Distributed power resources : operation and control of connecting to the grid /

Distributed Power Resources: Operation and Control of Connecting to the Grid presents research and development, lists relevant technologies, and draws on experience to tackle practical problems in the operation and control of distributed power. Key problems are identified and interrogated, as are re...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Li, Ruisheng (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Academic Press, 2019.
Temas:
Power resources.
Energy-Generating Resources
Ressources �energ�etiques.
energy resources.
BUSINESS & ECONOMICS > Real Estate > General.
Power resources
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Distributed Power Resources: Operation and Control of Connecting to the Grid; Copyright; Contents; Chapter 1: Overview; 1.1. Concept and characteristics of distributed resources; 1.1.1. Concept of distributed resources; 1.1.2. Characteristics of distributed resources; 1.1.2.1. Power electronization; Distributed PV generation; Distributed wind power generation; Energy storage; Electric vehicle; 1.1.2.2. PCC voltage change; 1.1.2.3. Randomness; 1.1.2.4. Consumption difficulty; 1.2. Requirements for grid connection of distributed resources; 1.2.1. Safe grid connection
  • 1.2.2. Information interconnection1.2.3. Control of high capacity penetration; 1.2.4. Unification of power electronic resources conversion; 1.3. Key technologies of grid connection of distributed resources; 1.3.1. Low-frequency power injection technology for active islanding detection; 1.3.2. Auto overvoltage and power control technology (U/P); 1.3.3. Auto overfrequency and power control technology (f/P); 1.3.4. Presynchronous grid connection technology; 1.3.5. Self-optimization virtual synchronous generator technology; 1.3.6. AC & DC hybrid microgrid coordination control technology
  • 1.3.7. Communication line-free interconnected microgrid control technology1.3.8. Active grid protection control technology; 1.4. Application mode of distributed resources; 1.4.1. Grid connection mode of distributed resources; 1.4.2. Mode of PC and energy storage AIO machine; 1.4.3. Mode of microgrid; Chapter 2: Grid-connected power conversion of distributed resources; 2.1. Three-level DC/AC resources conversion; 2.1.1. Topological structure of three-level DC/AC; 2.1.2. Comparison of different NPC topologies of three-level DC/AC; 2.1.3. Comparison between flying capacitor type and typical NPC
  • 2.1.4. Comparison of hybrid clamped type and typical NPC2.1.5. T-type circuit improvement; 2.1.6. Neutral-point potential balance control; 2.1.6.1. Hardware control; 2.1.6.2. Software control; 2.2. Three-level DC/DC resources conversion; 2.2.1. Three-level DC/DC topology; 2.2.2. Comparison between different diode clamped types; 2.2.3. Comparison between push-pull type and diode clamped type; 2.2.4. Comparison between single-tube type and diode clamped type; 2.2.5. Improvement of half-bridge topology; 2.2.6. Neutral-point potential balance control; 2.2.6.1. Hardware control
  • 2.2.6.2. Software control2.3. Three-level two-way DC/AC power module; 2.3.1. Functional features; 2.3.2. Topological structure; 2.3.3. Control mode; 2.3.3.1. PQ control; 2.3.3.2. V/f control; 2.3.3.3. Droop control; 2.3.3.4. VSG control; 2.3.3.5. V control; 2.3.4. Technical indexes; 2.4. Three-level two-way DC/DC power module; 2.4.1. Functional features; 2.4.2. Topological structure; 2.4.3. Control mode; 2.4.3.1. P control; 2.4.3.2. V control; 2.4.3.3. I control; 2.4.4. Technical indexes; 2.5. Power electronic resources conversion device; 2.5.1. PV converter; 2.5.1.1. PV AC converter

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