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

Herausgeber: Su, Wencong; Huang, Alex

• Broschiertes Buch

Produktbeschreibung

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.

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Produktdetails

• Verlag: Elsevier Health Sciences
• Seitenzahl: 256
• Erscheinungstermin: 1. Februar 2024
• Englisch
• ISBN-13: 9780323909754
• ISBN-10: 0323909752
• Artikelnr.: 63733632

Inhaltsangabe

Section 1. Overview and Vision
1.1 The need and challenges of power electronics-enabled electric power
distribution systems: From power systems perspectives
UM-Dearborn
1.2 The need and challenges of power electronics-enabled electric power
distribution systems: From power electronics perspectives
UT-Austin
Section 2. Stability and Reliability of Modern Microgrid
2.1 Large-signal stability analysis of DC microgrid systems based on
potential theory
UM-Dearborn
2.2 Large-signal stability visualization and enhancement of DC grid
UM-Dearborn
2.3 Digital control technologies for DC-DC converters in microgrids
UM-Dearborn
2.4 Machine-Learning-assisted reliability analysis of power systems
integrated with high-penetration of power converters
UM-Dearborn
2.5 Stability and control of weak AC systems
UM-Dearborn
2.6 The roles of retail demand response for ancillary services in
microgrids
UM-Dearborn
Section 3. Grid Forming Synchronous Generators for Active Distribution
Systems with High Penetration of Distributed Renewable Generation
3.1 From grid-following to grid-forming inverters: a paradigm shift
UM-Dearborn & UT-Austin
3.2 Grid-forming photovoltaic inverter
UT-Austin
Section 4. Solid State Technology for Active Distribution Systems with High
Penetration of Distributed Renewable Generation
4.1 Overview of solid-state technology in grid-scale applications
UT-Austin
4.2 Solid state transformer (SST)
UT-Austin
4.3 Solid state circuit breaker (SSCB) and fault isolation device (FID)
UT-Austin