Top Master Degrees in Energy Sciences in Europe 2019
Those who want to know more about renewable energy may want to take classes in the energy sciences. Along with learning about the types of energy, students may learn how to store, produce and transmit sustainable energy sources.
Master's Degree in Energy Sciences in Europe
13 Results in Energy Sciences, Europe Filter
The aim of the master programme is to educate Energy Transition Strategists focussing on local and regional levels of energy transition. Upon graduation, you will have a broad competence base ranging from how to build (energy) communities, sustainable energy technologies, sustainable business models, governance, communication to spatial transformations.
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.
The accredited master’s degree program “Smart Mobility and Energy Systems” is primarily directed towards graduates of a bachelors degree program oriented towards Electrical Engineering or Information Technology, that are striving for a career as a highly skilled professional or manager.
The joint master's programme in Environomical Pathways for Sustainable Energy Systems (SELECT) is offered by five European universities through InnoEnergy. The programme is for engineers who want immediate, hands-on experience of solving real-world energy challenges. Sharing their inspiration with industrial partners, students explore the social aspects of a changing energy landscape and the environmental impacts of renewable energy projects, while adding depth to their engineering knowledge.
The master’s programme in Chemical Engineering for Energy and the Environment will offer students a comprehensive education and the engineering tools necessary to solve the future challenges of how to best use our energy and finite natural resources.
At the crossroads of theory and practice, this one-year Anglophone programme takes place in Nice and Berlin. A unique graduate programme in Global Energy transition and Governance.
Through this program, students will acquire the scientific and technological knowledge, as well as the principal experience, to understand and contribute to innovative research and development processes in the energy field.
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.
The main goal of this Master's Degree is the training of qualified staff in areas related to electrical energy management. This Master's Course offers a double approach: scientific and professional.
Treating energy and the environment as two equal parts that will determine our climate future, the Energy Environment: Science Technology and Management (STEEM) Graduate Degree provides a sophisticated understanding of energy in the 21st century. Based on a foundation of engineering and applied sciences training, the STEEM program offers graduates the tools to understand the socioeconomic context of climate change and to master the evolutions of our relationship with energy.
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-proof solutions for sustainable and smart energy systems.
The Master in energy & solar buildings trains scientists capable of solving complex problems relating to the management, design and optimization of multiple-input technological systems and develops 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.
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.