Bachelor's degree programme Sustainable Energy Systems (B.Eng.)

NA On Campus Bachelors Program

Technical University of Applied Sciences Wurzburg Schweinfurt

Program Overview

The Bachelor's in Sustainable Energy Systems (B.Eng.) at THWS equips you with interdisciplinary skills in technology, economics, and law to tackle the energy transition head-on, perfect for motivated students passionate about renewables, engineering, and sustainability who want hands-on projects in state-of-the-art labs. You'll gain comprehensive expertise through practice-oriented learning, industry cooperations, elective specializations like battery systems or energy management, and options for internships or international exchanges—all at the modern Schweinfurt Campus Ledward with no admission restrictions.

### Curriculum structure
1st to 2nd semester (Foundation phase):
You'll kick off with a solid base in Mathematics, Physics, and Fundamentals of Electrical Engineering to master the building blocks of energy systems, while diving into Business Administration for Engineers and Chemistry of Sustainable Energy Systems to understand the economic and material sides of green tech. This setup gives you a well-rounded start, blending technical rigor with real-world context so you're ready to tackle energy challenges from day one. It's exciting how quickly these fundamentals click into place through our interactive labs.

3rd to 6th semester (Specialisation and advanced phases):
Building on your foundations, you'll explore advanced topics with electives in areas like drives, battery systems, energy management, high-voltage technology, power electronics, and heating networks, letting you tailor your path to passions such as renewables or smart grids. Hands-on projects and cooperations with industry partners sharpen your skills in simulation, measurement technology, and life cycle analyses, preparing you for the internship semester where you apply it all in a professional setting. Our faculty from Applied Natural Sciences, Electrical Engineering, and more ensure you're always connected to cutting-edge developments.

7th semester (Practical completion):
Cap it off with a bachelor's thesis tied to real industry needs, often in partnership with local energy innovators, plus your internship for that crucial work experience. This final push integrates everything—from technical design to sustainable economics—giving you a portfolio that stands out to employers.

Focus areas: Battery systems, energy management, high-voltage technology, power electronics, heating networks, drives, simulation, measurement technology, and life cycle analyses via elective modules.

Learning outcomes: Graduates emerge with expertise in sustainable energy tech, economic viability, legal frameworks, and practical problem-solving—ready to design, optimize, and implement green energy solutions.

Professional alignment (accreditation): This accredited B.Eng. program aligns directly with Germany's energy transition goals, featuring cooperative study options and ties to institutes like IEHT for power systems and renewables research.

Reputation (employability rankings): THWS's practice-focused engineering programs, including Sustainable Energy Systems, boast strong industry links and alumni in key roles like climate policy—highlighted by visits from experts like MP Markus Hümpfer praising our MAVEL Lab and program momentum—with no formal rankings listed but proven through regional cooperations and high demand in the All Electric Society.

Check out the full details and apply here: https://www.thws.de/en/studies-at-thws/studying-at-thws/degree-programmes/sustainable-energy-systems/

Experiential Learning (Research, Projects, Internships etc.)

At THWS's Bachelor's in Sustainable Energy Systems (B.Eng.), you'll dive straight into hands-on learning that builds real-world skills for the energy transition, right from the foundation phase with modules in physics, electrical engineering fundamentals, and chemistry tailored to sustainable systems. You'll get access to cutting-edge facilities through institutes like the Institute for Sustainable Energy Systems (INSYS) and the Center for Electrical Power Systems and Renewable Energy, where students join interdisciplinary projects on topics like district heating networks, heat pumps, and renewable integration—often through bachelor's theses with real partners like local energy co-operatives. This practical focus means you're not just studying theory; you're simulating systems, analyzing data, and contributing to climate-neutral tech that regional industries need.

Here's how you'll gain that edge with specific program-linked opportunities::
- Laboratories and research institutes: Work in specialized labs at INSYS (cross-faculty with five research professors) and the IEHT Center for Electrical Power Systems and Renewable Energy, focusing on multiphysical simulations for district heating, sector coupling, and waste heat systems—perfect for hands-on energy system experiments.
- Simulation and digital tools: Use advanced simulation models for hydraulic/thermodynamic analysis of heat pumps, heating networks, and energy storage (like batteries, hydrogen, thermal), plus Integrated Assessment Models (IAMs) and life cycle assessments (LCA) to optimize low-carbon strategies.
- Group projects and theses: Collaborate on real projects like DekaHEAT (decarbonizing district heating with heat pump simulations) or the Schwebenried co-operative's local heating network powered by wind, PV, and wood chips—often as team-based bachelor's theses with industry and municipal partners.
- Internships and industry ties: Engage in applied research with SMEs via projects like enefit, a digital platform for energy efficiency and hydrogen integration, building practical experience for internships in Mainfranken's energy sector.

Imagine applying to a program where your projects directly shape sustainable communities—spots at Schweinfurt's Campus Ledward are open with no admission restrictions, so you can start building your green engineering career now. Check the full facilities list here: https://www.thws.de/en/research/institutes/insys/research-fields/.

Progression & Future Opportunities

In the Bachelor's degree programme Sustainable Energy Systems (B.Eng.) at THWS in Schweinfurt, you'll dive right into hands-on learning that builds real-world skills for the energy transition, blending theory with practical projects right from the start. Through close ties to leading research institutes like INSYS and IEHT, you'll work on cutting-edge topics like district heating networks, heat pumps powered by renewables, and multiphysical simulations—often contributing to live collaborations with local cooperatives and industry partners. This means gaining expertise in simulation tools, energy system modeling, and optimization that employers crave, all while using facilities dedicated to sustainable tech at the Campus Ledward site.

Here's how you'll get that practical edge, tailored to this program:
- Laboratories and research centers: Access the Institute for Sustainable Energy Systems (INSYS) for interdisciplinary work on energy systems analysis, life cycle assessments, and sector coupling like electricity, heating, and mobility—students join projects on decarbonizing district heating with heat pumps and waste heat recovery.
- Dedicated research facilities: Use the Center for Electrical Power Systems and Renewable Energy at IEHT to explore sustainable power transformation, including real bachelor theses on local heating networks fed by wind, PV, and wood chips in partnerships like with Energieversorgung Schwebenried eG.
- Simulation and digital tools: Master multiphysical simulation tools for municipal heat planning, network optimization, and energy neighborhood concepts, plus Integrated Assessment Models (IAMs) for low-carbon strategies and techno-economic analysis.
- Group projects and theses: Collaborate on applied research like the DekaHEAT project (optimizing heat pumps in district heating) or enefit platform for SME energy efficiency—INSYS involves students directly in industry-relevant work across faculties.
- Real-world application: Engage in projects addressing regional energy challenges, such as holistic village energy supply (heat, electricity, mobility) and cross-sector systems like hydrogen integration and energy storage (batteries, thermal).

Imagine applying to a program where you're not just studying—you're shaping the future of green energy with these top-notch resources. The application is open with no restrictions, so let's get you started on your path to a B.Eng. that makes a difference. Check the full facilities and institutes here: https://www.thws.de/en/research/institutes/insys/research-fields/