You may follow this link to get a summary of the subjects information.
The detailed information of each of these subject can be found here.
The calendar schedule for this year is available in the tab "Calendario Académico".
This course analyzes the technical requirements of offshore wind generators, in terms of power elements, electrical generator, control and auxiliary systems, as well as structural requirements. The different technologies involved are compared, and the main requirements from the point of view of operation and maintenance are established.
ECTS: 4
Optional
SIES Code: MCEESP03-2-007
The planning of renewable energy facilities is analyzed and designed, including the investigation of the location. Feasibility study of renewable energy facilities, as well as decision making based on objective criteria. A detailed design of offshore wind renewable energy installations is carried out.
ECTS: 5
Optional
SIES Code: MCEESP03-2-008
In this course the student will obtain an overview of the investments and costs necessary to supply electricity, taking into account the main economic and financial conditions.
ECTS: 4
Optional
SIES Code: MCEESP03-2-003
Modern Project Management techniques are discussed in this subject. Special emphasis will be placed on the management of investment projects and their feasibility analysis, applying financial concepts to electric power projects and performing different case studies. The course will focus on renewable generation, especially offshore wind power.
ECTS: 4
Optional
SIES Code: MCEESP03-2-004
The aim is to provide an overview of the different existing alternatives for electricity generation and primary energy production, as well as the expected evolution of this type of technology.
ECTS: 4
Optional
SIES Code: MCEESP03-2-005
The aim is to review the different existing alternatives for the simulation of electrical power systems using programs such as PSIM, DIGSLENT, Matlab/Simulink, etc.
ECTS: 3
Mandatory
SIES Code: MCEESP03-2-001
In this course, analysis and simulation of power systems will be carried out, specifically considering the existence of FACTS (Flexible AC Transimissions Systems) and HVDC (High Voltage DC) in the system.
ECTS: 3
Mandatory
SIES Code: MCEESP03-2-002
The aim is to provide the necessary knowledge to acquire a global vision of reality, which complements conventional technical learning with ethical principles that should guide professional practice, including critical thinking skills, respect for diversity, a social approach to engineering, study of the relationship between development and energy, analysis of cases of satisfaction of basic needs, etc.
ECTS: 3
Optional
SIES Code: MCEESP03-2-006
The objective of this course is the incorporation of the technologies previously discussed to the analysis and design of power and control systems in electric and hybrid vehicles.
ECTS: 6
Optional
SIES Code: MCEESP03-2-009
Together with the previous subject, the power topologies and control strategies for the different alternatives in the energy sources of electric and hybrid vehicles are analyzed. Also, the general aspects of energy storage in power systems are considered.
ECTS: 6
Optional
SIES Code: MCEESP03-2-010
The objective of this course is to provide the student with knowledge about flexible alternating current transmission systems (FACTS) and direct current transmission systems (HVDC), with particular emphasis on the power topologies used and converter control strategies.
ECTS: 3
Optional
SIES Code: MCEESP03-2-011
This course is divided into two parts, the first will focus on microgrids and the second on technologies for the development of smart grids.
ECTS: 6
Optional
SIES Code: MCEESP03-2-013
The aim is to deepen the ability to simulate, model and study the joint behavior of these power systems included in electric and hybrid vehicles and their control equipment.
ECTS: 3
Optional
SIES Code: MCEESP03-2-012
The aim is to review the different existing alternatives for the simulation of electrical power systems using programs such as PSIM, DIGSLENT, Matlab/Simulink, etc.
ECTS: 3
Mandatory
SIES Code: MCEESP03-2-001
In this course, analysis and simulation of power systems will be carried out, specifically considering the existence of FACTS (Flexible AC Transimissions Systems) and HVDC (High Voltage DC) in the system.
ECTS: 3
Mandatory
SIES Code: MCEESP03-2-012