A diverse field of engineering, which deals with energy efficiency and services, facility management, plant engineering, environmental compliance and alternative energy, Energy Engineering is quickly growing as the global demand for energy increases exponentially each year. Master in Energy Engineering students learn about the macro-implications of their work, weighing the environmental benefits and drawbacks to certain energy sources, while becoming experts in the practical aspects of harnessing, using and distributing energy from a range of sources.
Master in Energy Engineering students can choose to specialize in a number of specific areas, such as Nuclear Energy, Energy Optimization for Buildings, Turfgrass Management, Environmental Management, Oil and Gas Engineering and Sustainable Energy. Building on knowledge and skills established in a bachelors degree in an engineering field, a Master in Energy Engineering continues foundational courses in advanced mathematics and physics, combined with focused coursework in the target area of concentration. Available at universities and institutions in Africa, America, Asia, Europe and Oceania, there are dozens of accredited Master in Energy Engineering programs to choose from, all featuring highly trained and experienced staff.
To learn more about Master in Energy Engineering programs, simply scroll down and click to read more. You can request information to be sent direct from the school in just one minute using the handy web-form.
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....
The objective of the programme is to acquire fundamental professional knowledge and the ability to work independently in accordance with scientific methods, to master the
No restricted admission
Start of studies
The program begins in winter and summer semesters.
Applicants with foreign certificates please apply till 31 May (winter semester) or 30 November (summer semester) via uni-assist e.V.
The Master’s program is run as a joint degree program by Magdeburg-Stendal University of Applied Sciences together with the Universidad de A Coruña/Spain. The summer semester is taught at Magdeburg-Stendal University of Applied Sciences and the winter semester at the University of A Coruña . The third semester is a traineeship semester at one of the two named universities or at other participating universities or in companies/institutions.
The objective of the program is to acquire fundamental professional knowledge and the ability to work independently in accordance with scientific methods, to master the varied demands of working life in applied practice, research or teaching, and to deal effectively with the frequently changing tasks that arise in the professional life of an engineer working in water management. On the Master’s program in Water Engineering, graduates acquire expertise in the fields of national and international water management planning processes, in drinking water supply and wastewater disposal, hydrology, hydraulic engineering and experimental hydraulics, in restoration ecology and in biotechnology and river morphology, as well as flow and process modeling....
Rutgers School of Engineering provides students with a strong technical background and prepares them for leadership careers in exciting and challenging professions. Both
Masters in Energy Engineering. 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....
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....
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 energy & solar buildings trains scientists capable of solving complex problems relating to the management, design and optimization of multiple-input tec
Train scientists capable of solving complex problems relating to the management, design, and optimization of multiple-input technological systems.
Develop the expertise and skills needed to carry out research into energy management, environmental protection, the use of innovative materials and the production of innovative structures as part of a global policy of sustainable development.
Skills and expertise
Design and implement complex technological systems that are self-regulating (or autonomous) and that protect the environment through improved energy efficiency and the use of specific methods, processes, and materials.
Expertise in associated tools (modeling, simulation, measurement, information management).
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
Masters in Energy Engineering.
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....
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....
This Master develops skills for designing and optimizing innovative propulsion plants with a focus on thermofluid processes and energy conversion for research and industr
Energetics and propulsion (M-ENG EP)
This Master develops skills for designing and optimizing innovative propulsion plants with a focus on thermofluid processes and energy conversion for research and industry.
The performance and efficiency of internal combustion engines and turbojets is influenced by various processes including gas flow, compression, and expansion through turbomachines or reciprocating piston, fuel injection and combustion, energy conversion and heat transfer. Therefore, the courses offered in this program will provide an emphasis on all these processes and how they interact.
The program of study lasts two academic years - denoted by M1 and M2. Energetics and Propulsion is one of four specialisms available within the Mechanical Engineering stream. The language of instruction is English throughout the program....
Secure your future in the global field of renewable energy by taking Europe's first master's program in Solar Energy Engineering, taught at Dalarna University’s European
The European Solar Engineering School (ESES) at Dalarna University offers you a specialized educational experience that will broaden your professional opportunities in the renewable energy industry. For two decades, students from over 40 countries have come to a small town in central Sweden to gain knowledge and skills that are desired by the solar energy industry. Examples of subjects covered are the design of photovoltaics, solar thermal and hybrid systems, energy storage, solar project management, and financing of solar energy.
When you take this program, you will be taught by industry experts and researchers from 10 countries, while becoming a member of the international ESES community, which comprises your classmates and our alumni....
Glasgow Caledonian University - The School of Engineering and Built Environment
Apply directly to first, second or third year of this MEng degree. The Power Engineering MEng is accredited by the Institution of Engineering and Technology and the Energ
Accredited by: IET EI
Climate change and economic drivers mean there is a strong move toward renewable energy from wind, wave and tidal sources - and correspondingly an increased demand for power system engineers.
This programme has been designed in collaboration with industry and has a strong emphasis on practical experience. It provides a broad education in electrical, mechanical and electronic engineering, alongside specialist modules in power engineering and power electronics.
You will have access to well-equipped computer-aided engineering and electrical and electronic laboratories with leading technologies, as well as the opportunity for two industry placements....
Through this Master's Degree, students will acquire excellent skills in the management of electrical energy. Based on electrical engineering courses, students will be abl
Through this Master's Degree, students will acquire excellent skills in the management of electrical energy. Based on electrical engineering courses, students will be able to design, develop and improve complex electrical systems (innovative machine, advanced power electronics, smart grid, and multi-source systems), and to prepare Ph.D.
By focusing on the management of Electrical Energy the Master’s program covers various topics related to Electrical engineering: advanced modeling of electromagnetic devices, Control management of electrical energy. The field of applications concerns more particularly energy conversion, transportation (boats, aircraft, automotive, etc.), sustainable development (wind and marine energy and their integration in the network) and multi-source systems....
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
Supported by the College of Petroleum Engineering, which has been leading the petroleum academy for the past six decades, our Petroleum Engineering Master Program in Engl
Supported by the College of Petroleum Engineering, which has been leading the petroleum academy for the past six decades, our Petroleum Engineering Master Program in English enjoys an incomparable status. Here over the three-year study life, students’ growth could be guaranteed by our first-class facilities, elite faculties and the traditional spirit of always pursuing excellence. The program aims to cultivate students’ professional knowledge, as well as practical abilities. Moreover, the characters of diligence, integrity, and preciseness academic attitude are also within the fostering goal. Having been the choice of an increasing number of professional talents, the Petroleum Engineering Master Program in English has been the focused attention of the college....
Get ready for shaping the future energy sector!
The energy sector is facing huge challenges: Growing energy demand, more distributed and renewable energy sources, less ce
Renewable Energy and Data Engineering (RED)
Energy Conversion and Management
Get ready for shaping the future energy sector!
The energy sector is facing huge challenges:
Growing energy demand, more distributed and renewable energy sources, less centralized and fossil sources.
The energy sector is becoming more complex:
Liberalized energy markets with more stakeholders, more systems and new technologies to manage and to interconnect.
The solution - Power & Data Engineering:
Managing the growing complexity needs a combination of profound power system understanding and modern IT and data engineering methods – exactly what you obtain by studying M.Sc. Power and Data Engineering....