Bachelor in Energy Engineering

4 Years Part Time Bachelors Program

University Carlos III de Madrid

Program Overview

The Bachelor in Energy Engineering prepares you to become a skilled professional in designing, managing, and optimizing energy systems across multiple sectors. This program equips you with both the technical expertise and business acumen needed to tackle real-world energy challenges, from renewable energy projects to smart grid management and thermal systems.

Curriculum Structure

Year 1 & 2: Building Your Foundation
During your first two years, you'll establish a solid foundation in mathematics, physics, and core engineering principles that underpin all energy systems. These foundational courses ensure you can tackle advanced concepts later on, giving you the scientific vocabulary and problem-solving toolkit that professionals rely on every day.

Year 3: Specialized Energy Knowledge
In your third year, the program becomes more specialized and exciting. You'll dive into courses like Power Electronics in Energetic Systems, Electric Power Generation, and Heat Transfer—subjects that directly apply to real energy infrastructure projects. You'll also study Machine Mechanics and Fluid Transport and Hydraulic Machinery, learning how to design and optimize the physical systems that move and convert energy. This year bridges theory and practice, preparing you for either professional work or advanced specialization.

Year 4: Capstone & Specialization
Your final year allows you to focus on areas that excite you most. You can choose from electives like Energy in Transport, Energy and Water, Advanced Management of Smart Grids, and Electronic Instrumentation in Energy Systems. Many students also complete Professional Internships during this period, gaining hands-on experience with companies leading the energy transition.

Focus Areas

Applied knowledge in power electronics, thermal engineering, electric machines, and fluid mechanics systems; expertise in renewable energy generation systems; technical and economic management of energy demand; analysis of financial viability for energy infrastructure projects.

Learning Outcomes

Design and optimize systems for energy transfer; manage energy demand from both technical and economic perspectives; apply power electronics and thermal engineering to solve complex problems; dimension and construct electrical generation systems powered by renewable sources; assess the social and economic profitability of energy investments.

Professional Alignment

This degree prepares graduates for roles as Technical Industrial Engineers with specialization in Energy, meeting official engineering qualification standards. Graduates are equipped to work across the entire energy sector—from power generation and grid management to renewable energy development and industrial energy optimization.

Employment Outlook

Graduates of UC3M engineering programs benefit from strong industry connections and consistent placement in leading energy companies, utilities, and renewable energy firms across Spain and Europe. The program's focus on both renewable and conventional energy systems ensures graduates are prepared for the energy transition that's reshaping the sector globally.

Experiential Learning (Research, Projects, Internships etc.)

In the Bachelor in Energy Engineering at Universidad Carlos III de Madrid (UC3M), you'll dive into hands-on learning right from the start, building real-world skills through well-equipped labs designed for practical classes in areas like power electronics, fluid mechanics, heat transfer, and electric power generation. These facilities, supported by top departments such as Thermal and Fluids Engineering, Electrical Engineering, and Mechanical Engineering, let you experiment with energy systems in a way that turns theory into expertise you'll use on the job—think simulating power grids or testing hydraulic machinery. With 94.8% of graduates landing related jobs, often via professional internships, this program sets you up for success by blending classroom knowledge with tangible practice:

- Well-equipped laboratories for hands-on classes in power electronics, machine mechanics, fluid transport, hydraulic machinery, and heat transfer, tied directly to the program's curriculum.
- Professional internships integrated into the degree, boosting employability and giving you real industry experience.
- Group project-oriented modules like CE16 (project office structures) and fluid mechanics applications (CE17), where you'll collaborate on energy engineering problems such as pipeline systems and fluid calculations.
- Specialized departmental labs from Electrical Engineering, Mechanical Engineering, Thermal and Fluids Engineering, and others, including unique facilities in Electronic Technology for validating circuits and systems.
- Software and digital tools like EcoStruxure™ Power Monitoring Expert for energy management, plus advanced spreadsheets and computing resources across engineering labs.
- Research-designated facilities through involved departments, with access to materials science labs for microstructure analysis and supercomputing for energy simulations (linked to broader UC3M engineering resources).

Applying is straightforward and could be your best step toward an exciting career in energy—spots are limited at the Leganés Campus, so let's chat about your next move!

Progression & Future Opportunities

Why the Bachelor in Energy Engineering at UC3M Offers Real-World Learning You Won't Find Elsewhere

The Bachelor in Energy Engineering at Universidad Carlos III de Madrid stands out because it's built on hands-on experience, not just lectures. You'll work with well-equipped laboratories where you can apply what you learn in the classroom to real engineering challenges. The program brings together expertise from multiple specialized departments—from thermal and fluid engineering to electrical systems—giving you exposure to every angle of the energy sector. Plus, with an impressive 94.8% employment rate for graduates in energy-related fields, this isn't theoretical knowledge; it's preparation that employers actually value.

The university has invested in cutting-edge facilities and resources that make learning tangible and practical:

- Specialized laboratories for hands-on classes equipped with computers and professional software tailored to energy engineering projects
- EcoStruxure™ Power Monitoring Expert platform—an energy management software installed at UC3M that you'll use to monitor and analyze real power systems
- Multiple teaching and research laboratories across departments including the Electronic Technology Department, with facilities designed to validate everything from basic circuits to advanced engineering systems
- Professional internship programs integrated into the curriculum, with documented pathways connecting students to industry placements
- Interdisciplinary project work coordinated across the Electrical Engineering, Thermal and Fluids Engineering, Mechanical Engineering, and Systems Engineering departments, reflecting how real energy projects operate
- Access to university libraries and research institutes supporting both coursework and independent engineering design projects
- State-of-the-art computer labs where you'll work with industry-standard software for power generation, thermal systems design, and energy efficiency analysis

The curriculum itself is structured to build your practical skills systematically. In Year 3, you'll tackle specialized courses like Power Electronics in Energetic Systems, Electric Power Generation, and Heat Transfer—all with dedicated lab components where theory meets application.