View all MSc Programs in Energy Engineering in Europe 2019
A Master of Science or MSc is a postgraduate degree typically in the fields of sciences and social sciences. MSc may be course-based, research-based, or a mixture of the two.
Individuals who are dedicated to the environment and enjoy science and technology may be interested in studying energy engineering. This area of study provides students with the skills and knowledge needed to manage energy facilities, extract natural resources properly and develop technologies that lead to sustainable energy sources.
View all Master of Science Programs in Energy Engineering in Europe 2019
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The Master's degree program offers advanced education for students and young professionals holding a Bachelor's degree or academic equivalent in engineering or natural sciences.
Petroleum Engineering postgraduate program of the Technical University of Crete is a one-year, full-time program, designed to provide students with a scientific background in hydrocarbon exploration and skills in the practical aspects of petroleum engineering. The program begins in the end of September and leads to a Master of Science (MSc) degree. The program is run by the School of Mineral Resources Engineering.
Education plays a key role in the development and maintenance of the economic viability and growth of the petroleum industry. Whether you are a plant operator or supervisor, an engineer, project manager, executive, regulator, or attorney, or just curious about petroleum technologies, Klaipėda University has a Oil and Gas Process Engineering programme for you.
The worldwide collaboration on the development of nuclear fusion as a safe, clean and inexhaustible energy source is now culminating in the construction of the large test reactor ITER. ITER is being built in Europe (in Cadarache, France) and will demonstrate 10-fold power multiplication at the 500 MW level.
The objective of the Master of Science is to form project leaders or supervisors capable of managing complex engineering projects in the domain of the environment and energy conversion systems within an international context. PM3E offers a balanced program of management skills and engineering techniques for environmental and energy projects.
What will the future bring in terms of energy? Will we produce electricity from renewable sources such as the wind and sun? Will nuclear energy make a comeback? What will power cars in the future and what will their engines look like? The liberalization of energy markets is causing a genuine techno-economic revolution. The greenhouse gas issue threatens our way of life. Guaranteeing a (sustainable) supply of energy is a challenge for all mankind. These phenomena make the subject of energy highly topical.
Energy is becoming more and more a major cost factor for all the players in the energy business due to increased worldwide consumption on the one hand and on the other hand a need to restrict the production of greenhouse gases.
Graduates from Power Engineering are prepared for creative work and research within the field of processes control in power industry and in related industries. They can develop techniques of energy conversion and maintain power systems. They can also perform modernisation of machines, implement new technologies, as well as establish and manage small enterprises in power energy sectors. Graduates are prepared to undertake PhD studies in power engineering and in other related fields.
This field has a continuous need for professionals to control nuclear power plant reactors and generators, taking into consideration and putting into practice nuclear safety in all subsystems of a nuclear plant. In this programme, you will learn about energy economics, environmental impacts, savings and emissions, nuclear energy and safety, and the development of plant processes.
The Master of Science (M.Sc.) programs offered at The Budapest University of Technology and Economics (BME) are not restricted to those who received their B.Sc. diplomas in engineering at BME. These programs are open to all students who receive diplomas in mechanical engineering, mechatronics engineering or transportation engineering at any of the Hungarian or foreign institutions of higher education.
This course is a new mode of delivery of our well established on-campus MSc in Electrical Power Systems Engineering.
Rational and economic use of energy, with the least damage to the environment, is vital for the future of our planet. Achieving energy efficiency and reducing environmental pollution are increasingly important aspects of professional engineering. This course equips graduates and practising engineers with an in-depth understanding of the fundamental issues of energy thrift in the industrial and commercial sectors, enabling a successful career as an environmentally aware energy professional.
Electromechanical engineering is a collection of engineering disciplines around the themes motion, force and energy. The world of electromechanical engineering encompasses development, design, manufacturing, testing and control of tools, machines, vehicles and other electrical or mechanical systems, as well as research on these topics. The main subject Electrical Power Engineering handles all aspects of generation, distribution and use of electrical energy, with special attention to electrical machines and drives and electrical power systems.
The M.Sc. in Energy Engineering is aimed at Italian and foreign students and offers a good level of interdisciplinary preparation for working in professional, industry and research at international level in the field of the sustainable energy production, conversion, transportation, storage, and saving.
Smart grids are a new way of designing and managing electrical power systems. Smart grids are designed to enhance the effectiveness, stability and reliability of the systems and to integrate distributed energy resources into system management. They are essential for increasing the share of renewable energy sources without compromising competitiveness and system security. The Master's Degree Programme in Smart Grids develops systems thinking skills and provides students with a comprehensive range of technical design and analysis skills. Suitable backgrounds include Bachelor of Science (Technology) degrees in electrical power engineering, power electronics, electricity markets or renewable energy sources.