Masters in Nuclear Energy Engineering in Europe

See Masters Programs in Nuclear Energy Engineering in Europe 2017

Nuclear Energy Engineering

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.

Students of a Master of Science in Nuclear Energy Engineering will become experts of the nuclear field. Due to the increasing need of reducing carbon dioxide emissions, nuclear energy is most likely to be an increasingly significant field.

Europe is, by convention, one of the world's seven continents. Comprising the western most point of Eurasia, Europe is usually divided from Asia by the watershed divides of the Ural and Caucasus Mountains, the Ural River, the Caspian and Black Seas, and the waterways connecting the Black and Aegean Seas.

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Master in Energy Engineering

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

This program introduces students to energy policy and presents it as one of the pillars of electricity and heat production in the Czech Republic. Students gain practical experience by contributing to the improvement of the cooperation of the Department and Faculty with various institutions and workplaces in the Czech Republic and abroad aimed at achieving a high level of expertise on the latest research equipment. [+]

Masters in Nuclear Energy Engineering in Europe 2017. Faculty of Mechanical Engineering Study Branch Energy Engineering Branch Profile Branch covers a wide range of energy issues. It introduces students to energy policy and presents it as one of the pillars of electricity and heat production in the Czech Republic. Graduates will be able to assess the choice of technology used in new energy sources according to criteria for maximum energy efficiency and minimum emissions. Students gain practical experience by contributing to the improvement of the cooperation of the Department and Faculty with various institutions and workplaces in the Czech Republic and abroad aimed at achieving a high level of expertise on the latest research equipment. All students deepen their knowledge of the theory of fluid mechanics, heat transfer and mass transfer and combustion, and study further on the construction and operation of the basic units of power equipment such as boilers, turbines, compressors, power stations, internal combustion engines and acquires of water management in energy, air and traffic control, diagnostics and maintenance in power. Students choose from one of the four specializations. For "Thermal power equipment and industrial power" possibilities include heat, nuclear power plants or the use of secondary sources of energy. For the specialization "Alternative energy and environmental technology" possibilities include ventilation and air conditioning, alternative and renewable energy sources and energy use of biomass and waste. The third specialization “Construction of steam boilers and heating equipment”, prepares specialists in the field of thermal calculations, design and construction... [-]

Master in Energy Innovation

KTH Royal Institute of Technology
Campus Full time 2 years September 2017 Sweden Stockholm

There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver [+]

There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver cutting-edge knowledge in fields crucial to meeting today’s global energy challenges and enables you to study at two universities in two different European countries, receiving a double degree. KIC InnoEnergy has created seven Master's programme joint between European top universities. Five of these programmes are partially hosted by KTH. - Energy for Smart Cities (SMCS) - Environomical Pathways for Sustainable Energy Systems (SELECT) - Nuclear Energy (EMINE) - Renewable Energy (RENE) - Smart Electrical Networks and Systems (SENSE) Energy for Smart Cities (SMCS) The programme is ideal for graduates who are fascinated by energy technology and interested in environmental and socio-economic factors, as well as the electrical and thermo-mechanical aspects. It focuses on end-users of the electrical value chain; the citizen, the company or the city. During your first year, electrical and mechanical engineering courses are combined with general socio-economic, but still energy-related, subjects. An integrated project is also included. Your second year continues with a Master’s degree project and some elective courses, both general, broadening and option specific. The programme also organises a summer school to sharpen participants’ entrepreneurial skills in the energy sector. It includes soft skills such as team-building, networking, leadership, entrepreneurship and intercultural communication skills, all fuelled by interesting conversations with professionals from the energy industry, consultancy firms and municipalities.... [-]

Cambridge Masters in Nuclear Energy

University of Cambridge, Department of Engineering
Campus Full time 1 year October 2017 United Kingdom Cambridge

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 not 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 not 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.... [-]