Enabling Technologies and Applications for Power Electronics-Enabled Electric Power Distribution Systems

Power systems are experiencing a paradigm shift from electric machine-based to power electronics-based, with high renewable penetration. There is a growing interest in the concepts of power electronics-enabled power systems around the world. Enabling Technologies and Applications for Power Electronics-Enabled Electric Power Distribution Systems reviews emerging technologies, technical solutions, and applications that are central to obtaining a clear appreciation of this paradigm shift in the electric power landscape. Researchers, academics, engineers, consultants and policymakers will gain a thorough understanding of power electronics-enabled power systems that includes rigorous theoretical analysis, application of emerging technologies, and a thorough dissemination of case studies. Bridges the technology gap between power systems and power electronics, two traditionally disjointed research areas Analyzes the architecture of the emerging power electronics-enabled electric power distribution systems Discusses emerging technologies and applications for power electronics-enabled electric power distribution systems Reviews case studies of early-stage R&D and pilot projects to demonstrate key theoretical, technological and economic considerations Evaluates how these developments are likely to transform legacy power systems Features MATLAB simulation files and source code to help practitioners enable stable and reliable modern microgrids INDICE: Section 1. Overview and Vision1.1 The need and challenges of power electronics-enabled electric power distribution systems: From power systems perspectivesUM-Dearborn1.2 The need and challenges of power electronics-enabled electric power distribution systems: From power electronics perspectivesUT-AustinSection 2. Stability and Reliability of Modern Microgrid2.1 Large-signal stability analysis of DC microgrid systems based on potential theoryUM-Dearborn 2.2 Large-signal stability visualization and enhancement of DC gridUM-Dearborn2.3 Digital control technologies for DC-DC converters in microgridsUM-Dearborn 2.4 Machine-Learning-assisted reliability analysis of power systems integrated with high-penetration of power convertersUM-Dearborn 2.5 Stability and control of weak AC systemsUM-Dearborn2.6 The roles of retail demand response for ancillary services in microgridsUM-DearbornSection 3. Grid Forming Synchronous Generators for Active Distribution Systems with High Penetration of Distributed Renewable Generation3.1 From grid-following to grid-forming inverters: a paradigm shiftUM-Dearborn & UT-Austin3.2 Grid-forming photovoltaic inverterUT-AustinSection 4. Solid State Technology for Active Distribution Systems with High Penetration of Distributed Renewable Generation4.1 Overview of solid-state technology in grid-scale applicationsUT-Austin4.2 Solid state transformer (SST)UT-Austin4.3 Solid state circuit breaker (SSCB) and fault isolation device (FID)UT-Austin

• ISBN: 978-0-323-90975-4
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 256
• Fecha Publicación: 01/11/2022
• Nº Volúmenes: 1
• Idioma: Inglés