A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.
Energy studies are useful for those looking to learn about how power works. Specialized energy programs may focus on a specific type of energy, such as solar or wind. Some programs may teach about sustainable energy and reducing the negative environmental impact of conventional power.
University of British Columbia - Faculty of Applied Science
The Master of Engineering Leadership (MEL) in Clean Energy Engineering is designed for engineers and environmental science graduates who want to make their sustainable vi
*The application system opens on January 2nd, 2019.
The Master of Engineering Leadership (MEL) in Clean Energy Engineering is designed for engineers and environmental science graduates who want to make their sustainable vision a reality and advance their careers in the in-demand field of clean energy.
Technical specialization in the areas of sustainable energy generation, energy transmission, distribution and storage, and efficient energy use are key components of the curriculum. Combined with strong leadership and business skills, this program will help you to develop innovative solutions, manage teams and direct projects - a skill set that is highly relevant in today’s business environment....
Centre international de formation européenne (CIFE)
At the crossroads of theory and practice, this one-year Anglophone programme takes place in Nice and Berlin. A unique graduate programme in Global Energy transition and G
"Understanding the complexity of current energy transformations in Europe and worldwide"
The Master in Global Energy Transition and Governance is targeted at students who have completed their undergraduate studies. Its objective is to provide students with a deep understanding of the complexity of the current energy transformations in Europe and worldwide. The programme takes place in Berlin and Nice, offering a unique, multidisciplinary approach which distinguishes it from other Master’s 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 MRes Low Carbon Electrical Power and Energy Technology programme provides advanced and systematic education and training in the areas of electronic science and techno
The MRes Low Carbon Electrical Power and Energy Technology programme provides advanced and systematic education and training in the areas of electronic science and technology. It has been designed to respond to the vigorous development of electric power and energy technology in China and worldwide.
The programme contains taught courses covering solar converters, wind power systems, energy storage technology and smart grids. It places a strong emphasis on hands-on experience and practical skills development. A 12-month extensive research project is required which leads to the submission of a dissertation after students have finished the taught modules.
The MRes Low Carbon Electrical Power and Energy Technology programme provides advanced systematic education and training in the areas of electronic science and technology. You will develop the understanding of state-of-the-art electrical power and energy technology, be able to research and critically evaluate trends in current technologies of energy management, sustainability, renewable energy and nuclear energy. You'll acquire skills in planning, project management and communicating complex ideas and gain experience in conducting extended research and/or developing project work....
Programme objectives: focus on corporate issues and optimize professional skills at a managerial level; gain in-depth knowledge and vision of energy technologies, industr
Your 360° view of the energy business
Focus on corporate issues and optimise professional skills at a managerial level
Gain in-depth knowledge and vision of energy technologies, industries and markets
Develop and implement a strategic mindset to address major future issues within the energy industry
Strengthen your ability to live and work in a highly multicultural and international environment
A flexible, 12-month, part-time programme that enables candidates to combine executive studies with their full-time job
Designed for students with a Master degree and 5 years of working experience
Two weeks of distance learning in management courses
Study at four ESCP Europe campuses: London, Berlin, Paris and Madrid
One-week International Seminar held in Houston, TX
Taught entirely in English
Integrated International Consultancy Project
Real-time Trading Experience
Achieve individual certificates with our Energy Masterclasses option
Delivered by world-renowned faculty and industry practitioners
Strong support from the Energy industry via our Research Centre for Energy Management
Excellent networking opportunities offered by our 50,000-strong alumni
More than 40 professors and practitioners teaching on the programme
Two Ways to Study
Energy is the underlying heartbeat of the global economy – a critical factor in the production of nearly all goods and services in the modern world. Clearly, given the cr
Master in Energy Informatics
Energy is the underlying heartbeat of the global economy – a critical factor in the production of nearly all goods and services in the modern world. Clearly, given the critical role of energy, the driving imperatives in any economy are ensuring the security of supply, maintaining competitiveness and overseeing the transition to a low-carbon future.
Key requirements in this respect are the strategic management of supply and improving its overall generation and distribution. Impacting on these challenging goals will be a variety of factors, including advances in renewables, e-mobility and green technologies, to name only a few. Managing this changing environment is no easy task. That will require intelligent IT solutions and therefore well-educated IT experts able to design and/or operate future smart grids, smart city infrastructures and enhanced energy supply systems....
The Master in Energy for Smart Cities program addresses internationally-oriented and entrepreneurial engineering students who wish to implement modern energy technologies
The Master in Energy for Smart Cities program addresses internationally-oriented and entrepreneurial engineering students who wish to implement modern energy technologies for end-users of the electrical value chain. The program is a collaboration between the KU Leuven and technical universities from Eindhoven, Stockholm, Barcelona, Lisbon, and Grenoble.
What is the ‘EIT-KIC Master of Energy’ all about?
The Master's program consists of 120 credits, organized in two stages of 60 credits. The first stage consists of compulsory courses that cover a broad base of electrical, thermo-mechanical, and techno-economic subjects. In the second year, students continue working towards writing a Master's thesis and attend elective courses: general, broadening and option-specific....
Rutgers School of Engineering provides students with a strong technical background and prepares them for leadership careers in exciting and challenging professions. Both
Master's Programs in Energy Studies. Advancing Engineering Leaders
Rutgers School of Engineering provides students with a strong technical background and prepares them for leadership careers in exciting and challenging professions. Both our teaching and research are firmly rooted in scientific principles while incorporating knowledge of today’s challenges.
