Study programme

Official Degree

Graduate in Energy Engineering

Duration

240 ECTS

4 years

Location

Galarreta (Orona Ideo)

Class size

40 places

Languages

Spanish, Basque, English

Modality

On-site

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PDF Catalogue

Study programme

Becoming an Energy Engineering professional means mastering existing energy systems and knowing how to identify future needs. Therefore, in this degree you will learn to design energy machines, manage smart grids and identify new opportunities to improve energy efficiency in different systems and products.

Energy Engineering Degree subjects

Engineering

 

MATHEMATICS

You will be able to solve mathematical problems that may arise in engineering.

 

PHYSICS

You will learn to apply the laws of mechanics, thermodynamics and electromagnetism to solve problems.

 

GRAPHIC EXPRESSION

You will identify the necessary elements to create and interpret drawings and learn how to use digital tools to do so.

 

 

COMPUTER SCIENCE

You will acquire knowledge about programming, operating systems and databases applied to engineering.

Energías renovables

 

Electronics

You will acquire extensive knowledge in applied electronics in the field of renewable energy and electromobility.

 

Smart electricity grids

You will learn the fundamentals of the electricity grids of the future, which will include renewable energy and storage systems, the types of energy transition.

 

Photovoltaic energy

You will be able to convert the energy absorbed by a photovoltaic panel into electrical energy ready for consumption in a residential dwelling.

 

 

Wind energy

You will internalise how a wind generator converts wind into electrical energy.

Eficiencia energética

 

Energy self-sufficient buildings

You will develop the necessary skills to design buildings with zero net energy consumption from a thermal and electrical point of view.

 

Batteries

You will be able to size and model battery-based storage systems, understanding the principles of their operation.

 

Electric mobility

Understanding the elements that cause an electric vehicle to move will allow you to contribute to the transition to electric mobility.

 

 

Automation

You will learn to design and develop equipment and systems to automate smart energy consumption installations.

 

Empresa

 

Industrial organisation

You will learn the basic concepts for improving energy efficiency in the organisation of industrial plants.

 

Audits

You will have the necessary technical knowledge to carry out energy audits in different fields.

 

Production systems

You will gain the necessary skills to improve energy efficiency and the management of manufacturing systems.

 

Skills

 

Project management

You will acquire the ability to organise and manage projects. You will learn about the organisational structure and the functions of a projects office.

 

Communication

You will learn to communicate your ideas using professional, clear and concise language that will allow you to express yourself better.

 

Innovative spirit

You will develop the ability to identify new opportunities and develop innovative solutions that improve energy efficiency.

 

Find out about the subjects you will be taking

 

You will work on real projects during the degree course

You will learn about the concepts required in a real environment, developing projects similar to those that you may encounter later on in a professional setting. In this way, you will assimilate the concepts more effectively and you will be able to cope much better when you make the transition to the workplace.

Find out about our system of learning through projects

 

Subjects of each course

KEY

  • BT: Basic Training
  • C: Compulsory
  • OP: Optional
  • T: Thesis
  • B: Basque
  • S: Spanish
  • E: English

 

1st Year • 1st semester

  Subject Type ECTS Language
PDF Mathematics I BT 6 B
PDF Graphic expression BT 6 B
PDF Fundamentals of computing science BT 6 B
PDF Physics I BT 6 B
PDF Methodological foundations BT 6 B
  Total   30  

  

1st Year • 2nd semester

  Subject Type ECTS Language
PDF Mathematics II BT 6 B
PDF Chemistry BT 6 B
PDF Energy and sustainability C 6 S
PDF Physics II BT 6 B
PDF Business BT 6 B
  Total   30  

  

2nd Year • 3rd semester

  Subject Type ECTS Language
PDF Automation C 4,5 S
PDF Fluid mechanics C 4,5 B
PDF Mathematics III BT 7,5 S
PDF Electrical machines C 4,5 B
PDF Electronic technology I C 6 B
Optional Offer 2nd year 1rd semester
PDF English I: Scientific and technical english OP(*) 3 E
PDF English II: Communication skills in english OP(*) 3 E
PDF Euskara I: Euskara for science and technique OP(*) 3 B
PDF History of science and technology OP(*) 3 B
PDF Prevention, safety and health in the workplace OP(*) 3 E
PDF Efficient team working OP(*) 3 E
PDF Sustainable development and environmental ethics OP(*) 3 E
PDF Job training and orientation OP(*) 3 S
PDF Writing of scientific-technical texts OP(*) 3 S
PDF Ethics of engineer OP(*) 3 E
PDF University cooperation for a better world  OP(*) 3 B
PDF Professional placement I OP(*) 3 B, S, E
  Total   30  

* The student must choose from the optional subjects to reach the required 30 ECTS.

