Unit
- Course
- Mechanical engineering
- Study-unit Code
- A002363
- Curriculum
- Gestionale
- Teacher
- Linda Barelli
- Teachers
-
- Linda Barelli
- Arianna Baldinelli (Codocenza)
- Hours
- 32 ore - Linda Barelli
- 24 ore (Codocenza) - Arianna Baldinelli
- CFU
- 7
- Course Regulation
- Coorte 2022
- Offered
- 2022/23
- Learning activities
- Caratterizzante
- Area
- Ingegneria meccanica
- Academic discipline
- ING-IND/08
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa monodisciplinare
- Language of instruction
- Italian
- Contents
- 1) Clean energy transition. Transition of the electricity system from centralized to decentralized.
Elements of additional flexibility of the electrical system
2) Renewable energy storage technologies:
- mechanical storage: flywheels, hydroelectric pumping plants, CAES
- chemical storage: the hydrogen supply chain, low and high temperature electrolysers, low and high temperature fuel cells, reversible devices (rSOC)
- electrochemical storage: conventional batteries (lithium ions, lead acid, Ni metal hydride); sulfur batteries, ZEBRA battery, metal air batteries; redox flow battery (also metal air); supercapacitors
3) Fundamentals of automatic
4) Energy measurement
5) Management and safety of energy systems
6) Application case studies
- integration of storage systems coupled to renewable generation plants for stationary applications
- integration of energy storage technologies in transport applications
- scenario studies - Reference texts
- Dispense del docente
- Educational objectives
- Knowledge on storage energy technologies and their management. Knowledge of main issues related to the Clean Energy Transition: increase in the share of renewable energy and mitigation of related issues in terms of security and stability of the grid.
- Prerequisites
- --
- Teaching methods
- face-to-face training
- Other information
- --
- Learning verification modality
- oral exam
- Extended program
- 1) Clean energy transition. Transition of the electricity system from centralized to decentralized.
Elements of additional flexibility of the electrical system
2) Renewable energy storage technologies:
- mechanical storage: flywheels, hydroelectric pumping plants, CAES
- chemical storage: the hydrogen supply chain, low and high temperature electrolysers, low and high temperature fuel cells, reversible devices (rSOC)
- electrochemical storage: conventional batteries (lithium ions, lead acid, Ni metal hydride); sulfur batteries, ZEBRA battery, metal air batteries; redox flow battery (also metal air); supercapacitors
3) Fundamentals of automatic
4) Energy measurement
5) Management and safety of energy systems
6) Application case studies
- integration of storage systems coupled to renewable generation plants for stationary applications
- integration of energy storage technologies in transport applications
- scenario studies