshore Wind Power Transmission and Application of MMC -- Control Principles and Fault Handling Methods of MMC-based DC Grids -- Basic Principles and Implementation Methods of High Voltage Direct Current Circuit Breakers -- All-DC Collection and Transmission System for Large-Scale New Energy Bases -- Principles and Applications of MMC-Based Versatile Static Synchronous Machine.
520 $a This book consists of three major sections. The first section covers the fundamental theories of new energy power systems. The content includes five synchronization control methods between Voltage Source Converters (VSC) and AC grids, classification of VSC and its control modes, principles and applications of versatile static synchronous machines based on Modular Multilevel Converters (MMC), definition and calculation methods of power system strength, definition and analysis methods of power system resonance stability, and the dilemma of AC power system resonance stability analysis based on impedance models. The second section focuses on the principles and applications of MMC-HVDC transmission systems. The content includes the working principles and steady-state characteristics of MMC, selection of main circuit parameters and loss calculation for MMC, control strategies for MMC-HVDC transmission systems, submodule capacitor voltage control strategies under four typical MMC operation modes, analysis of AC/DC side fault characteristics and DC side fault self-clearing capability construction, MMC-HVDC transmission systems suitable for overhead lines, MMC-HVDC transmission systems for large-scale renewable energy bases, MMC-HVDC transmission applied to offshore wind farm grid integration, voltage control principles and transient fault characteristics of MMC-HVDC grids, basic principles and implementation methods of high-voltage DC circuit breakers, full DC collection and transmission systems for renewable energy bases, insulation coordination design of MMC-HVDC converter stations, and fast electromagnetic transient simulation methods for MMC. The third section covers the principles and applications of flexible AC transmission systems based on cascaded submodule converters. The content includes principles and control strategies of Modular Multilevel Matrix Converters (M3C), principles of low-frequency AC transmission systems for offshore wind farms based on M3C, principles of Unified Power Flow Controllers (UPFC) based on MMC, principles of Static Synchronous Compensators (STATCOM) with cascaded submodules, etc. This book is suitable for advanced engineering and technical personnel engaged in research, planning, design, operation of new energy power systems and development of flexible transmission equipment, as well as teachers and graduate students in electrical engineering disciplines at universities.
650 0 $a Electric current converters. $3 778376
650 0 $a Electric power transmission. $3 653900
650 1 4 $a Power Electronics. $3 3592515
650 2 4 $a Control and Systems Theory. $3 3381515
700 1 $a Xiao, H. $3 3804610
700 1 $a Zhang, Zheren. $3 3804611
710 2 $a SpringerLink (Online service) $3 836513
773 0 $t Springer Nature eBook
856 4 0 $u https://doi.org/10.1007/978-981-95-0861-7
950 $a Energy (SpringerNature-40367)