Contexte
A global consensus on the urgency to enact measures to mitigate climate change has emerged in recent years, culminating in December 2015 with the Paris Agreement at the 21st Conference of the Parties (COP21). 195 countries adopted the first-ever universal, global climate deal to limit to 2°C the rise in global temperatures. The agreement also states its aim of limiting the increase to 1.5°C, which would significantly reduce the risk of climate change for ecosystems and human populations. The future of energy production, and particularly renewable energy generation capacities, lies at the heart of efforts to reach these new goals.
The transformation in energy production is generally known as the “energy transition”. This shift away from fossil fuels and towards more sustainable alternatives has become not only a political and environmental imperative, but also an economic one. The technologies and business models of this changing energy landscape call for increasingly sophisticated expertise.
Even if several renewable energy sources (wind, solar, biomass, hydro and marine power) are highly promising, there are still challenges involved with managing their intermittency and making accurate, reliable power generation forecasts. This, in turn, makes it difficult to determine their financial viability.
Finally, the capacity to manage environmental resources and to study the interactions between the geophysical environment, energy production and consumption will continue to grow more important. Corporations, research teams and public bodies alike will need experts that combine cutting-edge technical know-how, a complete understanding of the interactions between energy and the environment and a strong entrepreneurial streak to carry projects forward in this new landscape.
This is precisely the kind of rich, multidisciplinary training for which École Polytechnique is world-renowned. Treating energy and the environment as two equal parts that will determine our climate future, the Energy Environment: Science Technology and Management (STEEM) Graduate Degree provides a sophisticated understanding of energy in the 21st century. Based on a foundation of engineering and applied sciences training, the STEEM program offers graduates the tools to understand the socioeconomic context of climate change and to master the evolutions of our relationship with energy.
Objectif
The Energy Environment: Science Technology and Management (STEEM) graduate degree program fosters real-world technical expertise at the intersection between environmental issues and the future of energy. In Ecole Polytechnique’s grand tradition of multidisciplinary education, this professionally-oriented program provides in-depth understanding of the scientific, economic and industrial context of renewable energy and the environment.The STEEM program combines management experience with first-class engineering and scientific training, making our graduates highly sought after. The numerous industrial and research partnerships within this degree program ensure students will be suited to meet the 21st century’s energy and environmental challenges within a variety of sectors including industry, start-ups and public organizations. For photovoltaics you will take advantage of the new world major R&D institute IPVF close to the campus.
contenu
Courses include high-level scientific master classes taught by faculty from Ecole Polytechnique and our partner school ENSTA. The management component of coursework is taught by faculty from our partner HEC Paris, ranked by the Financial Times as the #2 business school in Europe. Students will also participate in company visits where leading figures from industry, research and regulatory bodies will provide further insight into the energy and environment landscape.domaines d'enseignement
Humanités et sciences sociales, Management, Innovation et Entrepreneuriat, Mathématiques appliquées, Langues, Physique, Mécanique.métiers
Comprising high-value industrial partnerships, internships and international academic exchanges, the Energy Environment: Science Technology and Management (STEEM) Graduate Degree is designed to ensure you are ready for a new professional world upon graduation.
As evidenced by the considerable amount of industry support for this degree, the skills you will acquire are increasingly in high demand across corporate, research and public sectors. The COP21 alone resulted in commitments from 195 countries to submit an assessment of their renewable energy capacities, along with a timeline for their transition to a low-carbon or carbon-free society.
Our graduates will be ideally suited to meet the needs for both technical know-how and managerial expertise to implement energy and environmental policies for leading manufacturers, innovative start-ups and public organizations.
During the two-year program, you will have a wide range of opportunities to build relationships with École Polytechnique’s local and international industrial and research partners. The management skills you acquire will be a significant asset in your career progression.
débouchés
The STEEM program is also a gateway to a research career, with our proximity to numerous research institutions providing an ideal platform to pursue a PhD with funding from our industrial or academic partners.For the internationally focused, the perspectives offered by the STEEM Graduate Degree naturally carry over to career opportunities around the world. Our international partnerships in energy, environment, industry and research sectors provide you with the perfect platform from which to launch your global career.