 

2nd Year • 4th semester

  Subject Type ECTS Language
PDF Thermal energy C 6 B
PDF Science and technology of materials C 4,5 B
PDF Microprocessors C 6 B
PDF Instrumentation and control C 4,5 B
PDF Electronic technology II C 6 B
Optional Offer 2nd year 2th semester
PDF English I: Scientific and technical english OP(*) 3 E
PDF English II: Communication skills in english OP(*) 3 E
PDF Euskara II: Oral communication in euskara OP(*) 3 B
PDF Efficient decision making OP(*) 3 E
PDF History of science and technology OP(*) 3 B
PDF Prevention, safety and health in the workplace OP(*) 3 E
PDF Sustainable development and enviromental ethics OP(*) 3 E
PDF Job training and orientation OP(*) 3 S
PDF Writing of scientifif-technical texts OP(*) 3 S
PDF Ethics of engineer OP(*) 3 E
PDF University cooperation for a better world OP(*) 3 B
PDF Professional placement II OP(*) 3 B, S, E
  Total   30  

* The student must choose from the optional subjects to reach the required 30 ECTS.

3rd Year • 5th semester

  Subject Type ECTS Langauge
PDF Electric power conversion C 6 E
PDF Energy storage technology C 4,5 E
PDF Process control C 6 E
PDF Thermo-fluid power generation cycles C 6 E
PDF Energy projects workshop C 3 E
Optional Offer 3rd year 1th semester
PDF 21st century challenges OP(*) 3 E
PDF Introduction to the teaching of engineering OP(*) 4,5 B
PDF Industrial sustainability OP(*) 4,5 S
PDF Food science and technology OP(*) 4,5 E
PDF Finances OP(*) 4,5 E
PDF Computational mathematics laborategy OP(*) 4,5 E
PDF Computer vision OP(*) 4,5 E
PDF Data analysis OP(*) 4,5 E
PDF Introduction to additive manufacturing OP(*) 4,5 E
PDF Calibration of measurement equipment OP(*) 3 E
PDF Profesional placement III OP(*) 4.5 E
PDF Internships for DUAL pathway I OP(*) 4.5 E
  Total   30  

* The student must choose from the optional subjects to reach the required 30 ECTS.

 

3rd Year • 6th semester

  Subject Type ECTS Language
PDF Distributed generation and renewable energy C 4,5 S
PDF Electromechanical power conversion C 6 B
PDF Data acquisition and monitoring systems C 6 B
PDF Electrical power generation and transport C 4,5 B
PDF Energy efficiency in components C 4,5 B
Optional Offer 3rd year 2th semester
PDF 21st century challenges OP(*) 3 E
PDF Introduction to the teaching of engineering OP(*) 4,5 B
PDF Industrial sustainability OP(*) 4,5 S
PDF Food science and technology OP(*) 4,5 E
PDF Finances OP(*) 4,5 E
PDF Computational mathematics laborategy OP(*) 4,5 E
PDF Computer vision OP(*) 4,5 E
PDF Data analysis OP(*) 4,5 E
PDF Introduction to additive manufacturing OP(*) 4,5 E
PDF Calibration of measurement equipment OP(*) 3 E
PDF Profesional placement IV OP(*) 4.5 E
PDF Internships for DUAL pathway II OP(*) 4.5 E
  Total   30  

* The student must choose from the optional subjects to reach the required 30 ECTS.

 

4th Year • 7th semester

  Optional modules Type ECTS Language
PDF New technologies and decision making in vuca environments OP(*) 15 S, E
PDF Silver economy and supporting technologies OP(*) 15 S, E
PDF Sustainable Technological Entrepreneurship Skills OP(*) 15 S, E
PDF Product design OP(*) 15 S
PDF Sustainable engineering OP(*) 15 S, E
PDF Functional prototyping OP(*) 15 B, S
PDF Simulation of multiphysics problems in engineering OP(*) 15 B, S
PDF Smart industry OP(*) 15 B
PDF Robotics and industrial automation OP(*) 15 S
PDF Industrial production OP(*) 15 S
PDF Industrial Technologies I OP(*) 15 B
PDF Industrial Technologies II OP(*) 15 B, S
PDF Design and development of digital products OP(*) 15 S, E
PDF Commercial process and sales OP(*) 15 S, E
PDF Renewable energies and electromobility OP(*) 15 B, S, E
PDF Energy transition OP(*) 15 S, E
PDF Introduction to biomedical engineering OP(*) 15 S, E
PDF Hydrogen for the energy transition OP(*) 15 S, E
PDF Work experience I OP(*) 15 B, S, E
PDF Internships for DUAL pathway III OP(*) 15 B, S, E
PDF Work experience II OP(*) 15 B, S, E
PDF Internships for DUAL pathway IV OP(*) 15 B, S, E
  Total   30  

  

4th Year • 8th semester

  Subject Type ECTS Language
PDF Work experience III OP 18 B, S, E
PDF Internships for DUAL pathway V OP 18 B, S, E
PDF Thesis T 12 B, S, E
  Total   30  

  

 

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