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Renewable Resources Interfacing

What Will Learn?

  • Course Aims
    The aim of this course is to provide students with: - Enrich the student knowledge about basic background concept of electrical storage elements. - Develop the student ability to analyze and design interfacing systems between storage system and different sources. - Draw the modeling and analyzing wind machines technologies, wind data, and economics of operation and maintenance. - Design the distributed generation, distributed storage, and microgrid. - Discuss and evaluate the wind and PV interface with the grid and investigate the control strategies of the power electronic devices.
  • Course Goals
  • Quality Education
  • Industry, Innovation and Infrastructure
  • Responsible Consumption and Production

Requirements

EPM324 AND EPM354

Description

  • English Description

    Storage technologies: Supper Capacitors: structure, ratings, characteristics, use with the wind power plant, fuel cells, Superconducting magnetic energy storage (SMES): structure, operation, Batteries: types, characteristics and operation, charge and discharge, Flywheels energy storage. Interface technologies: Concept of Distributed Generation, Type of interface, Interconnection standards, static synchronous generators, control of active power and voltage regulation, Wind turbines and photovoltaic interface topologies
  • Arabic Description

    Storage technologies: Supper Capacitors: structure, ratings, characteristics, use with the wind power plant, fuel cells, Superconducting magnetic energy storage (SMES): structure, operation, Batteries: types, characteristics and operation, charge and discharge, Flywheels energy storage. Interface technologies: Concept of Distributed Generation, Type of interface, Interconnection standards, static synchronous generators, control of active power and voltage regulation, Wind turbines and photovoltaic interface topologies
  • Department
    Electrical Power and Machines Engineering
  • Credit Hours
    2
  • Grades
    Total ( 100 ) = Midterm (25) + tr.Major Assessment (30 = tr.Industry 5% , tr.Project 10% , tr.Self_learning 0% , tr.Seminar 20% ) + tr.Minor Assessment (5) + Exam Grade (40)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 1, Lab Hours: 0
  • Required SWL
    100
  • Equivalent ECTS
    4
  • 1. Gilbert M. Masters, “Renewable and efficient electric power systems”, John wiley & sons Pub., USA, 2014.
  • 2. Thomas Ackermann, Wind Power in Power Systems, 2nd Edition, CRC Press Taylor & Francis Group, 2012.
  • 3. Roland Wengenmayr and Thomas Bührke, Renewable Energy: Sustainable Energy Concepts for the Future, Wiley-VCH, 2015. - Gilbert M. Masters, Renewable and efficient electric power systems, John wiley & sons Pub., USA, 2014.