Master of Engineering (MEng)
Energy is a Rutgers priority and our Master of Engineering in Energy Systems Engineering program is one of a few of its kind in the nation. It offers an interdisciplinary approach to innovating solutions for a clean energy future. By drawing on the resources of six School of Engineering departments, the Graduate School-New Brunswick, the Edward J. Bloustein School of Planning and Public Policy, and the Rutgers School of Business, this collaborative program integrates technology and science with business, IT, public policy, and regulatory study....
National University of Science and Technology MISiS
This two-year Master’s program taught in English is designed to create an integral understanding of modern technologies used in solar energy research and development, ind
The two-year Master’s program Science and Materials of Solar Energy is designed to create an integral understanding of modern technologies used in solar energy research and development, industrial production of modern solar cells, panels, and systems. The main aim of the program is to prepare highly-qualified personnel capable of working in both research laboratories and the industrial sector, equipped with theoretical and practical knowledge and analytical and problem-solving skills in the field of Solar Energy.
The program provides necessary skills for development and modernization of the Renewable Energy sector by means of innovative solutions and deployment of new materials and technologies. It also prepares students for work in industrial, research and development companies, and laboratories, developing energy-efficient and environmentally friendly solutions to local and global problems. Successful completion of the course provides the student with the necessary theoretical and practical knowledge of various types and constructions of solar cells as well as production techniques and processes deployed by the micro and nano-electronics industries....
The Master in International Material Flow Management (IMAT) program is APU’s flagship dual master degree program with the Trier University of Applied Sciences, conducted
IMAT is a dual-degree program managed jointly by APU and the Institute of Applied Material Flow Management (IFaS), an innovative research institute of the Trier University of Applied Sciences (Germany). Students will spend their first year studying at APU and the second year at the Zero-Emission Campus Birkenfeld in Germany.
The program offers integrated knowledge in engineering, economics, law and natural and social sciences. In addition to the learning goals of APU’s Sustainability Science division, IMAT offers multidisciplinary courses to prepare students to become young professionals in zero emission systems design with profound knowledge in renewable energy, integrated water resource management, and other sustainable community development areas. Students will also have the opportunity to conduct fieldwork in Japan and participate in an internship in Germany. IMAT students will have to submit a master’s thesis to IfaS in Germany. A concise summary of this thesis is to be submitted to APU in the form of a research report. Upon completion of the program, students receive two master’s degrees, a Master of Science in International Cooperation Policy (from APU) and a Master of Engineering in International Material Flow Management (from Trier University of Applied Sciences)....
The objectives of BiWEM are to provide students with a sound theoretical and practical specialized knowledge in the field of biomass and waste processing. Students in th
Master's Programs in Energy Studies.
Biomass and Waste for Energy and Materials
France benefits from a long, proud tradition of scientific and technological research and innovation that underpins the nation’s achievements in fields such as bioenergy, sustainable development, climate change, waste management. In the French research landscape, the RAPSODEE Research centre of IMT Mines Albi (UMR CNRS 5302) is uniquely positioned to deliver leading-edge training in cleantech and circular economy. Boosted by the RAPSODEE Research centre, the master’s degree BiWEM is a multidisciplinary leading-edge training program that is specifically tailored to address future environmental and societal challenges in the fields of renewable energy and low-carbon economy....
University of Maryland, A. James Clark School of Engineering
Drawing on the innovation and expertise of the University of Maryland Energy Research Center, the energy systems engineering masters program prepares professional enginee
Requirements specific to the energy systems engineering program include:
A bachelor's degree, GPA of 3.0 or better, in civil and environmental, mechanical, or chemical and bimolecular engineering from an accredited institution
Completion of calculus I, II, and III and differential equations, thermodynamics, fluid mechanics, and heat transfer
The program offers training students in research and production activities. The training is focused on the practical solution of tasks of electric power energy renewable
The program offers training students in research and production activities. The training is focused on the practical solution of tasks of electric power energy renewable sources operation and development of power supply systems including distributed generation.
The program is aimed at training students to become specialists of new generation owning system and fundamental knowledge of integration of distributed generation in power systems; electric energy quality; power electronics; emergency modes in electric power engineering systems; protection and control of power supplying systems including distributed generation; renewable energy; numerical and optimization methods; theory of electromagnetic field; management systems for electric machines; theory of electric networks control; power energy storage system; digital measuring systems; hydropower plants; wind power industry; control over renewable energy sources generators....
The MBA program Building Sustainability – Management Methods for Energy Efficiency will teach students skills, methods and concepts to consider different approaches, to u
The concept of the German “Energiewende” – literally, energy transition – has gained international attention. It includes a variety of measures that aim at making Europe’s largest economy free of fossil fuels and nuclear energy. In order to attain this, all areas of energy production and consumption will have to go through a transition process. Besides mobility and industry, buildings are therefore one of the key factors for a successful Energiewende.
Most of all, this implies re-directing from a mainly fossil-fueled energy supply towards renewable energies and a much more energy-efficient use of energy in buildings and urban areas. This is one of the largest and most urgent challenges of current urban development and other social disciplines....
The new Master's Programme in Smart Energy offers the latest knowledge in ongoing energy transitions and excellent capabilities to renew the industry and create future-pr
Developers for Smart Energy Solutions
Are you interested in smart energy systems, a combination of new technologies and business models? Do you wish to have capabilities for creating innovative and sustainable energy solutions for the future?
Changes and disruption of traditional power and energy systems require a new set of skills in order to realize the transition to smarter, more flexible and renewable energy systems. Next generation electrical power engineers need to understand the increasing amount of different interdisciplinary interactions ranging from new technologies to customer needs and different energy policies.
The new, multidisciplinary Master’s Programme in Smart Energy offers students the latest knowledge in ongoing energy transitions and excellent capabilities to renew the industry and create future-proof solutions for sustainable and smart energy systems....