Balanced Power Systems and Energy Management of Distributed Energy Resources - 3EU6RE16

Informations générales

  • Number of hours

    • Lectures 8.0
    • Projects -
    • Tutorials 16.0
    • Internship -
    • Laboratory works 32.0

    ECTS

    ECTS 5.0

Goal(s)

Electricity grids are at the heart of the energy transition. Indeed, many national and international agencies such as the International Energy Agency predict an overall decrease in energy consumption, but an increase in electricity consumption. Indeed, electricity could be a vector for decarbonization: electric mobility and decarbonization of highly energy-intensive industrial processes. Moreover, the development of renewable electricity production has been accelerating in recent years. All this brings many challenges regarding the design and management of electrical grids.
This module has two objectives:
*Introducing the fundamentals of electrical grids in a balanced regime: structure, major players, national and local operating rules, modeling of their elements, and key electrical parameters.
*Studying two decentralized technologies, photovoltaics and batteries, as well as their applications including microgrids.

Responsible(s)

Marie-Cécile ALVAREZ-HERAULT

Content(s)

*Fundamentals of electricity grids (ENSE3)
**Introduction: why are electricity grids at the heart of the energy transition?
**Fundamentals of electricity grids in France and around the world
**Line modeling
**Voltage drop
**"per unit" system
**Power factory project on the integration of distributed energy resources in a distribution grid

  • Transmission grid (RTE)
    • Understand RTE’s role as system operator, power grid management and the issue of supply-demand balance
    • Major incidents: principles and examples
  • Distribution grids (Enedis)
    • Introduction: electrical landscape, description of the grids, the company Enedis
      **Investment strategies
      **Grid management and operation
      **Serious game: "Crisis management"
      **Visit of a regional operation center
  • Decentralized technologies (ENSE3 and Oscaro Power)
    **Photovoltaics and uses
    **Electrochemical storage and uses
    • Design of a photovoltaic farm for the village of Bhaibah (Morocco)

Prerequisites

Disciplinary base Electrical Engineering
If possible, electrical grid project of the first semester

Test

The CC1 grade is the average of two assignments: microgrids report and the PowerFactory project
The ET1 grade is the average of two assessments: the escape game (individual report) and a written exam
The CC2 grade is the same as CC1 grade
The ET2 grade is a written exam

Calendar

The course exists in the following branches:

  • Curriculum - Master's Degree in Engineering IEE - Semester 6
see the course schedule for 2026-2027

Additional Information

Course ID : 3EU6RE16
Course language(s): FR

You can find this course among all other courses.