• Votre sélection est vide.

    Enregistrez les diplômes, parcours ou enseignements de votre choix.

Smart grids and smart cities (ECON959_SOLEM )

  • ECTS

    2 crédits

  • Composante

    Polytech Annecy-Chambéry

Description

  • Semester 9
  • Duration :  Within one semester  
  • Type: Mandatory
  • Student workload:  Lecture (CM): 18 hours, 20 hours of self-study 

  • Applicability: ESBC course only

  •  Teaching and learning method : Lecture, case studies, discussion 

  • Module examination:  1 written exam (60%), 1 Assignment (25%), 1 individual presentation (15%)

Responsible person for the module: Rowena Mathew- Ph.D in economics, IREGE Laboratory, IAE, USMB

Research fields: Environmental economics, energy transitions, climate change mitigation, renewable energy storage, electric vehicles, household electricity, economic modelling

Thesis: Optimising usage of electric vehicles and solar PV in households for increased energy storage and welfare - Resume

https://www.irege.univ-smb.fr/en/phd-students/

Lire plus

Objectifs

Major intended learning outcomes:

  • Upon completion of the module students will 
  • Understand the need and context for smart grids and smart cities 
  • Describe and understand the new energy paradigm and gain a holistic perspective of sustainable energy systems 
  • Describe and understand energy transitions and the role of smart technologies to facilitate it 
  • Assess the complexity of electricity systems and its transformation to a low carbon economy 
  • Contextualise applicability in different countries  
  • Be able to identify key actors, best cases and organizations 
Lire plus

Heures d'enseignement

  • CMCours Magistral18h

Pré-requis obligatoires

Admission to 2nd year

Lire plus

Plan du cours

Content of the module:

  • Classes 1 and 2 - Introduction to Climate Change, Climate Finance and Principles of Environmental Economics. Introduction to Smart Grids, Smart Cities and Context/Need of Energy Transition.   
  • Classes 3 and 4 - Energy Transition (contd.) and Electricity Markets, Smart Citizens who are 'prosumers', Types of Smart Technology. 
  • Class 5 Best Practices in Smart Cities/Smart Grids, Discussion on practical case studies. 
  • Classes 6 and 7  - Submission of Homework Assignment (25%). Business models, Renewable Energy Integration and Operation, Distributed Generation. 
  • Classes 8 and 9  - Individual presentations in class (15%). Various Applications of Smart Grids, Key financial factors, Industry trends, Introduction to Modelling. 
  • Class 10 - Energy policy and regulations at regional, national and sub-national level.  
  • Class 11 - Integrating IT, Telecom and Cyber Security. 
  • Class 12  - Final written exam (60%) 
Lire plus

Bibliographie

Suggested Readings:  

 

Reports, Websites: 

Lire plus