Master Year 2 Sciences and Technology for Energy
| Year | Master Year 2 |
| Program | Sciences and Technology for Energy |
| ECTS Credits | 60 |
| Language | Most courses are in English, some are in French |
| Orientation | Research |
| Location | Palaiseau Campus |
| Course duration | 12 months, full time |
| Course start | September |
| Degree awarded | Master’s degree |
WHY ENROLL IN THIS PROGRAM?
Asset n° 1
Pursue a PhD
Asset n°2
Access a wide range of career opportunities in the energy sector
Asset n°3
Acquire multidisciplinary knowledge relating to the scientific and technological aspects of energy
The second year of the Energy Master’s Program at the Institut Polytechnique de Paris consists of three majors with a set of common courses, plus specialized learning and an internship. The common courses cover the energy transition for climate change mitigation, a global approach to engineering systems and the economics of energy markets, as well as French language courses.
The Energy Infrastructures Management major focuses on optimizing energy distribution, and managing and designing high-performance infrastructure. Students will be able to choose from a wide range of computer engineering courses relating to network management, machine learning and data mining. They will also take engineering courses covering energy storage and specialized courses in economics.
The Optimizing Energy Utilizations major is intended for students interested in building a less energy-intensive society by promoting optimized energy efficiency in buildings, transport and process industries. There are three main specialized courses: physical sciences and engineering, applied mathematics, and computer engineering. There is also a dedicated course in economics.
The Towards Clean Energy Production major is intended for students interested in pursuing a career or a PhD in the energy transition with a specific focus on low-carbon energy production technologies. Students will be able to choose from a wide range of physical sciences and engineering courses related to renewable energies. They will follow courses in applied mathematics and economics.
Objectives
The program will allow students to:
- Develop an overall awareness of the challenges linked to the energy transition
- Acquire high-level of knowledge of the scientific and technological aspects of energy storage and distribution ; energy efficiency and distribution ; clean energy production
- Gain experience in computer engineering applied to the energy sector
- Acquire a broad understanding of energy economics
- Solve complex problems relating to smart grids, network security and data management in an international context, taking into account relevant technical, economic, social and environmental challenges
After graduation, students will be able to pursue a PhD or occupy a wide range of positions in the energy sector including:
- R&D engineer specializing in wind or solar technologies, developing batteries or fuel cells, treating pollutants and waste in the energy industry
- Smart grid developer
- Wind farm or solar plant project manager
- Consultant in sustainable development
- Power analyst for energy markets
- Public policy advisor
Core courses
|
GHG Challenges and observation |
36h 4 ECTS English |
|
Continuous optimization |
21h 2 ECTS English |
|
Discrete Optimization |
21h 2 ECTS English |
Elective courses
|
Organic-based materials for the 3rd generation of solar cells |
36h 4 ECTS English |
|
Nature-based solutions to substitute fossil resources and adress global warming |
36h 4 ECTS English |
|
Building and using models for the energy transition |
36h 4 ECTS English |
|
Energy storage |
36h 4 ECTS English |
|
Stockage de l’énergie |
35h 4 ECTS Français |
|
Carburant d’aujourd’hui et de demain |
35h 4 ECTS Français |
|
Energies 0 carbone : filières renouvelables |
21h 2 ECTS Français |
Core courses
|
Climate change and energy transition |
36h 4 ECTS English |
|
Engineering systems |
30h 3 ECTS English |
|
Project of energy optimization |
21h 2 ECTS English |
Elective courses
|
Thermal renewable energies |
36h 4 ECTS English |
|
Climate change and energy transition |
36h 4 ECTS English |
|
Thin film photovoltaics |
36h 4 ECTS English |
|
PV technologies in industry |
36h 4 ECTS English |
|
Smart grid for renewable energy |
36h 4 ECTS English |
|
Advanced experimental smart grid |
36h 4 ECTS English |
|
Wind power |
36h 4 ECTS English |
Mandatory 6-month internship starting early April.
Credits: 22 ECTS.
Admission requirements
Academic prerequisites
- Completion of the first year of a Master in Energy at Institut Polytechnique de Paris or equivalent in France or abroad
- Completion of a first-year Master of Sciences or Master of Sciences and Technologies in one of the following specialties: energy engineering, mechanical engineering, electrical engineering, material sciences, chemical engineering or sustainable development
Language prerequisites
- English (minimum B2, preferred C1)
- A good level in French is appreciated, though not mandatory
How to apply
Applications can be submitted exclusively online. You will need to provide the following documents:
- Transcript
- Two academic references (added online directly by your referees)
- CV/resume
- Statement of purpose
You will receive an answer in your candidate space within 2 months of the closing date for the application session.
