Find MSc Programs in Energy Engineering in Finland 2019
The MSc, or Master of Science, is an internationally recognized academic degree that indicates proficiency and knowledge of a given topic or field. Most MSc programs take about four years to finish, after which some join the workforce while others continue on in the classroom.
Energy engineering is a field of manufacturing that refers to the production and distribution of power and electricity. Those who study energy engineering use mathematical models to determine potential energy production sites, conduct laboratory experiments to understand engineering processes and inspect equipment to ensure regulation compliance.
Higher level scholars in Finland easily access higher education courses at practically oriented polytechnics or universities. The Finnish culture is easy to learn since the government has set a ministry which is responsible for enhancing cultural, youth policies, sports and international cooperation.
Top MScs in Energy Engineering in Finland 2019
2 Results in Energy Engineering, Finland Filter
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.
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.