Parcours
- LAN611ESP01 JE1 - Espagnol Débutant
- LAN611FLE05 JE6 - A0/A1 - Langue française et civilisation
- LAN651FLE01 JE1 - B1/B2 - Langue française et civilisation
- LAN611FLE02 MA1 - A0/A1 - Langue française et civilisation
- MScT-SPO553 Boxing
- MScT-SPO555 Multi Activity - Sport
- MScT-SPO552 Swimming
- LAN651FLE02 JE3 - B1/B2 - Langue française et civilisation
- LAN671ANG02 JE1 - Game Changer
- MScT-SPO556 Rowing
- MScT-STEEM-MScT2 Energy Environment : Science Technology & Management (STEEM) - MScT 2A
- MScT-STEEM-S3 MScT STEEM - Semestre 3
- HFC552 Aspects of Comparative Commercial Law
- MIE669 Structuration et Gestion de projets dans le domaine des Énergies
- HFC551B Multicultural France
- HFC551 French Crime
- PHY652B Matériaux organiques et hybrides pour la conception de cellules solaires de 3ème génération
- MEC655C Introduction to Atmospheric Composition: from Processes to Modeling and Air Quality Regulations
- BIO653 Nature-based Solutions to Substitute Fossil Resources and Address Global Warming
- CHI661C Chemical Storage of Energy
- HFC556 Introduction to French Politics
- HFC568 Sociology of energy transitions: innovation, socio-technical change and controversies in the energy sector
- HFC553 The Myth of Paris in French Imagination
- HFC554 Debating
- HFC5XX Introduction to French Music
- HFC564B Comparative Politics
- HFC569B Dark sides of the City of Lights
- HFC565 Humour
- HFC559 Philosophy of Science Fiction
- MEC655D Etats de mer, propagation de vagues et énergies marines
- PHY657 Building and Using Models for the Energy Transition
- MEC557 Apprentissage Automatique pour le climat et l"énérgie
- MEC577 Ecoulements environnementaux
- HFC550 French Theory
- MScT-STEEM-S4 MScT STEEM - Semestre 4
- MEC662F Wind Energy
- HFC569 Philosophy of Science Fiction
- HFC555 Introduction to Geopolitics
- HFC566B Advanced French politics
- HFC558 Introduction to French Cinema
- HFC567 Techno-Politics
- HFC566 Introduction to French Politics
- HFC560 Paris à l'ère du jazz
- PHY661B Photovoltaic Technologies in Industry (PV Ind)
- PHY661I Smart Grid for Renewable Energy
- CHI661L Renewable Thermal Energy
- MEC666 Climate change and energy transition
- PHY661A Thin-Film Photovoltaics (PV II)
- ECO567A Economie de l'Energie et Géographie
- PHY661K Advanced Experimental Smart Grid
- MIE609 Technology development for a sustainable future for all
- MEC667 CO2 Emission Reduction: Substitution Paths, Negative CO2 Emissions and CCUS
- MIE565 Gestion de l'innovation durable
- PHY612 Coriolis seminars : Energy research and environment
- PHY698 Internship for Energy Environment II
- LAN451JAP Intermediate Japanese B1B2
- PHY657 Building and Using Models for the Energy Transition
- PHY612 Coriolis seminars : Energy research and environment
- HFC550B Principles and history of Geopolitics
- HFC561 Representing the Self: From Montaigne to Selfies
- PHY698B Internship for Energy Environment II (for RENE students)
- MScT-STEEM-S3 MScT STEEM - Semestre 3
- LAN631FLE02 JE3 - A2/B1 - Langue française et civilisation
- MScT-SPO557 Badminton
- MScT-STEEM-MScT1 Energy Environment : Science Technology & Management (STEEM) - MScT 1A
- MScT-STEEM-S1 MScT STEEM - Semestre 1
- HFC551 French Crime
- HFC551B Multicultural France
- MIE559 Chaîne de valeur de l'industrie énergétique
- PHY558B Physics and Engineering of Photovoltaic Devices
