The Master in Global Energy Transition and Governance aims to give a deep understanding of the complexity of the current energy transformations in Europe and worldwide. The programme offers a unique, multidisciplinary approach which distinguishes it from other Master courses in the field of energy studies: It analyses the links between the different levels of energy governance, from an international to a local level, offering problem-focused learning at the crossroads of theory and practice. The one-year Master programme stretches over three terms and takes place in two study locations: Nice and Berlin. Working language is English.
The first term in Nice encompasses classes on the basics of the four energy modules (International energy governance, Economic energy governance, the EU energy governance and Energy and territories). Each module is complemented by seminars dealing with current energy issues. An academic or professional expert is invited for each event.
For their second term students move on to Berlin where teaching in the four modules continues in the form of workshops. Each module organises a half-ay workshop with an expert. Students prepare the workshops in group work delivering papers on themes linked to the topic of the seminar (climate negotiations, energy stock exchange, the role of the EU interconnections in the European energy market, the EU funds and the territorial energy policy). To better understand the local energy challenges in the framework of the German Energy Transition Field, visits will also be organised in co-peration with local institutions and companies. Another focus of this term will be put on the methodology classes, one dedicated to the research work and the Master'sthesis, the second one to project management.
In April students return to Nice. The third term aims at deepening their knowledge on the four energy modules. A special focus is also given to the methodological support for the students' work on their thesis including individual meetings with the academic supervisors. In the two simulations the participants will forge their negotiation techniques with regard to the construction of wind farms at local level and work out of a strategy for an international energy cooperation. Written and oral exams in June will conclude this term.
During this term students will finalise their work on their thesis in close contact with their academic supervisors. The thesis will be delivered in mid-June and defended at the end of June.
This module delivers the theoretical knowledge on the main international energy related issues and conflicts (resource curse, neoinstitutionalism, developmentalism, weak/strong States etc.).
It also provides the participants with concrete examples of the emergence and regulation of energy conflicts worldwide in order to analyse better how they exert pressure on the security and diversification of the energy supply.
Economic and market fundamentals are applied to the energy sector in order to understand the current multiple national, regional, and local low carbon energy pathways in the world.
The module examines how the different markets are regulated and how they influence the transitions from fossil fuels to renewable energies. The economic perspective will highlight the role of liberalisation, privatisation and regulation of the sector.
The aim of this module is to highlight the EU priorities and its decision-making process regarding clean energy transition in Europe, thus helping to understand political economy factors that both inhibit and accelerate it.
While focusing on how the different EU policies challenge institutional architectures and multilevel governance schemes, the module provides an insight into issues currently facing European policy makers such as social acceptance, sustainability of renewable energies as well as rapid advancement in clean energy technologies.
Participants will examine how EU regions and cities and more generally territories develop their own low carbon strategy at the crossroads of many policies (housing, waste management, transport, fuel poverty, environment and energy) and in the framework of a multilevel governance system.
Concrete examples of local and regional strategies will be delivered in order to analyse the levers and obstacles for more decentralisation.
Students will acquire skills in research methodology, energy project management and the elaboration of energy strategies. They will concretely experiment different methodological tools: first of all through the research work for their thesis, second thanks to the methodological tools of project management. Students will be involved in a simulation game in which they will have to decide on the construction of a wind park in a territory. In a negotiation game, participants will have to elaborate a common strategy in the perspective of international energy cooperation.
For their thesis participants will carry out a profound research work on an energy issue, chosen and elaborated in regular coordination with their supervisor.
The thesis will require the application of the methodological tools which the students have acquired during the programme.
The academic work will involve in-depth desk research, possible interviews with external partners and the writing of a thesis of approximately 17,000 words. Candidates will defend their thesis in an oral exam.
Candidates can submit their application dossier by using the form available on the Institute'swebsite. They should also include all the relevant documents, or send them by post or email. An academic committee meets regularly in order to review complete applications.
A limited number of scholarship funds can be awarded to particularly qualified candidates to cover some of the costs related to studies or accommodation. The deadline for applications is: 15 September 2017.
Please do not hesitate to contact us for any enquiry.
Whether you’re from an engineering, scientific or technical background, this programme will equip you with expertise in new and traditional energy technologies, renewable energy sources, solid waste recycling, air pollution, climate change and energy management systems.
You’ll gain an understanding of the environmental impacts of energy technology choices and the technical expertise to further develop them, preparing you to handle the complex challenges created by the growing energy demands, climate change and urban growth of the 21st century.
Core modules will build your knowledge of topics like atmospheric pollution controls, as well as a range of renewable technologies. You’ll also choose from optional modules that suit your interests and career plans such as combustion theory, energy management or fuel processing.
You’ll benefit from the chance to study in cutting-edge facilities where our researchers are pushing the boundaries of sustainable energy engineering. We have a wide range of analytical facilities for advanced fuel characterisation, environmental monitoring and pollution control.
There are also pilot scale combustion systems, and wide range of experimental facilities researching the production of low carbon fuels and energy from waste and new materials such as biomass and algae. In our Energy Building, you’ll even find a full scale engine testing and transport emissions suite, and pilot scale wave power, fuel cell, gas turbine power station, wind and solar labs and rigs.
The course is accredited by the Energy Institute (EI) under licence from the UK regulator, the Engineering Council, which adheres to the requirements of further learning for Chartered Engineer (CEng) status.
Core modules will develop your understanding of key topics such as how air pollution and carbon emissions can be measured and controlled, as well as their impact on the surrounding environment. You’ll also focus on renewable technologies such as wind, solar and geothermal energy and hydroelectricity.
In addition, you’ll consider waste and biomass as renewable technologies and how energy can be recovered from landfill and waste incineration. You’ll also gain a broader understanding of the contexts in which these technologies are emerging, including related legal, environmental and financial issues.
With this foundation, you’ll specialise in areas that suit your interests and career ambitions when you choose from optional modules. You could focus on energy management and conservation, or how developments in engine technology are making transportation more fuel efficient, among other topics.
In the latter part of the year, you’ll focus on your research project. You’ll choose your topic – normally related to one of our world-class research institutes – and work closely with your supervisor to apply what you’ve learned to a real-life problem.
Want to find out more about your modules?
Take a look at the Energy and Environment module descriptions for more detail on what you will study.
Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings. Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.
You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.
The research project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.
Recent research projects by students on this programme have included:
A proportion of research projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer.
The need for all businesses and industrial companies to reduce their greenhouse gas emissions will be a major driver of future development. Graduates with the skills offered by this course will be in high demand.
Typically, graduates are likely to go on to work in senior posts with high levels of responsibility in energy and environmental consultancies, energy specialists, architectural firms, environmental departments of local authorities, government agencies, major funding bodies, large industrial companies and emerging businesses in the renewable sector.
You’ll also be well prepared for PhD level study and a career in academic research.