Bachelor's degree in Industrial Technology Engineering + master's degree in Industrial Engineering. Sequential academic programme (PARS): Industrial Engineer Terrassa School of Industrial, Aerospace and Audiovisual Engineering (ESEIAAT)
The bachelor’s degree in Industrial Technology Engineering provides knowledge of the range of industrial technologies and offers a multidisciplinary, unifying view of the field of industrial engineering. You will be trained in basic scientific and technological disciplines that will equip you to learn about new methods and theories and gain in-depth knowledge of industrial fields, including technological and business aspects such as project planning, supervision and management, whilst observing social and environmental requirements. Upon completion of your studies, you will have developed the versatility to adapt to changing working environments and to future technological developments that will improve products and processes in the sector.
General details
- Duration
- 4 years
- Study load
- 240 ECTS credits (including the bachelor's thesis). One credit is equivalent to a study load of 25-30 hours.
- Delivery
- Face-to-face
- Language of instruction
Check the language of instruction for each subject (and timetable) in the course guide in the curriculum.
Information on language use in the classroom and students’ language rights.
- Fees and grants
- Approximate fees per academic year: €1,107 (€2,553 for non-EU residents). Consult the public fees system based on income (grants and payment options).
- Location
- Terrassa School of Industrial, Aerospace and Audiovisual Engineering (ESEIAAT)
- Official degree
- Recorded in the Ministry of Education's degree register
Admission
- Places
- 180
- Registration and enrolment
- What are the requirements to enrol in a bachelor's degree course?
- Legalisation of foreign documents
- All documents issued in non-EU countries must be legalised and bear the corresponding apostille.
Double-degree agreements
With other universities or centers of higher education in Catalonia- Bachelor's degree in Industrial Technology Engineering + Master's degree in Industrial Engineering + Bachelor's degree in Business Administration and Management (UOC)
- Bachelor's degree in Industrial Technology Engineering + Master's degree in Industrial Engineering + Bachelor's degree in Economics (UOC)
Within the framework of the courses offered by the Interdisciplinary Higher Education Centre (CFIS)
You can also take an interdisciplinary double degree coordinated by the CFIS at two UPC schools.
Further information on the CFIS website
Professional opportunities
- Professional opportunities
- Supervision and management of projects, facilities, plants, businesses and technology centres in a range of industrial sectors such as energy; iron and steel; metallurgy; chemicals; robotics; the automotive and rail industries; metal, mechanical and electrical construction; and smart materials, nanotechnology and bioengineering
- Design, calculation and design of products, processes, facilities and equipment.
- Strategic planning, quality management and environmental management.
- Research, development and innovation in products, processes and methods.
Organisation: academic calendar and regulations
- Academic calendar
- General academic calendar for bachelor’s, master’s and doctoral degrees courses
- Academic regulations
- Academic regulations for bachelor’s degree courses at the UPC
- Language certification and credit recognition
- Queries about language courses and certification
- Barcelona · ETSEIB · Show degree
Curriculum
First semester
Second semester
Third semester
Fourth semester
Fifth semester
Sixth semester
- Advanced Fluid Mechanics 3
- Air Pollution and Treatment Technologies 6
- Big Data Tools and Applications 3
- Bim for Engineers 3
- Creative Lab 6
- Embedded Systems Programming 3
- Experimental Designs and Quality Control 4.5
- Heat Technology 6
- High Performance Computing for Aerospace Engineering 3
- Hospital Engineering 6
- Introduction to Big Data 3
- Introduction to Biomedical Engineering 3
- Introduction to Cubesats 3
- Introduction to Dynamical Systems and Ergodic Theory 3
- Introduction to Rockets 3
- Key Factors for the Professional Success 3
- Leadership and Professional Development in Engineering 3
- Lean Construction and Circular Economy Basics 3
- Manufacturing Organization 6
- Materials Technology 4.5
- Mobile Programming 6
