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.
Faculty of Business, Hong Kong Polytechnic University
The Master of Finance (Financial Economics in Energy and Environment) (MoF-EEE) program is suitable for degree graduates, particularly those with no or little work experi
Master of Finance - Financial Economics in Energy and Environment (EEE)
The Master of Finance – Financial Economics in Energy and Environment (FT MoF-EEE) program is suitable for degree graduates, particularly those with no or little work experience, who would like to specialize in the energy and environment areas of the financial industry. This specialism is built on solid economics and finance foundations and provides students with up-to-date business and financial information on the development of energy and environment markets.
On completion of the FT MoF-EEE program, graduates will be able to:
Apply conceptual frameworks drawn from Accounting, Risk Management, Economics, Quantitative Method and Law to the analysis of investment and corporate finance issues.
Solve asset management/corporate finance/ energy and enironmental economics problems as they present themselves in real-life situations.
Formulate financial strategies and envision their outcomes.
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....
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 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 MSc in Renewable Energy offered the UAG is a response to this need of society, the environment and the market, when the development of alternative energies, rational
Study Master in Renewable Energy in UAG
Renewable energy sources are a reality in modern Mexico. In photovoltaic technology there is a greater than 20 MW generating capacity and only in 2011, the installed capacity was doubled in our country. However, our nation has potential to grow in all renewable energy technologies, particularly in solar thermal and the use of hydrogen and biomass.
The accelerated penetration of renewable energy technology represents an opportunity for job creation, but also a challenge in terms of the formation of human capital. In this regard, the country needs specialists in both the efficient use of existing sources, as in the design, implementation, operation, monitoring and maintenance of alternative technologies....
The Master of Advanced Engineering (Energy and Sustainability) is designed for working engineers and engineering graduates with an ambition to lead.
The Master of Advanced Engineering (Energy and Sustainability) is designed for working engineers and engineering graduates with an ambition to lead. Addressing the pertinent demands in sustainable energy development, the course guides you to greater applicable knowledge in this area of specialization and to succeed in complex problem-solving methods.
This program is ideal for those of you who aspire to career advancement in the competitive global environment.
Advanced Engineering Data Analysis
Energy Efficiency and Sustainability Engineering
Sustainable Energy Technologies
Energy Efficient Lighting
Principles and Practices for Sustainable Development
Environmental and Air Pollution Control
AREA OF STUDY
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)....
Moscow State Institute Of International Relations, MGIMO
Masters’ programme “Oil and Gas Sector Economics and International Energy Policy Issues” was launched in 2007 by MGIMO jointly with an Italian university Univerità di Com
Masters’ programme “Oil and Gas Sector Economics and International Energy Policy Issues” was launched in 2007 by MGIMO jointly with an Italian university Univerità di Commerciale Luigi Bocconi which is a recognized European leader in the field of economic and business education and which co-operates closely with major world energy companies.
The Russian-Italian master’s programme “Oil and Gas Sector Economics and International Energy Policy Issues” provides a unique opportunity for Russian and Italian undergraduate students to become experts in modelling and forecasting economic development in the energy sector branches. Successful graduates will be awarded a “Master of Economics in World Energy” degree from MGIMO (U) MFA RF and a “Master (Laurea Specialistica) of Economics and Sociology” degree from the Bocconi University with appropriate national diplomas....
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....
Successful participants will graduate with an Executive Master’s degree from HBKU and will be eligible to receive a certificate of completion from HBKU’s two participatin
Successful participants will graduate with an Executive Master’s degree from HBKU and will be eligible to receive a certificate of completion from HBKU’s two participating partner universities: Texas A&M University, and HEC Paris.
This program brings together leading international experts from multiple disciplines and from the faculty of HBKU and its partners.
Graduates of the program are equipped to:
Implement effective strategic decisions and manage their operations based on a global understanding of issues in the field of energy and resources (E&R).
Develop and implement multi-sided, analytical approaches and solutions to complex E&R issues.
Become visionary leaders and innovators.
Establish relationships with specialists in various managerial functions.
You’ll acquire a comprehensive skill set that will prepare you for employment or promotion across the oil and gas industry. Designed in collaboration with UWA’s industry
You’ll acquire a comprehensive skill set that will prepare you for employment or promotion across the oil and gas industry. Designed in collaboration with UWA’s industry partners, the course is synchronized with global energy trends, with a focus on natural gas extraction and liquefied natural gas (LNG) production. The course delivers both technical fundamentals, alongside experience with industry-leading engineering software (including Eclipse/Petrel, OLGA, Multiflash, and HYSYS).
About The Course
You'll develop professional skills in a range of key areas including petroleum engineering, gas economics, investment strategies and liabilities, workflow concepts, and current production and processing technologies. A particular focus is placed on natural gas and both its extraction and subsequent conversion to liquefied natural gas (LNG). Business-orientated units will cover the principles of project planning and project management within the managerial context of the oil and gas industry. You'll also produce a variety of written technical reports and business proposals, and participate in group projects, including a unique field hydrocarbon development design project. During your studies, you'll benefit from close interaction with our leading academics and their links to industry.
Course structure details
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
As the main sources of energy oil and gas play a crucial role in every economy and modern civilization in general. The fossil fuel scarcity makes one country dependent on
As the main sources of energy oil and gas play a crucial role in every economy and modern civilization in general. The fossil fuel scarcity makes one country dependent on the others, while those with large stocks of natural resources may suffer from negative effects of “Dutch decease”. All together with respect to world economy dynamics, political instability and population growth worry about the prospects of energy security. It means that management in the extracting industry faces new challenges going further than standard risks variations. Managers of oil and gas extracting companies have to take into account social, political, economic, environmental and legal aspects beyond decisions they make....
The MBA program Building Sustainability – Management Methods for Energy Efficiency will teach students skills, methods and concepts to consider different approaches, to u
Master's Programs in Energy Studies.
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....