Fees and scholarships
Fees for 2023-2024 are :
- EU/EEA/Switzerland students: 4648€
- Non-EU/EEA/Switzerland students: 6839€
- Engineer students enrolled in one of the five member schools of Institut Polytechnique de Paris (Ecole polytechnique, ENSTA Paris, ENSAE Paris, Télécom Paris and Télécom SudParis): 159€
- Special cases: please refer to the "Cost of studies" of the FAQs
Find out more about scholarships
Please note that fees and scholarships may change for the following year.
Applications and admission dates
The second year of the Energy Master’s Program at the Institut Polytechnique de Paris consists of three majors with a set of common courses, plus specialized learning and an internship. The common courses cover the energy transition for climate change mitigation, a global approach to engineering systems and the economics of energy markets, as well as French language courses.
The Energy Infrastructures Management major focuses on optimizing energy distribution, and managing and designing high-performance infrastructure. Students will be able to choose from a wide range of computer engineering courses relating to network management, machine learning and data mining. They will also take engineering courses covering energy storage and specialized courses in economics.
The Optimizing Energy Utilizations major is intended for students interested in building a less energy-intensive society by promoting optimized energy efficiency in buildings, transport and process industries. There are three main specialized courses: physical sciences and engineering, applied mathematics, and computer engineering. There is also a dedicated course in economics.
The Towards Clean Energy Production major is intended for students interested in pursuing a career or a PhD in the energy transition with a specific focus on low-carbon energy production technologies. Students will be able to choose from a wide range of physical sciences and engineering courses related to renewable energies. They will follow courses in applied mathematics and economics.
Objectives
The program will allow students to:
- Develop an overall awareness of the challenges linked to the energy transition
- Acquire high-level of knowledge of the scientific and technological aspects of energy storage and distribution ; energy efficiency and distribution ; clean energy production
- Gain experience in computer engineering applied to the energy sector
- Acquire a broad understanding of energy economics
- Solve complex problems relating to smart grids, network security and data management in an international context, taking into account relevant technical, economic, social and environmental challenges
After graduation, students will be able to pursue a PhD or occupy a wide range of positions in the energy sector including:
- R&D engineer specializing in wind or solar technologies, developing batteries or fuel cells, treating pollutants and waste in the energy industry
- Smart grid developer
- Wind farm or solar plant project manager
- Consultant in sustainable development
- Power analyst for energy markets
- Public policy advisor
Core courses
|
GHG Challenges and observation |
36h 4 ECTS English |
|
Continuous optimization |
21h 2 ECTS English |
|
Discrete Optimization |
21h 2 ECTS English |
Elective courses
|
Organic-based materials for the 3rd generation of solar cells |
36h 4 ECTS English |
|
Nature-based solutions to substitute fossil resources and adress global warming |
36h 4 ECTS English |
|
Building and using models for the energy transition |
36h 4 ECTS English |
|
Energy storage |
36h 4 ECTS English |
|
Stockage de l’énergie |
35h 4 ECTS Français |
|
Carburant d’aujourd’hui et de demain |
35h 4 ECTS Français |
|
Energies 0 carbone : filières renouvelables |
21h 2 ECTS Français |
Core courses
|
Climate change and energy transition |
36h 4 ECTS English |
|
Engineering systems |
30h 3 ECTS English |
|
Project of energy optimization |
21h 2 ECTS English |
Elective courses
|
Thermal renewable energies |
36h 4 ECTS English |
|
Climate change and energy transition |
36h 4 ECTS English |
|
Thin film photovoltaics |
36h 4 ECTS English |
|
PV technologies in industry |
36h 4 ECTS English |
|
Smart grid for renewable energy |
36h 4 ECTS English |
|
Advanced experimental smart grid |
36h 4 ECTS English |
|
Wind power |
36h 4 ECTS English |
Mandatory 6-month internship starting early April.
Credits: 22 ECTS.
Admission requirements
Academic prerequisites
- Completion of the first year of a Master in Energy at Institut Polytechnique de Paris or equivalent in France or abroad
- Completion of a first-year Master of Sciences or Master of Sciences and Technologies in one of the following specialties: energy engineering, mechanical engineering, electrical engineering, material sciences, chemical engineering or sustainable development
Language prerequisites
- English (minimum B2, preferred C1)
- A good level in French is appreciated, though not mandatory
How to apply
Applications can be submitted exclusively online. You will need to provide the following documents:
- Transcript
- Two academic references (added online directly by your referees)
- CV/resume
- Statement of purpose
You will receive an answer in your candidate space within 2 months of the closing date for the application session.
Fees and scholarships
Fees for 2023-2024 are :
- EU/EEA/Switzerland students: 4648€
- Non-EU/EEA/Switzerland students: 6839€
- Engineer students enrolled in one of the five member schools of Institut Polytechnique de Paris (Ecole polytechnique, ENSTA Paris, ENSAE Paris, Télécom Paris and Télécom SudParis): 159€
- Special cases: please refer to the "Cost of studies" of the FAQs
Find out more about scholarships
Please note that fees and scholarships may change for the following year.