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Course Description

Distributed energy, also district or decentralized energy is generated or stored by a variety of small, grid-connected devices referred to as distributed energy resources (DER) or distributed energy resource systems.[1] Conventional power stations, such as coal-fired, gas and nuclear powered plants, as well as hydroelectric dams and large-scale solar power stations, are centralized and often require electricity to be transmitted over long distances. By contrast, DER systems are decentralized, modular and more flexible technologies, that are located close to the load they serve, albeit having capacities of only 10 megawatts (MW) or less.

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Course Syllabus
  • Mod-01 Lec-01 Course introduction and overview
  • Mod-01 Lec-02 Distributed generation technologies
  • Mod-01 Lec-03 Distributed storage technologies
  • Mod-01 Lec-04 Distribution system protection
  • Mod-01 Lec-05 Circuit breaker coordination
  • Mod-01 Lec-06 Symmetrical component analysis and sequence excitation
  • Mod-01 Lec-07 Modeling of distribution system components
  • Mod-01 Lec-08 Protection components
  • Mod-01 Lec-09 Impact of distributed generation of distribution protection
  • Mod-01 Lec-10 Consumption and distribution grounding
  • Mod-01 Lec-11 Islanding of distribution systems
  • Mod-01 Lec-12 Modeling of islanded distribution systems
  • Mod-01 Lec-13 Distribution system problems and examples
  • Mod-01 Lec-14 Distribution system problems and examples continued
  • Mod-01 Lec-15 Anti-islanding methods
  • Mod-01 Lec-16 Solid state circuit switching
  • Mod-01 Lec-17 Relaying for distributed generation
  • Mod-01 Lec-18 Feeder voltage regulation
  • Mod-01 Lec-19 Grounding, distribution protection coordination problems and examples
  • Mod-01 Lec-20 Ring and network distribution
  • Mod-02 Lec-21 Economic evaluation of DG systems
  • Mod-02 Lec-22 Design for effective initial cost
  • Mod-03 Lec-23 Single phase inverters
  • Mod-03 Lec-24 DC bus design in voltage source inverter
  • Mod-03 Lec-25 Electrolytic capacitor reliability and lifetime
  • Mod-03 Lec-26 Inverter switching and average model
  • Mod-03 Lec-27 Common mode and differential mode model of inverters
  • Mod-03 Lec-28 Two leg single phase inverter
  • Mod-03 Lec-29 Distribution system problems, and examples
  • Mod-03 Lec-30 DG evaluation problems and examples
  • Mod-03 Lec-31 Switch selection in two level voltage source inverters and loss evaluation
  • Mod-03 Lec-32 Thermal model, management and cycling failure of IGBT modules
  • Mod-03 Lec-33 Semiconductor switch design reliability considerations
  • Mod-03 Lec-34 AC filters for grid connected inverters
  • Mod-03 Lec-35 AC inductor design and need for LCL filter
  • Mod-03 Lec-36 LCL filter design
  • Mod-03 Lec-37 Examples in power electronic design for DG systems
  • Mod-03 Lec-38 Examples in power electronic design for DG systems continued
  • Mod-03 Lec-39 Higher order passive damping design for LCL filters
  • Mod-03 Lec-40 Balance of hardware component for inverters in DG systems

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