本书使用MATLAB® Simulink®软件,对微电网在各种运行模式下的基本控制方法的设计和仿真提供了详细的指导。
This book offers a detailed guide to the design and simulation of basic control methods applied to microgrids in various operating modes, using MATLAB® Simulink® software.
包括对每种配置性能的讨论,以及下垂控制方法的优点和局限性。
It includes discussions on the performance of each configuration, as well as the advantages and limitations of the droop control method.
课程内容以教学的方式组织,具有数学和科学的严谨,适合本科和研究生课程以及行业内的专业人士。
The content is organised didactically, with a level of mathematical and scientific rigour suitable for undergraduate and graduate programmes, as well as for industry professionals.
使用MATLAB® Simulink®软件有助于在分布式能源(DER)系统接口处对电力电子变换器进行建模和仿真的学习过程。
The use of MATLAB® Simulink® software facilitates the learning process with regard to modelling and simulating power electronic converters at the interface of distributed energy resource (DER) systems.
本书还提供了大量的插图、示意图和模拟结果。
The book also features a wealth of illustrations, schematics, and simulation results.
鉴于它的讲解范围,将大大有益于电气和电子工程领域的本科生和研究生,以及从事微电网设计和实施的专业人员。
Given its scope, it will greatly benefit undergraduate and graduate students in the fields of electrical and electronics engineering, as well as professionals working in microgrid design and implementation.
Table of contents :
Preface
Contents
List of Figures
List of Tables
1 Microgrids: Operation and Control Methods
1.1 Introduction
1.2 Operation Modes of a Microgrid
1.2.1 Grid-Connected Mode
1.2.2 Islanded Mode
1.2.3 Transient Operating Mode
1.3 Control Methods of Microgrids
1.3.1 Primary Control Layer
1.3.2 Secondary Control Layer
1.3.3 Tertiary Control Layer
1.4 Conclusion
References
2 Case Studies: Modelling and Simulation
2.1 Case Study I: Grid Connected Mode—Microgrid Composed by One Network-Feeding Converter and One Local Load
2.1.1 Function and Control Parameters
2.1.2 Scheme and Subsystems
2.1.3 Simulation Results
2.2 Case Study II: Grid Connected Mode—Microgrid Composed by One Network-Feeding Converter and One Local Load with Additional Control Loops
2.2.1 Function and Control Parameters
2.2.2 Scheme and Subsystems
2.2.3 Simulation Results
2.3 Case Study III: Islanded Mode—Microgrid Composed by One Network-Forming Converter and One Local Load (Primary Control Loop Only)
2.3.1 Function and Control Parameters
2.3.2 Scheme and Subsystems
2.3.3 Simulation Results
2.4 Case Study IV: Islanded Mode—Microgrid Composed by Two Network-Forming Converters and One Common Load (Including Secondary Control)
2.4.1 Function and Control Parameters
2.4.2 Scheme and Subsystems
2.4.3 Simulation Results
2.5 Case Study V: Proposal for Transient Operating Mode—Microgrid Composed by One Network-Forming Converter, One Network-Feeding Converter and One Common Load
2.5.1 Function and Control Parameters
2.6 Conclusion
References
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