- MEC558 Hydrologie Continentale et Ressource Hydrique
- HFC552 Aspects of Comparative Commercial Law
- PHY530 Refresher Course in Physics
- MAP502 Refresher Course in Math and a Project on Numerical Modeling Done in Pairs
- PHY559B Génie Electrique et Energie Renouvelable
- MEC559 Mechanics for wind power
- HFC556 Introduction to French Politics
- PHY556 Python for beginners - Physics
- HFC568 Sociology of energy transitions: innovation, socio-technical change and controversies in the energy sector
- HFC553 The Myth of Paris in French Imagination
- HFC554 Debating
- HFC5XX Introduction to French Music
- HFC564B Comparative Politics
- HFC569B Dark sides of the City of Lights
- HFC565 Humour
- HFC559 Philosophy of Science Fiction
- MEC655B Greenhouse Gases (GHG) Challenges and Observations
- PHY555 Energie et Environnement
- HFC550 French Theory
- MScT-STEEM-S2 MScT STEEM - Semestre 2
- HFC566 Introduction to French Politics
- HFC567 Techno-Politics
- HFC566B Advanced French politics
- HFC560 Paris à l'ère du jazz
- MEC662 Hydro, Wind and Marine Resources
- MEC565 Météorologie et Environnement
- PHY563 Sciences des Matériaux pour la Conversion et le Stockage de l'Energie
- HFC558 Introduction to French Cinema
- MEC583 Projects on Solar and Wind Energy: Resource and Performance Analysis
- HFC555 Introduction to Geopolitics
- PHY589 Cours de Laboratoire en Photovoltaïque
- PHY585 Travail Expérimental dans la Physique de l'Environnement
- HFC569 Philosophy of Science Fiction
- MIE569 Sustainable Strategy and Business Models
- INF569 Decision theory, with applications to energy systems
- ECO569 Environmental Economics 2
- MEC668 Geological Storage of Energy and Wastes
- MEC561 Interaction fluide structure
- MIE565 Gestion de l'innovation durable
- PHY598 Internship for Energy Environment
- PHY612 Coriolis seminars : Energy research and environment
- HFC550B Principles and history of Geopolitics
- HFC561 Representing the Self: From Montaigne to Selfies
- MScT-EYF Explore Your Future
- MScT-STEEM-S1 MScT STEEM - Semestre 1
- LAN611ALL01 JE1 - Allemand Débutant
- MScT-SPO554 Climbing
- MScT-SPO551 Multi Activity - Raid
- MScT-SPO558 Weight training / Cross training
- MScT-SPO559 Horseback Riding (Gallop 4 level min)
- MScT-SPO550 Postural Sport (Well-being activity)
- HFC556B Introduction to French Politics
- HFC559B Dark sides of the City of Lights
- MIE566 Startup and large companies : building bridges for innovation
- CCH_50401_EP Sustainable Development Certificate MScT
- HFC541 Introduction to Science and Technology Studies
- HFC557 Beyond the Mundane: Analyzing Food Practices (Part 1)
- HFC562 Beyond the Mundane: Analyzing Food Practices -Part 2
- HFC560B French thinking: difference, bodies, power
- LAN611FLE03 JE1 - (A0/A1) - Langues française et civilisation
- LAN611FLE04 JE3 - (A0/A1) - Langues française et civilisation
- LAN631FLE01 MA1 - A2 - Langue française et civilisation
- LAN671ANG03 JE1 - Mathematicians in History and Cinema
- MScT-SPO550B Volleyball
- LAN611FLE01 LU6 - A0/A1 - Langue française et civilisation
- LAN611ITA JE1 - Italien Débutant
- LAN631ESP01 JE1 - A2/B1 Espagnol
- LAN574dFLE MA2 - Les subtilités du français
- LAN572sFLE MA6 - La chanson française
- LAN572kFLE LU6 - Mythes de la technique et de la civilisation
- LAN572lFLE MA2 - Art et politique XIXe-XXe siècles
- MIE555 Principes fondamentaux de la stratégie et de l'innovation