A Masters degree is an academic degree awarded to individuals who successfully denote a higher level of expertise. There are two main types of Masters - taught and research.
Energy studies focus on meeting the demand for power. Different sources of energy may be explored, such as solar, wind, geothermal, nuclear and conventional sources. Sometimes, a focus may be placed on the technology involved with sustainable energy and the improvement of efficiency.
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom and Britain, is a sovereign state located off the north-western coast of continental Europe.The two most famous (and oldest) universities are Oxford and Cambridge (often referred to as Oxbridge by many Britons) England also has several other world-class institutions, including several in London (notably Imperial College, the London School of Economics, University College London and King's College London, all are part of London University)
Top Master Programs in Energy Studies in United Kingdom 2018
Across The Pond partners with some of the top UK universities for Energy, across a variety of disciplines. The UK has long been a major contributor to the innovation of energy, including oil and gas, renewable energy, and students who study in the UK benefit from intensive learning, opportunities to find placements at major Energy companies, and a concentration on both academic skill and employability. [+]
STUDY ENERGY IN THE UK
Across The Pond partners with some of the top UK universities for Energy, across a variety of disciplines. The UK has long been a major contributor to the innovation of energy, including oil and gas, renewable energy, and students who study in the UK benefit from intensive learning, opportunities to find placements at major Energy companies, and a concentration on both academic skill and employability.
BENEFITS OF STUDYING ENGINEERING IN THE UKShorter courses: Most Master’s programs are only one year long. Students can obtain a degree in a shorter amount of time compared to studying in Latin America. Funding from Latin American countries for these subjects is also available. Focus: UK universities do not require general education courses; students will be focusing on Energy from Day 1! Employment opportunities: Many universities in the UK focus on having staff that are active in their fields, helping to provide an employability perspective and to generate learning opportunities outside of the classroom. Furthermore, many energy courses offer the opportunity to take on a placement, whether as an additional year on their degree or as a short-term opportunity during their degree. Either way, UK engineering students graduate with readiness to work. ... [-]
A postgraduate degree from the University of East London, based at the Graduate School of the Environment at the Centre for Alternative Technology. [+]
A flexible Masters degree designed to develop a rigorous understanding of different energy technologies, exploring the subject through a combination of academic study, discussion and hands-on practical work.How is the course taught?
Taught at the Centre for Alternative Technology (CAT), which pioneered sustainability practice and theory in the UK, the MSc course examines renewable energy provision, increased energy efficiency and intelligent management of energy resources. These topics are explored within the context of the ecological, social and economic impacts and the policy drivers at international, national and local scales. Our MSc programme is taught either by distance learning or through residential blocks in one of the most innovative environmental buildings in the UK, or via a mixture of the two.... [-]
Take the masters route and complete this MEng degree in just 3 years with a relevant HND. This five-year MEng course is accredited by the Institution of Engineering and Technology and the Energy Institute. [+]
Accredited by: IET EI
Year 3 entry only
The global demand for renewable and other energy technologies is increasing the need for engineering graduates with traditional electrical and electronic skills suitable for energy generation, distribution, instrumentation and telecommunications.
Recent industry and government reports highlight the strong need for renewable and energy technologies to be part of the skills set of electrical and electronic engineering graduates. Graduates will be ideally placed to capitalise on the significant and unprecedented growth in this area.
This programme is accredited by the Institution of Engineering and Technology (IET). The IET Accreditation is an internationally respected benchmark awarded to high-quality programmes that provide an ideal preparation for aspiring professional engineers.... [-]
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 Energy Institute. [+]
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.... [-]
The MSc in Energy Management (MEM) at ESCP Europe is an 18-month, full-time postgraduate programme for those aiming towards a career in the energy sector. [+]
The MSc in Energy Management (MEM) at ESCP Europe is an 18-month, full-time postgraduate programme for those aiming towards a career in the energy sector.
Taught in English at our London and Paris campuses and including an optional one-week seminar in the United States of America (Washington, DC and Houston, TX), the MEM is delivered by a world-renowned faculty and specially selected industry practitioners.
The MEM's objective is to help students understand the energy business environment and its fundamental economic and technological concepts. Participants will gain the ability to develop and implement strategies to address major issues in energy regulation and policy, as well as strengthening their ability to live and work in a highly multicultural and international environment.... [-]
EUREC together with leading European Universities involved in renewable energy education and training have responded to this demand through the development of the European Master in Renewable Energy. [+]
European Master in Renewable Energy
The aim of the European Master in Renewable Energy is to train post-graduate students to fill the gap between the growing industry demand for specialised renewable energy expertise and the skills currently available on the job market.By structuring the course in three sections, students are guaranteed to spend time in at least two different EU countries and make contact with a wide range of European institutes and companies involved in the renewable energy sector.The participating universities are all well-established in training and the education sector as well as being recognised at an international level for their work in the field of renewable energy technology.... [-]
The MPhil in Nuclear Energy recognises that though the prospects for nuclear are now better than they have been for twenty years, nuclear works in a market for energy technologies and has no special right to be developed. [+]
MPhil in Nuclear Energy
The MPhil in Nuclear Energy recognises that though the prospects for nuclear even after Fukushima are now better than they have been for twenty years, nuclear works in a market for energy technologies and has no special right to be developed. The political, economic and social context for nuclear power is as important as the technical merits of the designs of reactors and systems.
Nuclear technology is challenging because it is still relatively new being less than 70 years since the first controlled chain reaction. Also, it is challenging because of the multi-disciplinary nature of problems that often involve physics, materials and engineering at the same time.... [-]