Energy and Electrical Engineering, Bachelor of Engineering

In our Energy and Electrical Engineering, Bachelor of Engineering program at Turku University of Applied Sciences, you'll dive straight into hands-on learning from day one, building real-world skills in energy systems, electrical engineering, and sustainable tech through our top-notch labs and research facilities. Our Faculty of Engineering offers high-quality learning environments where you can work on actual projects, test equipment, and collaborate with companies—think battery testing, solar modules, and engine simulations that prepare you for industry right away. You'll get involved in cutting-edge research groups like New Energy, gaining practical expertise in everything from electric vehicle charging to heat transfers and energy storage.

Here's what makes our experiential learning so powerful: direct access to specialized tools, projects, and opportunities tailored to energy and electrical engineering:

- Battery laboratory for testing battery packs, cells, and performance in electric vehicles—from e-bikes to e-buses—as part of the New Energy Research Centre.
- Solar module laboratory and rooftop PV production plant for reliable solar testing and renewable energy experiments.
- Engine and powertrain laboratory to study electric powertrains, emissions, fuels, and hybrid tech up to 400 kW, with future hydrogen research.
- NERC laboratory (300 m² state-of-the-art space) including Solar Lab, Des Lab, and Battery Lab for energy production, distribution, and storage R&D.
- Opportunities for internships and theses with the New Energy research group, plus courses in renewable energy specialization.
- Group projects and RDI collaboration through over 200 annual projects (with €10M+ funding), partnering with companies like AGCO Power, Wärtsilä, and Neste.
- Specific software and simulation tools like GT-Suite, Matlab/Simulink for powertrain modeling, plus CFD, FEM, and thermodynamics in Computational Engineering.
- Involvement in real-world applications via research groups like New Energy, Engine and Powertrain, and Computational Engineering and Analysis.

Imagine applying to a program where you're not just studying theory—you're testing batteries, simulating energy systems, and interning with industry leaders before you graduate. This is your chance to build a career in the booming green energy sector. 

Why Energy and Electrical Engineering at Turku University of Applied Sciences Is Your Gateway to Real-World Impact

The Energy and Electrical Engineering program at Turku University of Applied Sciences stands out because it's built on learning by doing. From day one, you're not just studying theory in a classroom—you're working alongside industry professionals in state-of-the-art facilities, tackling real problems that companies and communities are actually facing right now. This hands-on approach means you'll graduate as a practice-oriented professional with skills that employers are actively looking for, not just theoretical knowledge.

The Faculty of Engineering has invested heavily in creating quality learning environments where you'll work on live projects with companies and organizations. You'll have access to laboratories and equipment that represent more than €10 million in research infrastructure investment in recent years. This means you're learning on professional-grade tools from the start—the same equipment used in cutting-edge energy research and development across Finland.

Your Experiential Learning Toolkit

Here's what you'll actually have access to and work with:

- Battery Laboratory: Test and develop battery technology for everything from e-bikes to e-buses as part of the New Energy research group's sustainable mobility focus
- Solar Module Laboratory: Gain hands-on experience with renewable energy systems through reliable domestic solar module testing services
- Engine and Powertrain Laboratory: Study fuel efficiency, emissions, and hybrid-electric technologies using electric dynamometers and simulation software (GT-Suite and Matlab/Simulink)
- New Energy Research Center (NERC): A state-of-the-art 300 m² laboratory space featuring the Solar Lab, Design Lab, and Battery Lab, plus a PV production plant on the building roof
- Material Engineering Lab and Vehicle Lab: Develop practical skills in materials and vehicle technology relevant to energy systems
- Internship and Thesis Opportunities: The New Energy research group actively welcomes students to complete internships and thesis projects, directly engaging you in ongoing research
- Live Industry Projects: Participate in more than 200 active RDI (Research, Development, and Innovation) projects running annually, many offering collaborative opportunities with companies like AGCO Power, Neste, and Wärtsilä
- Simulation-Based Learning: Work with advanced software tools including hardware-in-the-loop testing and vehicle powertrain simulation, bridging theoretical concepts with practical testing
- Research Group Integration: Join specialized teams like the Engine and Powertrain Research Group, which focuses directly on energy use and components for land and marine transport vehicles
- Specialization Pathways: Choose renewable energy as one of three main fields of specialization within the degree program, directly aligned with New Energy research activities

The program connects you with a network of real industry partners and gives you exposure to emerging technologies like hydrogen fuel research—something the Engine and Powertrain research group is developing for future capabilities.