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Complete guide to masters programs in Power Engineering at German universities
Masters programs in Power Engineering provide comprehensive education combining theoretical foundations with practical applications. These programs typically last 1-2 yearsand prepare graduates for various career paths in academia, industry, and research.
Area of Study: Environmental Protection Technology, Environmental Engineering, Power Engineering Focus: Air Pollution Control, Environmental Engineering, Energy, Water and Wastewater Technology, Transport, Waste Disposal, Environmental Process Engineering, Environmental Sciences, Environmental Management, Environmental, Town and Country Planning
Area of Study: Process Technology, Geology, Geophysics, Geosciences, Power Engineering, Environmental Management, Energy Management Focus: Geosciences, Environmental Engineering, Environmental Management
Area of Study: Civil Engineering, Building Services, Power Engineering Focus: Optimisation of Existing Properties, Energy Design, Integral Planning, Green Building, Technical Building Management, Comfort, Health and Safety in Buildings, Building Automation, System Engineering, Energy-Based/Economic Evaluation of Buildings
Area of Study: Bioengineering, Process Technology, Power Engineering, Sustainability Sciences (Ecological) Focus: Biogenic Raw Materials, Residues and Waste Materials, Technical Processes for Material and Energetic Biomass Utilisation, Raw Materials and Energy Industry Framework, Energy Law and Plant Approval, Ecobalance, Current research and development projects
Area of Study: Electrical Engineering (Teaching Degree), Power Engineering Focus: N/A
Area of Study: Automation Technology, Information Technology, Electrical Engineering (Teaching Degree), Information Technology (Teaching Degree), Sensor Technology, Measurement Technology, Power Engineering Focus: N/A
Area of Study: Civil Engineering, Materials Technology, Power Engineering Focus: Perspectives and Potentials of Hydrogen-based Energy Systems, Fundamentals of Hydrogen as a Secondary Energy Carrier, Hydrogen Energy Markets, Hydrogen-based Energy Systems, Application of Hydrogen in Mobility, Application of Hydrogen in Industry, Applications of Hydrogen in Facility Engineering, Safety aspects, acceptance and material-technical challenges of hydrogen, National and International Hydrogen Propulsion
Area of Study: Chemical Engineering, Process Technology, Power Engineering Focus: Energy Process Engineering, Industrial Chemistry
Area of Study: Power Engineering Focus: N/A
Area of Study: Engineering and Management, Power Engineering Focus: Energy Engineering, Energy Management, Energy Management, Renewable Energy, Energy Trading, Geothermics, Solar Technology, Wind Energy, Energy Efficiency, Energy Politics
Area of Study: Process Technology, Engineering and Management, Power Engineering Focus: N/A
Area of Study: Electrical Power Engineering, Information Technology, Power Engineering Focus: N/A