- Polymers in Engineering 6
- Power Converters 4.5
- Systems Modelling and Simulation 4.5
- Uav Generative Design 6
- Uav Research & Development 3
- Uav Research & Development Project 3
Seventh semester
Eighth semester
- Advanced Control Systems 3
- Advanced Programming Oriented Towards Goals 3
- Agrivoltaics: Photovoltaic Solar Energy for Sustainable Development 3
- Alternative Propulsion Vehicles 3
- Analysis of Thermal and Fluid Dynamics Issues in Industrial And/Or Aeronautical Systems and Equipment 3
- Application of Matlab-Octave to Thermal Engineering Problems 3
- Application of Open-Source Cfd to Engineering Problems 3
- Application of Python/Matlab/C++ to Thermal Engineering Mechanical and Aeronautical Problems 3
- Applied Research Methods in Engineering Science 3
- Applied UAV Control 3
- Automobile Electronics 3
- Autonomous Vehicle Programming 3
- Bachelor's Thesis 12
- Basic Robotics 6
- BIM Management 3
- Building Energy Certification 3
- Characterization Techniques for Metallic Alloys 3
- Control and Guidance of Mobile Robots 6
- Creative Programming with Processing 3
- Critical Thinking for 3D Printing 6
- Decision Criteria - Engineer as Employee or Engineer as Entrepreneur 3
- Digitalization Applied to Energy Systems 3
- Electrical Project Design with Eplan 3
- Electromobility and Electrical Aircraft Systems 3
- Energy Efficiency Systems 3
- Energy Storage and Conversion Application 3
- Engines and Powertrains 3
- Experimental Labs in Fluids 3
- Finite Elements in Structural Analysis 3
- Fluid Dynamic Technologies in Vehicles 3
- Fluid Mechanics II 3
- Fundamentals of Rams Engineering in the Certification of Aerospace Products 3
- Fundamentals of Robotics 3
- Greening the Built Environment 3
- Highly Automated Production Systems 3
- Hydraulic Hybrid Machines 3
- Hydrogen's Future: Technologies and Applications 3
- Industrial Organic Chemistry 3
- Information and Communication Technology 3
- Initiation to Paper and Graphic Industrial Tecnologies 6
- Innovation and Creativity: Tools for Engineering 3
- Introduction to Forensic Expert for Technique Dispute Resolution 3
- Introduction to Lean Construction 3
- Introduction to Object-Oriented Programming 3
- Introduction to Reverse Engineering 3
- Introduction to Robotics and Automation 3
- Introduction to Sailplanes 3
- Knowledge of Industrial Companies and Professional Practice 3
- Lasers and Photonic Technologies for Engineering 3
- Learning From Mechanical Failure in Engineering 3
- Life Cycle Assessment 3
- Lightweight Materials for Engineering Applications 3
- Lignocellulosic Biorefineries 3
- Materials Characterization and Surface Engineering 3
- Materials Chemistry 3
- Materials Engineering: Learning From Disasters 3
- Mathematical Models in Engineering 3
- Mathematics and Computing Engineering 3
- Mechanical Design and Manufacturing 3
- Mechanics of Robotic Manipulation 3
- Modelisation, Complexity and Sustainability 6
- Motorbikes Design and Secrets 3
- Nonlinear Systems, Chaos and Control in Engineering 3
- Numerical Methods for Engineers 6
- Optimization of Industrial Processes 3
- Planning, Simulation and Supervision of Industrial Processes 6
- Plug-In Hybrid Electric Vehicles. Concept, Design and Project of Electric Propulsion Systems 3
- Professional Communication for Engineers Through Virtual Reality 3
- Professional Communication for Engineers Through Virtual Reality II 3
- Programming of Mobiles Android 6
- R&D in Engineering 3
- Real-Time Programming and Database Systems 3
- Robotics and Automation 3
- Safety Robotics and Automation for Industry 4.0 3
- Spoken Academic and Professional Skills 3
- Sports Engineering 3
- Surface Chemistry for Industrial Applications Design 3
- Sustainable Manufacturing Technologies 3
- Technological Projects I 6
- Technological Projects II 6
- Technology, Society and Globalization: the Sustainability Challenge in the XXIth Century 6
- Telemetry and Smart Electronics Projects 3
- Thermal Analysis Techniques Applied to Engineering Materials 3
- Thermodynamics of Materials 3
- UAV Introduction to Drone Flight (Uas) 3
- Unit Operation in Engineering 3
- Urban and Regional Planning 3
- Validating and Communicating Innovative Ideas 6
- Vehicle Dynamics 3
- Vibroacoustics 3
- Web Applications 3
- Wind Turbines Design 3
- Written Academic Skills for Engineering 3
- CompulsoryECTS
- OptionalECTS
- ProjectECTS
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