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DC Microgrid and Control System

  • Course level: Beginner

Description

Dc Microgrid and Control System.

This course is suitable for PG students studying power electronics, power systems, and system & control subjects. The course details the fundamental concepts of microgrids and their components, types of microgrids, advantages of microgrids compared to the central conventional grid. Particularly the course describes general concepts and application, control strategies, and principles of operation of DC microgrid. The course is very applicable for students and researchers from power systems, power electronics, and control system areas who research in the fast-growing and emerging renewable energy technology.

 

INTENDED AUDIENCE: M.Tech and Ph.D. in Power Electronics and Power system.

What Will I Learn?

  • Week 1: Brief introduction and Concepts of Microgrid
  • Week 2: Types of Microgrid system, Microgrids vs Central Conventional power system
  • Week 3: AC and DC Microgrids, comparison between AC and DC Microgrids
  • Week 4: Power Electronic Converters in Microgrid application, DC Microgrid Topologies
  • Week 5: DC Power source components, application of DC Microgrids
  • Week 6: DC Microgrid operations, Some Standards related with DC Power Circuit.
  • Week 7: Control methods in DC Microgrid
  • Week 8: Linear and nonlinear Stability system in DC Microgrid

Topics for this course

39 Lessons

Dc Microgrid and Control System

Overview of Microgrids00:00:00
Concept of Microgrids00:00:00
Microgrid and distributed generation00:00:00
Microgrid vs Conventional Power System00:00:00
AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part)00:00:00
AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part Cont…)00:00:00
Power Electronics for Microgrid00:00:00
Power Electronic Converters in Microgrid Applications00:00:00
Power Electronic Converters in Microgrid Applications (Power Electronic for Interfacing )00:00:00
Power Electronic Converters in Microgrid Applications (Converter Modulation Techniques)00:00:00
Modeling of converters in microgrid power system (AC /DC and DC/AC Converters Modeling)00:00:00
Modeling of Power Converters in Microgrid Power System (DC/DC Converter Modeling and Control)00:00:00
Modeling of Renewable Energy Resources (Modeling of Wind Energy System)00:00:00
Modeling of Renewable Energy Resources (Modeling of Photovoltaic System)00:00:00
Modeling of Energy Storage System00:00:00
Microgrid Dynamics and Modeling00:00:00
Microgrid Operation Modes and Standards (Part-I)00:00:00
Microgrid Operation Modes and Standards (Part-II)00:00:00
Microgrid Control Architectures00:00:00
Microgrid Control Architectures (continued)00:00:00
Intelligent Microgrid Operation and Control00:00:00
Intelligent Microgrid Operation and Control (continued)00:00:00
Intelligent Microgrid Operation and Control (continued )00:00:00
Energy Management in Microgrid System (continued)00:00:00
DC Microgrid System Architecture and AC Interface00:00:00
DC Microgrid System Architecture and AC Interface (Continued)00:00:00
DC Microgrid System Architecture and AC Interface (continued)00:00:00
DC Microgrid Dynamics and Modeling00:00:00
DC Microgrid Dynamics and Modeling (continued)00:00:00
Control of DC Microgrid System00:00:00
Control of DC Microgrid System (continued)00:00:00
Applications of DC Microgrids00:00:00
Stability in Microgrid00:00:00
Stability Analysis of DC Microgrid00:00:00
Stability Analysis of DC Microgrid (cont…)00:00:00
DC Microgrid stabilization strategies (passive damping method)00:00:00
DC Microgrid Stabilization Strategies (Impedance/Admittance stability criteria)00:00:00
DC microgrid stabilization using nonlinear Techniques00:00:00
General Summary of DC Microgrids00:00:00
Dc Microgrid
Free

Enrolment validity: Lifetime

Requirements

  • Power electronics, Power system and Control system